About two-thirds of children with juvenile idiopathic arthritis (JIA) were able to return to an inactive disease state within 12 months after a flare occurred when they took a break from medication, and slightly more than half – 55% – reached this state within 6 months, according to findings from registry data examined in a study published in Arthritis Care & Research.

Sarah Ringold, MD, MS, of the Seattle Children’s Hospital, and coauthors used data from participants in the Childhood Arthritis and Rheumatology Research Alliance (CARRA) Registry to track what happened to patients when they took a break from antirheumatic drugs. They described their paper as being the first to use a large multicenter database such as the CARRA Registry to focus on JIA outcomes after medication discontinuation and flare, to describe flare severity after medication discontinuation, and to report patterns of medication use for flares.

“To date, JIA studies have established that flares after medication discontinuation are common but have generated conflicting data regarding flare risk factors,” Dr. Ringold and coauthors wrote. “Since it is not yet possible to predict reliably which children will successfully discontinue medication, families and physicians face uncertainty when deciding to stop medications, and there is significant variation in approach.”

The study will be “very helpful” to physicians working with parents and patients to make decisions about discontinuing medications, said Grant Schulert, MD, PhD, of Cincinnati Children’s Hospital, who was not involved with the study.

“It gives some numbers to help us have those conversations,” he said in an interview.

But interpreting those numbers still will present parents with a challenge, Dr. Schulert said.

“You can say: ‘The glass is half full; 55% of them could go back into remission in 6 months, a little bit higher in a year,’ ” he said. “Or the glass is half empty; some of them, even at a year, are still not back in remission.”

But “patients aren’t a statistic. They’re each one person,” he said. “They’re going to be in one of those two situations.”

There are many challenges in explaining the potential advantages and disadvantages of medication breaks to patients and families, said the study’s senior author, Daniel B. Horton, MD, MSCE, of Rutgers Robert Wood Johnson Medical School and the Rutgers Center for Pharmacoepidemiology and Treatment Science, both in New Brunswick, N.J., and the department of biostatistics and epidemiology at Rutgers School of Public Health, Piscataway, N.J.

“One of the challenges of explaining the pros and cons about stopping medicines is the uncertainty – not knowing if and when a flare will occur, if and when a flare would be well controlled, and, for treatments that are continued, if and when complications of that treatment could occur,” Dr. Horton said in an interview. “Many patients and families are afraid about what the medicines might do long-term and want to stop treatment as soon as possible, despite the risks of stopping. Another challenge is that we do not yet have accurate, widely available tests that help us predict these various outcomes. Still, it is important for clinicians to explain the risks of continuing treatment and of stopping treatment, and to give patients and families time to ask questions and share their own values and preferences. If these conversations don’t happen, patients or families may just stop the medicines even if stopping is not warranted or is likely to lead to a poor outcome.”
 

Study details

Of the 367 patients studied, 270 (74%) were female. Half of all patients in the study had extended oligoarticular/rheumatoid factor (RF)–negative polyarticular JIA, and the second most common category was persistent oligoarthritis at 25%.The median age at disease onset was 4, with a range of 2-9 years.

The median age at disease flare was 11.3, with a range of 7.5-15.7 years. At the time of flare, children had a median disease duration of 5.1 years and had been off systemic disease-modifying antirheumatic drugs (DMARDs) for a median of 205 days. In addition, at the time of flare, the median active joint count was 1 and the maximum active joint count was 33, and approximately 13% of children had 5 or more active joints.

Conventional synthetic DMARDs were the most commonly stopped medications (48%), and tumor necrosis factor inhibitors (TNFi) were second (42%), Dr. Ringold and coauthors wrote.

Independent predictors of successful recapture of inactive disease included TNFi as recapture medication and history of a non-TNFi biologic use.

Dr. Ringold and coauthors noted limitations of the registry-based study. This is “a convenience sample of patients who are cared for and consented at academic sites, and additional study may be needed to understand how these results generalize to other countries and health systems,” they wrote.

And there may have been misclassification and inclusion of patients who stopped medications for self-perceived well-controlled disease, they wrote.

“Although the intent was to include children who stopped their medications at their physician’s direction due to physician-confirmed inactive disease, patients who had been previously enrolled in the registry were included if inactive disease was listed as the reason for medication discontinuation,” they said.

Still, these results should serve as a “benchmark for future studies of medication discontinuation” in JIA, the researchers wrote.
 

‘Fortunate challenge’

In an accompanying editorial, Melissa L. Mannion, MD, MSPH, and Randy Q. Cron, MD, PhD, of the University of Alabama at Birmingham noted that pediatric rheumatologists now face what they call the “fortunate challenge” of helping patients and parents decide whether treatments can be stopped in cases where there’s been a sustained period of inactive disease.

“Once a patient has reached the goal of inactive disease, why would patients or providers want to stop medications?” Dr. Mannion and Dr. Cron wrote. “We tell our patients that we want them to be like everyone else and have no limitations on their goals. However, the burden of chronic medication to achieve that goal is a constant reminder that they are different from their peers.”

In their article, Dr. Mannion and Dr. Cron noted what they called “interesting” results observed among children with different forms of JIA in the study.

Children with “systemic JIA had the highest recapture rates at 6 or 12 months, perhaps reflecting the high percentage use of [biologic] DMARDs targeting interleukin-1 and IL-6, or maybe the timeliness of recognition (e.g., fever, rash) of disease flare,” Dr. Mannion and Dr. Cron wrote. “Conversely, children with JIA enthesitis-related arthritis (ERA) had the lowest recapture rate at 6 months (27.6%, even lower than RF-positive polyarticular JIA, 42.9%).”

Still, the editorial authors said that “additional well-controlled studies are needed to move pediatric rheumatology deeper into the realm of precision medicine and the ability to decide whether or not to wean DMARD therapy for those with clinically inactive disease.”

Pamela Weiss, MD, of Children’s Hospital of Philadelphia, said in a comment that the study by Dr. Ringold and colleagues, as well as others that address similar questions, “are critically needed to move our field towards a personalized medicine approach.” But she added that while the paper from Dr. Ringold and colleagues addresses an important question, it “should be interpreted with some caution.”

She noted, for example, that “disease flare,” which prompted reinitiation of treatment and study entry, was not always aligned with a registry visit, which makes determination of the primary exposure less stringent. The rate of recapture across JIA categories differed by as much as 20% depending upon which inactive disease assessment outcome was used – either the study’s novel but unvalidated primary outcome or the validated secondary outcome of using the clinical Juvenile Arthritis Disease Activity Score based on 10 joints. The resulting difference was marked for some JIA categories and minimal for others.

“The flare and recapture rates are likely to be vastly different for JIA categories with distinct pathophysiology – namely systemic JIA, psoriatic arthritis, and enthesitis-related arthritis,” Dr. Weiss said. “While numbers for these categories were too small to make meaningful conclusions, grouping them with the other JIA categories has limitations.”

The research was funded by a Rheumatology Research Foundation Innovative Research Award.

Dr. Ringold’s current employment is through Janssen Research & Development. She changed primary employment from Seattle Children’s to Janssen during completion of the analyses and preparation of the manuscript. She has maintained her affiliation with Seattle Children’s. Dr. Schulert has consulting for Novartis. Dr. Cron reported speaker fees, consulting fees, and grant support from Sobi, consulting fees from Sironax and Novartis, speaker fees from Lilly, and support from Pfizer for working on a committee adjudicating clinical trial side effects.

* This article was updated on 8/11/2022.

About two-thirds of children with juvenile idiopathic arthritis (JIA) were able to return to an inactive disease state within 12 months after a flare occurred when they took a break from medication, and slightly more than half – 55% – reached this state within 6 months, according to findings from registry data examined in a study published in Arthritis Care & Research.

Sarah Ringold, MD, MS, of the Seattle Children’s Hospital, and coauthors used data from participants in the Childhood Arthritis and Rheumatology Research Alliance (CARRA) Registry to track what happened to patients when they took a break from antirheumatic drugs. They described their paper as being the first to use a large multicenter database such as the CARRA Registry to focus on JIA outcomes after medication discontinuation and flare, to describe flare severity after medication discontinuation, and to report patterns of medication use for flares.

“To date, JIA studies have established that flares after medication discontinuation are common but have generated conflicting data regarding flare risk factors,” Dr. Ringold and coauthors wrote. “Since it is not yet possible to predict reliably which children will successfully discontinue medication, families and physicians face uncertainty when deciding to stop medications, and there is significant variation in approach.”

The study will be “very helpful” to physicians working with parents and patients to make decisions about discontinuing medications, said Grant Schulert, MD, PhD, of Cincinnati Children’s Hospital, who was not involved with the study.

“It gives some numbers to help us have those conversations,” he said in an interview.

But interpreting those numbers still will present parents with a challenge, Dr. Schulert said.

“You can say: ‘The glass is half full; 55% of them could go back into remission in 6 months, a little bit higher in a year,’ ” he said. “Or the glass is half empty; some of them, even at a year, are still not back in remission.”

But “patients aren’t a statistic. They’re each one person,” he said. “They’re going to be in one of those two situations.”

There are many challenges in explaining the potential advantages and disadvantages of medication breaks to patients and families, said the study’s senior author, Daniel B. Horton, MD, MSCE, of Rutgers Robert Wood Johnson Medical School and the Rutgers Center for Pharmacoepidemiology and Treatment Science, both in New Brunswick, N.J., and the department of biostatistics and epidemiology at Rutgers School of Public Health, Piscataway, N.J.

“One of the challenges of explaining the pros and cons about stopping medicines is the uncertainty – not knowing if and when a flare will occur, if and when a flare would be well controlled, and, for treatments that are continued, if and when complications of that treatment could occur,” Dr. Horton said in an interview. “Many patients and families are afraid about what the medicines might do long-term and want to stop treatment as soon as possible, despite the risks of stopping. Another challenge is that we do not yet have accurate, widely available tests that help us predict these various outcomes. Still, it is important for clinicians to explain the risks of continuing treatment and of stopping treatment, and to give patients and families time to ask questions and share their own values and preferences. If these conversations don’t happen, patients or families may just stop the medicines even if stopping is not warranted or is likely to lead to a poor outcome.”
 

Study details

Of the 367 patients studied, 270 (74%) were female. Half of all patients in the study had extended oligoarticular/rheumatoid factor (RF)–negative polyarticular JIA, and the second most common category was persistent oligoarthritis at 25%.The median age at disease onset was 4, with a range of 2-9 years.

The median age at disease flare was 11.3, with a range of 7.5-15.7 years. At the time of flare, children had a median disease duration of 5.1 years and had been off systemic disease-modifying antirheumatic drugs (DMARDs) for a median of 205 days. In addition, at the time of flare, the median active joint count was 1 and the maximum active joint count was 33, and approximately 13% of children had 5 or more active joints.

Conventional synthetic DMARDs were the most commonly stopped medications (48%), and tumor necrosis factor inhibitors (TNFi) were second (42%), Dr. Ringold and coauthors wrote.

Independent predictors of successful recapture of inactive disease included TNFi as recapture medication and history of a non-TNFi biologic use.

Dr. Ringold and coauthors noted limitations of the registry-based study. This is “a convenience sample of patients who are cared for and consented at academic sites, and additional study may be needed to understand how these results generalize to other countries and health systems,” they wrote.

And there may have been misclassification and inclusion of patients who stopped medications for self-perceived well-controlled disease, they wrote.

“Although the intent was to include children who stopped their medications at their physician’s direction due to physician-confirmed inactive disease, patients who had been previously enrolled in the registry were included if inactive disease was listed as the reason for medication discontinuation,” they said.

Still, these results should serve as a “benchmark for future studies of medication discontinuation” in JIA, the researchers wrote.
 

‘Fortunate challenge’

In an accompanying editorial, Melissa L. Mannion, MD, MSPH, and Randy Q. Cron, MD, PhD, of the University of Alabama at Birmingham noted that pediatric rheumatologists now face what they call the “fortunate challenge” of helping patients and parents decide whether treatments can be stopped in cases where there’s been a sustained period of inactive disease.

“Once a patient has reached the goal of inactive disease, why would patients or providers want to stop medications?” Dr. Mannion and Dr. Cron wrote. “We tell our patients that we want them to be like everyone else and have no limitations on their goals. However, the burden of chronic medication to achieve that goal is a constant reminder that they are different from their peers.”

In their article, Dr. Mannion and Dr. Cron noted what they called “interesting” results observed among children with different forms of JIA in the study.

Children with “systemic JIA had the highest recapture rates at 6 or 12 months, perhaps reflecting the high percentage use of [biologic] DMARDs targeting interleukin-1 and IL-6, or maybe the timeliness of recognition (e.g., fever, rash) of disease flare,” Dr. Mannion and Dr. Cron wrote. “Conversely, children with JIA enthesitis-related arthritis (ERA) had the lowest recapture rate at 6 months (27.6%, even lower than RF-positive polyarticular JIA, 42.9%).”

Still, the editorial authors said that “additional well-controlled studies are needed to move pediatric rheumatology deeper into the realm of precision medicine and the ability to decide whether or not to wean DMARD therapy for those with clinically inactive disease.”

Pamela Weiss, MD, of Children’s Hospital of Philadelphia, said in a comment that the study by Dr. Ringold and colleagues, as well as others that address similar questions, “are critically needed to move our field towards a personalized medicine approach.” But she added that while the paper from Dr. Ringold and colleagues addresses an important question, it “should be interpreted with some caution.”

She noted, for example, that “disease flare,” which prompted reinitiation of treatment and study entry, was not always aligned with a registry visit, which makes determination of the primary exposure less stringent. The rate of recapture across JIA categories differed by as much as 20% depending upon which inactive disease assessment outcome was used – either the study’s novel but unvalidated primary outcome or the validated secondary outcome of using the clinical Juvenile Arthritis Disease Activity Score based on 10 joints. The resulting difference was marked for some JIA categories and minimal for others.

“The flare and recapture rates are likely to be vastly different for JIA categories with distinct pathophysiology – namely systemic JIA, psoriatic arthritis, and enthesitis-related arthritis,” Dr. Weiss said. “While numbers for these categories were too small to make meaningful conclusions, grouping them with the other JIA categories has limitations.”

The research was funded by a Rheumatology Research Foundation Innovative Research Award.

Dr. Ringold’s current employment is through Janssen Research & Development. She changed primary employment from Seattle Children’s to Janssen during completion of the analyses and preparation of the manuscript. She has maintained her affiliation with Seattle Children’s. Dr. Schulert has consulting for Novartis. Dr. Cron reported speaker fees, consulting fees, and grant support from Sobi, consulting fees from Sironax and Novartis, speaker fees from Lilly, and support from Pfizer for working on a committee adjudicating clinical trial side effects.

* This article was updated on 8/11/2022.

About two-thirds of children with juvenile idiopathic arthritis (JIA) were able to return to an inactive disease state within 12 months after a flare occurred when they took a break from medication, and slightly more than half – 55% – reached this state within 6 months, according to findings from registry data examined in a study published in Arthritis Care & Research.

Sarah Ringold, MD, MS, of the Seattle Children’s Hospital, and coauthors used data from participants in the Childhood Arthritis and Rheumatology Research Alliance (CARRA) Registry to track what happened to patients when they took a break from antirheumatic drugs. They described their paper as being the first to use a large multicenter database such as the CARRA Registry to focus on JIA outcomes after medication discontinuation and flare, to describe flare severity after medication discontinuation, and to report patterns of medication use for flares.

“To date, JIA studies have established that flares after medication discontinuation are common but have generated conflicting data regarding flare risk factors,” Dr. Ringold and coauthors wrote. “Since it is not yet possible to predict reliably which children will successfully discontinue medication, families and physicians face uncertainty when deciding to stop medications, and there is significant variation in approach.”

The study will be “very helpful” to physicians working with parents and patients to make decisions about discontinuing medications, said Grant Schulert, MD, PhD, of Cincinnati Children’s Hospital, who was not involved with the study.

“It gives some numbers to help us have those conversations,” he said in an interview.

But interpreting those numbers still will present parents with a challenge, Dr. Schulert said.

“You can say: ‘The glass is half full; 55% of them could go back into remission in 6 months, a little bit higher in a year,’ ” he said. “Or the glass is half empty; some of them, even at a year, are still not back in remission.”

But “patients aren’t a statistic. They’re each one person,” he said. “They’re going to be in one of those two situations.”

There are many challenges in explaining the potential advantages and disadvantages of medication breaks to patients and families, said the study’s senior author, Daniel B. Horton, MD, MSCE, of Rutgers Robert Wood Johnson Medical School and the Rutgers Center for Pharmacoepidemiology and Treatment Science, both in New Brunswick, N.J., and the department of biostatistics and epidemiology at Rutgers School of Public Health, Piscataway, N.J.

“One of the challenges of explaining the pros and cons about stopping medicines is the uncertainty – not knowing if and when a flare will occur, if and when a flare would be well controlled, and, for treatments that are continued, if and when complications of that treatment could occur,” Dr. Horton said in an interview. “Many patients and families are afraid about what the medicines might do long-term and want to stop treatment as soon as possible, despite the risks of stopping. Another challenge is that we do not yet have accurate, widely available tests that help us predict these various outcomes. Still, it is important for clinicians to explain the risks of continuing treatment and of stopping treatment, and to give patients and families time to ask questions and share their own values and preferences. If these conversations don’t happen, patients or families may just stop the medicines even if stopping is not warranted or is likely to lead to a poor outcome.”
 

Study details

Of the 367 patients studied, 270 (74%) were female. Half of all patients in the study had extended oligoarticular/rheumatoid factor (RF)–negative polyarticular JIA, and the second most common category was persistent oligoarthritis at 25%.The median age at disease onset was 4, with a range of 2-9 years.

The median age at disease flare was 11.3, with a range of 7.5-15.7 years. At the time of flare, children had a median disease duration of 5.1 years and had been off systemic disease-modifying antirheumatic drugs (DMARDs) for a median of 205 days. In addition, at the time of flare, the median active joint count was 1 and the maximum active joint count was 33, and approximately 13% of children had 5 or more active joints.

Conventional synthetic DMARDs were the most commonly stopped medications (48%), and tumor necrosis factor inhibitors (TNFi) were second (42%), Dr. Ringold and coauthors wrote.

Independent predictors of successful recapture of inactive disease included TNFi as recapture medication and history of a non-TNFi biologic use.

Dr. Ringold and coauthors noted limitations of the registry-based study. This is “a convenience sample of patients who are cared for and consented at academic sites, and additional study may be needed to understand how these results generalize to other countries and health systems,” they wrote.

And there may have been misclassification and inclusion of patients who stopped medications for self-perceived well-controlled disease, they wrote.

“Although the intent was to include children who stopped their medications at their physician’s direction due to physician-confirmed inactive disease, patients who had been previously enrolled in the registry were included if inactive disease was listed as the reason for medication discontinuation,” they said.

Still, these results should serve as a “benchmark for future studies of medication discontinuation” in JIA, the researchers wrote.
 

‘Fortunate challenge’

In an accompanying editorial, Melissa L. Mannion, MD, MSPH, and Randy Q. Cron, MD, PhD, of the University of Alabama at Birmingham noted that pediatric rheumatologists now face what they call the “fortunate challenge” of helping patients and parents decide whether treatments can be stopped in cases where there’s been a sustained period of inactive disease.

“Once a patient has reached the goal of inactive disease, why would patients or providers want to stop medications?” Dr. Mannion and Dr. Cron wrote. “We tell our patients that we want them to be like everyone else and have no limitations on their goals. However, the burden of chronic medication to achieve that goal is a constant reminder that they are different from their peers.”

In their article, Dr. Mannion and Dr. Cron noted what they called “interesting” results observed among children with different forms of JIA in the study.

Children with “systemic JIA had the highest recapture rates at 6 or 12 months, perhaps reflecting the high percentage use of [biologic] DMARDs targeting interleukin-1 and IL-6, or maybe the timeliness of recognition (e.g., fever, rash) of disease flare,” Dr. Mannion and Dr. Cron wrote. “Conversely, children with JIA enthesitis-related arthritis (ERA) had the lowest recapture rate at 6 months (27.6%, even lower than RF-positive polyarticular JIA, 42.9%).”

Still, the editorial authors said that “additional well-controlled studies are needed to move pediatric rheumatology deeper into the realm of precision medicine and the ability to decide whether or not to wean DMARD therapy for those with clinically inactive disease.”

Pamela Weiss, MD, of Children’s Hospital of Philadelphia, said in a comment that the study by Dr. Ringold and colleagues, as well as others that address similar questions, “are critically needed to move our field towards a personalized medicine approach.” But she added that while the paper from Dr. Ringold and colleagues addresses an important question, it “should be interpreted with some caution.”

She noted, for example, that “disease flare,” which prompted reinitiation of treatment and study entry, was not always aligned with a registry visit, which makes determination of the primary exposure less stringent. The rate of recapture across JIA categories differed by as much as 20% depending upon which inactive disease assessment outcome was used – either the study’s novel but unvalidated primary outcome or the validated secondary outcome of using the clinical Juvenile Arthritis Disease Activity Score based on 10 joints. The resulting difference was marked for some JIA categories and minimal for others.

“The flare and recapture rates are likely to be vastly different for JIA categories with distinct pathophysiology – namely systemic JIA, psoriatic arthritis, and enthesitis-related arthritis,” Dr. Weiss said. “While numbers for these categories were too small to make meaningful conclusions, grouping them with the other JIA categories has limitations.”

The research was funded by a Rheumatology Research Foundation Innovative Research Award.

Dr. Ringold’s current employment is through Janssen Research & Development. She changed primary employment from Seattle Children’s to Janssen during completion of the analyses and preparation of the manuscript. She has maintained her affiliation with Seattle Children’s. Dr. Schulert has consulting for Novartis. Dr. Cron reported speaker fees, consulting fees, and grant support from Sobi, consulting fees from Sironax and Novartis, speaker fees from Lilly, and support from Pfizer for working on a committee adjudicating clinical trial side effects.

* This article was updated on 8/11/2022.

For patients who experience endoscopic remission of ulcerative colitis (UC), signs of active disease on histology did not affect their risk of clinical relapse, according to a large prospective study that reinforces a low endoscopy score as the treatment target.

In the study of more than 250 patients in endoscopic remission from UC, 19% experienced a clinical relapse within 1 year. The researchers found that a lower baseline endoscopy score was linked to a lower risk of relapse.

While histologic activity, as reflected in the Geboes Score, was not associated with clinical relapse, the presence of basal plasmacytosis independently doubled the risk of relapse.

“Our findings do not support the use of histology as a target for treatment in patients with ulcerative colitis who already achieved clinical and endoscopic remission,” say Talat Bessissow, MD, McGill University Health Center, Montreal, and colleagues.

They add that the results “support the use of the Mayo endoscopic subscore of zero as the optimal target for endoscopic remission.”

Further prospective data are needed to “define the role of histology activity and basal plasmacytosis in the management of ulcerative colitis,” the authors write.

The study was published online in The American Journal of Gastroenterology.
 

Uncertain role of histology

Dr. Bessissow told this news organization that “some studies have shown that histologic healing is associated with better long-term outcomes and less relapse, but this topic remains controversial because other studies have shown the opposite.”

“Our study does not support histology as a treatment target,” he continued, adding that therapy should not be changed solely on the basis of histology.

Dr. Bessissow clarified that although histology was not associated with less relapse over 1 year of follow-up, the role of histology on other, longer-term outcomes, such as surgery and colorectal cancer, still needs to be studied.

The natural history of UC is characterized by frequent relapse, the authors write, but “treating symptoms alone is not sufficient to prevent long-term complications.”

This led to a shift toward using endoscopic healing as a therapeutic goal, a move that was aided by the advent of novel medical therapies, including biologic agents. Crucially, endoscopic healing is associated with improved long-term outcomes, as well as improved quality of life.

The authors continue, however, that a “significant proportion” of patients experience relapse despite achieving endoscopic healing, which “could be explained in part by the fact that up to 40% of patients in endoscopic healing will have ongoing active histologic disease.”

However, in studies in which histologic activity was an endpoint, results have conflicted, and questions remain as to which parameters to include when assessing histologic activity.
 

Measuring the predictive values of endoscopy and histology

To investigate further, the researchers conducted a prospective observational study of consecutive adult patients with confirmed UC who presented to an endoscopy unit for colonoscopy for disease assessment or surveillance.

To qualify for the study, the patients’ conditions had to have been in clinical remission for at least 3 months prior to the colonoscopy. They were excluded if they had undergone prior surgical resection, had experienced disease remission for a period of over 10 years, or had used oral or rectal steroids within 90 days, among other criteria.

During an initial colonoscopy, two biopsies were performed, with specimens taken from the rectosigmoid and, when possible, from the right and left colon. Blood and stool samples were taken, and demographic and clinical data were collected.

The study enrolled 253 patients. Almost half (47.4%) were younger than 50 years, and 46.3% were women. They were followed for 12 months, during which 19% developed clinical relapse, defined as a partial Mayo endoscopic score (MES) of greater than 2.

When compared with patients with an MES of 0, the team found that patients with an MES of 1 or greater than or equal to 2 were at higher risk of relapse, with an adjusted hazard ratio of 2.65 and 2.57, respectively.

Interestingly, a lower baseline MES also was associated with a lower risk of relapse, and patients with proctitis were more likely to experience relapse than those with pancolitis.
 

No impact of histology on relapse risk

Further analysis revealed that there was no association between clinical relapse and age, sex, disease extent, and C-reactive protein, hemoglobin, and albumin levels. However, there was a significant association between relapse and the occurrence of at least one relapse in the 2 years prior to enrollment.

While the mean baseline fecal calprotectin (FC) level was numerically higher in patients who experienced relapse, compared with those who did not (306.9 mcg/g vs. 213.7 mcg/g), the difference was not significant.

FC of greater than 100 mcg/g was, however, significantly associated with relapse, at an odds ratio of 2.26, although the association was no longer significant when using the False Discovery Rate test.

Active histology was no more common among those who experienced relapse than among those who did not. But with regard to histologic factors, the team found that the presence of basal plasmacytosis was associated with clinical relapse, at an adjusted odds ratio of 2.07.

On the other hand, a Geboes Score of greater than or equal to 3.1, indicating the presence of epithelial neutrophils with or without crypt destruction or erosions, was not significantly associated with the risk of relapse, nor with the time to clinical relapse.
 

Clinical implications

Approached for comment, Miguel Regueiro, MD, chair of the Digestive Disease and Surgery Institute at the Cleveland Clinic, said that this is “the largest prospective study assessing histologic activity or remission to predict future disease relapse in ulcerative colitis.”

He told this news organization that what the findings mean for clinical practice is that “patients who achieve an endoscopic and clinical remission are at a low likelihood of clinical relapse,” and added that “these should be the ‘treat-to-target’ endpoints.”

“Patients who have biopsy evidence, [such as] histologic activity based on the Geboes Score, do not require an escalation of therapy or a change in inflammatory bowel disease therapy,” Dr. Regueiro said.

He noted, however, that one primary question remains: Aside from surveillance of dysplasia, is there a role for biopsy in cases of UC in which the Mayo score is 0?

“In my practice, I still take biopsies from a previously involved colitis segment, even if Mayo 0,” he said.

“If there is histologic activity, I would not increase or optimize the current medications, but I also would not deescalate,” Dr. Regueiro added. “I would keep the patient on a regular surveillance colonoscopy regimen, too.”

No funding for the study has been reported. Dr. Bessissow has relationships with AbbVie, Alimentiv (formerly Robarts), Amgen, Bristol-Myers-Squibb, Ferring, Gilead, Janssen, Merck, Pentax, Pfizer, Roche, Sandoz, Takeda, and Viatris. Other authors have disclosed numerous financial relationships. Dr. Regueiro has disclosed no such relationships.

A version of this article first appeared on Medscape.com.

For patients who experience endoscopic remission of ulcerative colitis (UC), signs of active disease on histology did not affect their risk of clinical relapse, according to a large prospective study that reinforces a low endoscopy score as the treatment target.

In the study of more than 250 patients in endoscopic remission from UC, 19% experienced a clinical relapse within 1 year. The researchers found that a lower baseline endoscopy score was linked to a lower risk of relapse.

While histologic activity, as reflected in the Geboes Score, was not associated with clinical relapse, the presence of basal plasmacytosis independently doubled the risk of relapse.

“Our findings do not support the use of histology as a target for treatment in patients with ulcerative colitis who already achieved clinical and endoscopic remission,” say Talat Bessissow, MD, McGill University Health Center, Montreal, and colleagues.

They add that the results “support the use of the Mayo endoscopic subscore of zero as the optimal target for endoscopic remission.”

Further prospective data are needed to “define the role of histology activity and basal plasmacytosis in the management of ulcerative colitis,” the authors write.

The study was published online in The American Journal of Gastroenterology.
 

Uncertain role of histology

Dr. Bessissow told this news organization that “some studies have shown that histologic healing is associated with better long-term outcomes and less relapse, but this topic remains controversial because other studies have shown the opposite.”

“Our study does not support histology as a treatment target,” he continued, adding that therapy should not be changed solely on the basis of histology.

Dr. Bessissow clarified that although histology was not associated with less relapse over 1 year of follow-up, the role of histology on other, longer-term outcomes, such as surgery and colorectal cancer, still needs to be studied.

The natural history of UC is characterized by frequent relapse, the authors write, but “treating symptoms alone is not sufficient to prevent long-term complications.”

This led to a shift toward using endoscopic healing as a therapeutic goal, a move that was aided by the advent of novel medical therapies, including biologic agents. Crucially, endoscopic healing is associated with improved long-term outcomes, as well as improved quality of life.

The authors continue, however, that a “significant proportion” of patients experience relapse despite achieving endoscopic healing, which “could be explained in part by the fact that up to 40% of patients in endoscopic healing will have ongoing active histologic disease.”

However, in studies in which histologic activity was an endpoint, results have conflicted, and questions remain as to which parameters to include when assessing histologic activity.
 

Measuring the predictive values of endoscopy and histology

To investigate further, the researchers conducted a prospective observational study of consecutive adult patients with confirmed UC who presented to an endoscopy unit for colonoscopy for disease assessment or surveillance.

To qualify for the study, the patients’ conditions had to have been in clinical remission for at least 3 months prior to the colonoscopy. They were excluded if they had undergone prior surgical resection, had experienced disease remission for a period of over 10 years, or had used oral or rectal steroids within 90 days, among other criteria.

During an initial colonoscopy, two biopsies were performed, with specimens taken from the rectosigmoid and, when possible, from the right and left colon. Blood and stool samples were taken, and demographic and clinical data were collected.

The study enrolled 253 patients. Almost half (47.4%) were younger than 50 years, and 46.3% were women. They were followed for 12 months, during which 19% developed clinical relapse, defined as a partial Mayo endoscopic score (MES) of greater than 2.

When compared with patients with an MES of 0, the team found that patients with an MES of 1 or greater than or equal to 2 were at higher risk of relapse, with an adjusted hazard ratio of 2.65 and 2.57, respectively.

Interestingly, a lower baseline MES also was associated with a lower risk of relapse, and patients with proctitis were more likely to experience relapse than those with pancolitis.
 

No impact of histology on relapse risk

Further analysis revealed that there was no association between clinical relapse and age, sex, disease extent, and C-reactive protein, hemoglobin, and albumin levels. However, there was a significant association between relapse and the occurrence of at least one relapse in the 2 years prior to enrollment.

While the mean baseline fecal calprotectin (FC) level was numerically higher in patients who experienced relapse, compared with those who did not (306.9 mcg/g vs. 213.7 mcg/g), the difference was not significant.

FC of greater than 100 mcg/g was, however, significantly associated with relapse, at an odds ratio of 2.26, although the association was no longer significant when using the False Discovery Rate test.

Active histology was no more common among those who experienced relapse than among those who did not. But with regard to histologic factors, the team found that the presence of basal plasmacytosis was associated with clinical relapse, at an adjusted odds ratio of 2.07.

On the other hand, a Geboes Score of greater than or equal to 3.1, indicating the presence of epithelial neutrophils with or without crypt destruction or erosions, was not significantly associated with the risk of relapse, nor with the time to clinical relapse.
 

Clinical implications

Approached for comment, Miguel Regueiro, MD, chair of the Digestive Disease and Surgery Institute at the Cleveland Clinic, said that this is “the largest prospective study assessing histologic activity or remission to predict future disease relapse in ulcerative colitis.”

He told this news organization that what the findings mean for clinical practice is that “patients who achieve an endoscopic and clinical remission are at a low likelihood of clinical relapse,” and added that “these should be the ‘treat-to-target’ endpoints.”

“Patients who have biopsy evidence, [such as] histologic activity based on the Geboes Score, do not require an escalation of therapy or a change in inflammatory bowel disease therapy,” Dr. Regueiro said.

He noted, however, that one primary question remains: Aside from surveillance of dysplasia, is there a role for biopsy in cases of UC in which the Mayo score is 0?

“In my practice, I still take biopsies from a previously involved colitis segment, even if Mayo 0,” he said.

“If there is histologic activity, I would not increase or optimize the current medications, but I also would not deescalate,” Dr. Regueiro added. “I would keep the patient on a regular surveillance colonoscopy regimen, too.”

No funding for the study has been reported. Dr. Bessissow has relationships with AbbVie, Alimentiv (formerly Robarts), Amgen, Bristol-Myers-Squibb, Ferring, Gilead, Janssen, Merck, Pentax, Pfizer, Roche, Sandoz, Takeda, and Viatris. Other authors have disclosed numerous financial relationships. Dr. Regueiro has disclosed no such relationships.

A version of this article first appeared on Medscape.com.

For patients who experience endoscopic remission of ulcerative colitis (UC), signs of active disease on histology did not affect their risk of clinical relapse, according to a large prospective study that reinforces a low endoscopy score as the treatment target.

In the study of more than 250 patients in endoscopic remission from UC, 19% experienced a clinical relapse within 1 year. The researchers found that a lower baseline endoscopy score was linked to a lower risk of relapse.

While histologic activity, as reflected in the Geboes Score, was not associated with clinical relapse, the presence of basal plasmacytosis independently doubled the risk of relapse.

“Our findings do not support the use of histology as a target for treatment in patients with ulcerative colitis who already achieved clinical and endoscopic remission,” say Talat Bessissow, MD, McGill University Health Center, Montreal, and colleagues.

They add that the results “support the use of the Mayo endoscopic subscore of zero as the optimal target for endoscopic remission.”

Further prospective data are needed to “define the role of histology activity and basal plasmacytosis in the management of ulcerative colitis,” the authors write.

The study was published online in The American Journal of Gastroenterology.
 

Uncertain role of histology

Dr. Bessissow told this news organization that “some studies have shown that histologic healing is associated with better long-term outcomes and less relapse, but this topic remains controversial because other studies have shown the opposite.”

“Our study does not support histology as a treatment target,” he continued, adding that therapy should not be changed solely on the basis of histology.

Dr. Bessissow clarified that although histology was not associated with less relapse over 1 year of follow-up, the role of histology on other, longer-term outcomes, such as surgery and colorectal cancer, still needs to be studied.

The natural history of UC is characterized by frequent relapse, the authors write, but “treating symptoms alone is not sufficient to prevent long-term complications.”

This led to a shift toward using endoscopic healing as a therapeutic goal, a move that was aided by the advent of novel medical therapies, including biologic agents. Crucially, endoscopic healing is associated with improved long-term outcomes, as well as improved quality of life.

The authors continue, however, that a “significant proportion” of patients experience relapse despite achieving endoscopic healing, which “could be explained in part by the fact that up to 40% of patients in endoscopic healing will have ongoing active histologic disease.”

However, in studies in which histologic activity was an endpoint, results have conflicted, and questions remain as to which parameters to include when assessing histologic activity.
 

Measuring the predictive values of endoscopy and histology

To investigate further, the researchers conducted a prospective observational study of consecutive adult patients with confirmed UC who presented to an endoscopy unit for colonoscopy for disease assessment or surveillance.

To qualify for the study, the patients’ conditions had to have been in clinical remission for at least 3 months prior to the colonoscopy. They were excluded if they had undergone prior surgical resection, had experienced disease remission for a period of over 10 years, or had used oral or rectal steroids within 90 days, among other criteria.

During an initial colonoscopy, two biopsies were performed, with specimens taken from the rectosigmoid and, when possible, from the right and left colon. Blood and stool samples were taken, and demographic and clinical data were collected.

The study enrolled 253 patients. Almost half (47.4%) were younger than 50 years, and 46.3% were women. They were followed for 12 months, during which 19% developed clinical relapse, defined as a partial Mayo endoscopic score (MES) of greater than 2.

When compared with patients with an MES of 0, the team found that patients with an MES of 1 or greater than or equal to 2 were at higher risk of relapse, with an adjusted hazard ratio of 2.65 and 2.57, respectively.

Interestingly, a lower baseline MES also was associated with a lower risk of relapse, and patients with proctitis were more likely to experience relapse than those with pancolitis.
 

No impact of histology on relapse risk

Further analysis revealed that there was no association between clinical relapse and age, sex, disease extent, and C-reactive protein, hemoglobin, and albumin levels. However, there was a significant association between relapse and the occurrence of at least one relapse in the 2 years prior to enrollment.

While the mean baseline fecal calprotectin (FC) level was numerically higher in patients who experienced relapse, compared with those who did not (306.9 mcg/g vs. 213.7 mcg/g), the difference was not significant.

FC of greater than 100 mcg/g was, however, significantly associated with relapse, at an odds ratio of 2.26, although the association was no longer significant when using the False Discovery Rate test.

Active histology was no more common among those who experienced relapse than among those who did not. But with regard to histologic factors, the team found that the presence of basal plasmacytosis was associated with clinical relapse, at an adjusted odds ratio of 2.07.

On the other hand, a Geboes Score of greater than or equal to 3.1, indicating the presence of epithelial neutrophils with or without crypt destruction or erosions, was not significantly associated with the risk of relapse, nor with the time to clinical relapse.
 

Clinical implications

Approached for comment, Miguel Regueiro, MD, chair of the Digestive Disease and Surgery Institute at the Cleveland Clinic, said that this is “the largest prospective study assessing histologic activity or remission to predict future disease relapse in ulcerative colitis.”

He told this news organization that what the findings mean for clinical practice is that “patients who achieve an endoscopic and clinical remission are at a low likelihood of clinical relapse,” and added that “these should be the ‘treat-to-target’ endpoints.”

“Patients who have biopsy evidence, [such as] histologic activity based on the Geboes Score, do not require an escalation of therapy or a change in inflammatory bowel disease therapy,” Dr. Regueiro said.

He noted, however, that one primary question remains: Aside from surveillance of dysplasia, is there a role for biopsy in cases of UC in which the Mayo score is 0?

“In my practice, I still take biopsies from a previously involved colitis segment, even if Mayo 0,” he said.

“If there is histologic activity, I would not increase or optimize the current medications, but I also would not deescalate,” Dr. Regueiro added. “I would keep the patient on a regular surveillance colonoscopy regimen, too.”

No funding for the study has been reported. Dr. Bessissow has relationships with AbbVie, Alimentiv (formerly Robarts), Amgen, Bristol-Myers-Squibb, Ferring, Gilead, Janssen, Merck, Pentax, Pfizer, Roche, Sandoz, Takeda, and Viatris. Other authors have disclosed numerous financial relationships. Dr. Regueiro has disclosed no such relationships.

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

Dear colleagues, I am Christoph Diener from the faculty of medicine at the University of Duisburg-Essen in Germany.

Usually in this video series, I report on interesting scientific studies in the field of neurology published in the last month. But I have to admit, June was a lousy month for new science in neurology. Therefore, this month I’d like to take a different approach and tell you about a very interesting, old drug.

We are celebrating the 125th anniversary of aspirin. Aspirin was first synthesized in Wuppertal, Germany, a city which is only 40 km from my location, by Felix Hoffmann. Hoffmann was searching for a new drug for his father who suffered from severe joint pain, and the available drugs at that time had terrible adverse events. This prompted him to work on a new drug, which was later called aspirin acetylsalicylic acid.

Aspirin has been used very successfully to the present day as therapy for joint pain or arthritis. But as you know, it’s also effective in headaches, in particular, tension-type headache. I think it’s one of the most used drugs in the world for the treatment of acute migraine attacks.

It’s also available in some European countries in intravenous form for the treatment of severe migraine attacks or in the emergency room, and it’s as effective as subcutaneous sumatriptan. It’s also an effective migraine preventive drug in a dose of 300 mg/d.
 

Discovering aspirin’s antiplatelet activity

There was an interesting observation by a dentist in the 1930s, who noted bleeding when he extracted teeth in people who took aspirin for joint pain. When he started to ask his patients about possible bleeding complications and vascular events, he observed that people who took aspirin didn’t have coronary myocardial infarctions.

It took a long time for people to discover that aspirin is not only a pain medication but also an antiplatelet agent. The first randomized study that showed that aspirin is effective in secondary prevention after myocardial infarction was published in 1974 in The New England Journal of Medicine. In 1980, aspirin was approved by the U.S. Food and Drug Administration for the secondary prevention of stroke and in 1984 for secondary prevention after myocardial infarction.

A history of efficacy

Aspirin also has a proven role in the secondary prevention of transient ischemic attack and ischemic stroke. Given early, it reduces the risk for a recurrent vascular event by 50% and long-term, compared with placebo, by 20%.

Interestingly, the doses are different in different areas of the world. In the United States, it’s either 81 mg or 325 mg. In Europe, it’s usually 100 mg. Until a few years ago, there was no single trial which used 100 mg of aspirin, compared with placebo for the secondary prevention of stroke.

If we look at dual antiplatelet therapy, the combination of aspirin and clopidogrel was not superior to aspirin alone or clopidogrel alone for long-term prevention, but the combination of dipyridamole and aspirin and the combination of cilostazol and aspirin were superior to aspirin alone for secondary stroke prevention. Short-term, within the first 30 days, the combination of aspirin and clopidogrel and the combination of ticagrelor and aspirin is superior to monotherapy but also have an increased risk for bleeding.

People with atrial fibrillation or embolic strokes need to be anticoagulated, but the addition of aspirin to anticoagulation does not increase efficacy, it only increases the risk for bleeding.

In people above the age of 75 years who have to take aspirin, there is an increased risk for upper gastrointestinal bleeding. These patients should, in addition, receive proton pump inhibitors.

The use of aspirin for the primary prevention of vascular events was promoted for almost 50 years all over the world, but in the last 5 years, a number of randomized trials clearly showed that aspirin is not effective, compared with placebo, in the primary prevention of vascular event stroke, myocardial infarction, and vascular death. It only increases the risk for bleeding.

So it’s a clear separation. Aspirin should not be used for primary prevention of vascular events, but it should be used in basically everyone who doesn’t have contraindications for secondary prevention of vascular events and vascular death.

Ladies and gentlemen, a drug that is 125 years old is also still one of the most used and affordable drugs all around the world. It’s highly effective and has only a small risk for major bleeding complications. It’s really time to celebrate aspirin for this achievement.

Dr. Diener is professor, department of neurology, Stroke Center-Headache Center, University Duisburg-Essen (Germany). A complete list of his financial disclosures is available at the link below.

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

Dear colleagues, I am Christoph Diener from the faculty of medicine at the University of Duisburg-Essen in Germany.

Usually in this video series, I report on interesting scientific studies in the field of neurology published in the last month. But I have to admit, June was a lousy month for new science in neurology. Therefore, this month I’d like to take a different approach and tell you about a very interesting, old drug.

We are celebrating the 125th anniversary of aspirin. Aspirin was first synthesized in Wuppertal, Germany, a city which is only 40 km from my location, by Felix Hoffmann. Hoffmann was searching for a new drug for his father who suffered from severe joint pain, and the available drugs at that time had terrible adverse events. This prompted him to work on a new drug, which was later called aspirin acetylsalicylic acid.

Aspirin has been used very successfully to the present day as therapy for joint pain or arthritis. But as you know, it’s also effective in headaches, in particular, tension-type headache. I think it’s one of the most used drugs in the world for the treatment of acute migraine attacks.

It’s also available in some European countries in intravenous form for the treatment of severe migraine attacks or in the emergency room, and it’s as effective as subcutaneous sumatriptan. It’s also an effective migraine preventive drug in a dose of 300 mg/d.
 

Discovering aspirin’s antiplatelet activity

There was an interesting observation by a dentist in the 1930s, who noted bleeding when he extracted teeth in people who took aspirin for joint pain. When he started to ask his patients about possible bleeding complications and vascular events, he observed that people who took aspirin didn’t have coronary myocardial infarctions.

It took a long time for people to discover that aspirin is not only a pain medication but also an antiplatelet agent. The first randomized study that showed that aspirin is effective in secondary prevention after myocardial infarction was published in 1974 in The New England Journal of Medicine. In 1980, aspirin was approved by the U.S. Food and Drug Administration for the secondary prevention of stroke and in 1984 for secondary prevention after myocardial infarction.

A history of efficacy

Aspirin also has a proven role in the secondary prevention of transient ischemic attack and ischemic stroke. Given early, it reduces the risk for a recurrent vascular event by 50% and long-term, compared with placebo, by 20%.

Interestingly, the doses are different in different areas of the world. In the United States, it’s either 81 mg or 325 mg. In Europe, it’s usually 100 mg. Until a few years ago, there was no single trial which used 100 mg of aspirin, compared with placebo for the secondary prevention of stroke.

If we look at dual antiplatelet therapy, the combination of aspirin and clopidogrel was not superior to aspirin alone or clopidogrel alone for long-term prevention, but the combination of dipyridamole and aspirin and the combination of cilostazol and aspirin were superior to aspirin alone for secondary stroke prevention. Short-term, within the first 30 days, the combination of aspirin and clopidogrel and the combination of ticagrelor and aspirin is superior to monotherapy but also have an increased risk for bleeding.

People with atrial fibrillation or embolic strokes need to be anticoagulated, but the addition of aspirin to anticoagulation does not increase efficacy, it only increases the risk for bleeding.

In people above the age of 75 years who have to take aspirin, there is an increased risk for upper gastrointestinal bleeding. These patients should, in addition, receive proton pump inhibitors.

The use of aspirin for the primary prevention of vascular events was promoted for almost 50 years all over the world, but in the last 5 years, a number of randomized trials clearly showed that aspirin is not effective, compared with placebo, in the primary prevention of vascular event stroke, myocardial infarction, and vascular death. It only increases the risk for bleeding.

So it’s a clear separation. Aspirin should not be used for primary prevention of vascular events, but it should be used in basically everyone who doesn’t have contraindications for secondary prevention of vascular events and vascular death.

Ladies and gentlemen, a drug that is 125 years old is also still one of the most used and affordable drugs all around the world. It’s highly effective and has only a small risk for major bleeding complications. It’s really time to celebrate aspirin for this achievement.

Dr. Diener is professor, department of neurology, Stroke Center-Headache Center, University Duisburg-Essen (Germany). A complete list of his financial disclosures is available at the link below.

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.

Dear colleagues, I am Christoph Diener from the faculty of medicine at the University of Duisburg-Essen in Germany.

Usually in this video series, I report on interesting scientific studies in the field of neurology published in the last month. But I have to admit, June was a lousy month for new science in neurology. Therefore, this month I’d like to take a different approach and tell you about a very interesting, old drug.

We are celebrating the 125th anniversary of aspirin. Aspirin was first synthesized in Wuppertal, Germany, a city which is only 40 km from my location, by Felix Hoffmann. Hoffmann was searching for a new drug for his father who suffered from severe joint pain, and the available drugs at that time had terrible adverse events. This prompted him to work on a new drug, which was later called aspirin acetylsalicylic acid.

Aspirin has been used very successfully to the present day as therapy for joint pain or arthritis. But as you know, it’s also effective in headaches, in particular, tension-type headache. I think it’s one of the most used drugs in the world for the treatment of acute migraine attacks.

It’s also available in some European countries in intravenous form for the treatment of severe migraine attacks or in the emergency room, and it’s as effective as subcutaneous sumatriptan. It’s also an effective migraine preventive drug in a dose of 300 mg/d.
 

Discovering aspirin’s antiplatelet activity

There was an interesting observation by a dentist in the 1930s, who noted bleeding when he extracted teeth in people who took aspirin for joint pain. When he started to ask his patients about possible bleeding complications and vascular events, he observed that people who took aspirin didn’t have coronary myocardial infarctions.

It took a long time for people to discover that aspirin is not only a pain medication but also an antiplatelet agent. The first randomized study that showed that aspirin is effective in secondary prevention after myocardial infarction was published in 1974 in The New England Journal of Medicine. In 1980, aspirin was approved by the U.S. Food and Drug Administration for the secondary prevention of stroke and in 1984 for secondary prevention after myocardial infarction.

A history of efficacy

Aspirin also has a proven role in the secondary prevention of transient ischemic attack and ischemic stroke. Given early, it reduces the risk for a recurrent vascular event by 50% and long-term, compared with placebo, by 20%.

Interestingly, the doses are different in different areas of the world. In the United States, it’s either 81 mg or 325 mg. In Europe, it’s usually 100 mg. Until a few years ago, there was no single trial which used 100 mg of aspirin, compared with placebo for the secondary prevention of stroke.

If we look at dual antiplatelet therapy, the combination of aspirin and clopidogrel was not superior to aspirin alone or clopidogrel alone for long-term prevention, but the combination of dipyridamole and aspirin and the combination of cilostazol and aspirin were superior to aspirin alone for secondary stroke prevention. Short-term, within the first 30 days, the combination of aspirin and clopidogrel and the combination of ticagrelor and aspirin is superior to monotherapy but also have an increased risk for bleeding.

People with atrial fibrillation or embolic strokes need to be anticoagulated, but the addition of aspirin to anticoagulation does not increase efficacy, it only increases the risk for bleeding.

In people above the age of 75 years who have to take aspirin, there is an increased risk for upper gastrointestinal bleeding. These patients should, in addition, receive proton pump inhibitors.

The use of aspirin for the primary prevention of vascular events was promoted for almost 50 years all over the world, but in the last 5 years, a number of randomized trials clearly showed that aspirin is not effective, compared with placebo, in the primary prevention of vascular event stroke, myocardial infarction, and vascular death. It only increases the risk for bleeding.

So it’s a clear separation. Aspirin should not be used for primary prevention of vascular events, but it should be used in basically everyone who doesn’t have contraindications for secondary prevention of vascular events and vascular death.

Ladies and gentlemen, a drug that is 125 years old is also still one of the most used and affordable drugs all around the world. It’s highly effective and has only a small risk for major bleeding complications. It’s really time to celebrate aspirin for this achievement.

Dr. Diener is professor, department of neurology, Stroke Center-Headache Center, University Duisburg-Essen (Germany). A complete list of his financial disclosures is available at the link below.

A version of this article first appeared on Medscape.com.

Discontinuing antithyroid drugs during early pregnancy is linked to a possible rebound of hyperthyroidism and a high risk of adverse pregnancy outcomes, new research shows.

“Our study provides preliminary evidence that the risk of rebound increases in women with subnormal thyroid-stimulating hormone (TSH) and/or positive thyrotropin receptor antibody (TRAb) who stop antithyroid drugs in early pregnancy,” first author Xin Hou told this news organization.

“When discussing the pros and cons of antithyroid drug withdrawal early in pregnancy [clinicians] should consider the level of TSH and TRAb in early pregnancy,” said Hou, of the department of endocrinology and metabolism, Institute of Endocrinology, The First Affiliated Hospital of China Medical University, Shenyang.

Suvi Turunen, MD, of the University of Oulu (Finland), who has also conducted research on the issue, said the study adds important insights.

“I find this study very interesting,” Dr. Turunen said in an interview. “It is well known that medical treatment of hyperthyroidism outweighs the potential harms of antithyroid treatment.”

The new findings add to the evidence, she added. “I think that withdrawal of antithyroid drugs should be carefully considered, especially with autoantibody-positive patients,” Dr. Turunen said.
 

Hyperthyroidism a risk in pregnancy – with or without treatment

The potential risks of hyperthyroidism in pregnancy are well established and can range from preeclampsia to premature birth or miscarriage.

However, antithyroid drugs, including methimazole and propylthiouracil, carry their own risks. In crossing the placental barrier, the drugs can increase the risk of birth defects, particularly during 6-10 weeks of gestation, yet their discontinuation is linked to as much as a 50%-60% risk of relapse, the authors explain.

Because of the risks, the American Thyroid Association recommends that “women with a stable euthyroid state on 5-10 mg methimazole per day achieved within a few months, and a falling TRAb level, are likely candidates to withdraw from antithyroid drug therapy in early pregnancy,” the authors noted.

However, as the recommendations for women who are already pregnant are largely based on evidence from nonpregnant patients, Hou and colleagues sought to evaluate withdrawal among women who were pregnant.

For the study, published in Thyroid, they enrolled 63 women who were pregnant and part of an outpatient service of the department of endocrinology and metabolism at The First Affiliated Hospital of China Medical University, between September 2014 and March 2017, who had well-controlled hyperthyroidism in early pregnancy and discontinued the drugs.

The women were an average age of 27 years, and 28 were multigravida. Twenty-two had a history of miscarriage.

A follow-up of the patients until the end of their pregnancy showed that, overall, 20 (31.7%) had a rebound of hyperthyroidism during their pregnancy after withdrawing from the drugs.

Key factors associated with the highest risk of a rebound after discontinuation included having subnormal TSH levels (TSH < 0.35 mIU/L; odds ratio, 5.12; P  = .03) or having positive TRAb (TRAb > 1.75 IU/L; OR, 3.79; P = .02) at the time of medication withdrawal, compared with those with either normal TSH levels or negative TRAb.

The combination of both subnormal TSH and positive TRAb at the time of antithyroid medication withdrawal further boosted the risk of hyperthyroidism rebound (83.3%, 5 of 6), compared with those who had both normal TSH and negative TRAb (13%, 3 of 23; OR, 33.33; P = .003).

Adverse pregnancy outcomes increased

Importantly, among the 20 patients who had a rebound, 11 (55%) had adverse pregnancy outcomes, including miscarriage, premature birth, induced labor, gestational hypertension, and gestational diabetes, compared with only 4 (9.3%) of the 43 who had no rebound (OR, 11.92; P = .0002).

Neonatal abnormalities were also higher among those experiencing a rebound (20% vs. 4.7%), however, the authors noted that “larger prospective studies are required to conclude whether antithyroid drug withdrawal affects fetal outcome.”

In the rebound group, the mean duration of antithyroid medication use was 24.7 months versus 35.1 months in the nonrebound group, however, the difference was not statistically significant (P = .07). And 40% of the rebound group had a history of miscarriage versus 32.6% in the non-rebound group, but was also not significantly different (P = .56).

The authors noted that half of those in the rebound group developed hyperthyroidism more than 4 weeks after their withdrawal from antithyroid medications, “which seemed to have circumvented the most sensitive period of teratogenesis between 6 and 10 weeks of pregnancy.”

Hou added that restarting antithyroid medication did not increase the risk of adverse outcomes for offspring.

“A low dose of antithyroid medications may be a good choice for women with subnormal TSH and/or positive TRAb in early pregnancy,” Hou concluded. “Because of the small size of our study, a larger prospective study is needed to overcome the potential selection bias and to verify the conclusions.”
 

Findings consistent with Finnish study

In her own recent study, which included 2,144 women in Finland who experienced hyperthyroidism during pregnancy, Dr. Turunen and colleagues found that having hyperthyroidism, with or without antithyroid drug treatment, was associated with an increased odds of pregnancy and/or prenatal complications, compared with those without thyroid disease.

“In our study, we observed an increased risk of adverse pregnancy outcomes also in mothers with previous diagnosis and/or treatment of hyperthyroidism, not only with overt hyperthyroidism treated with antithyroid drugs,” she told this news organization.

“I think that especially those patients with positive antibodies [TRAbs] are at risk even if they are euthyroid,” she noted. “Withdrawal of antithyroid drugs in these patients is a risk.”

“Probably continuing antithyroid treatment with low dose is a better option,” she said.

The authors and Dr. Turunen reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Discontinuing antithyroid drugs during early pregnancy is linked to a possible rebound of hyperthyroidism and a high risk of adverse pregnancy outcomes, new research shows.

“Our study provides preliminary evidence that the risk of rebound increases in women with subnormal thyroid-stimulating hormone (TSH) and/or positive thyrotropin receptor antibody (TRAb) who stop antithyroid drugs in early pregnancy,” first author Xin Hou told this news organization.

“When discussing the pros and cons of antithyroid drug withdrawal early in pregnancy [clinicians] should consider the level of TSH and TRAb in early pregnancy,” said Hou, of the department of endocrinology and metabolism, Institute of Endocrinology, The First Affiliated Hospital of China Medical University, Shenyang.

Suvi Turunen, MD, of the University of Oulu (Finland), who has also conducted research on the issue, said the study adds important insights.

“I find this study very interesting,” Dr. Turunen said in an interview. “It is well known that medical treatment of hyperthyroidism outweighs the potential harms of antithyroid treatment.”

The new findings add to the evidence, she added. “I think that withdrawal of antithyroid drugs should be carefully considered, especially with autoantibody-positive patients,” Dr. Turunen said.
 

Hyperthyroidism a risk in pregnancy – with or without treatment

The potential risks of hyperthyroidism in pregnancy are well established and can range from preeclampsia to premature birth or miscarriage.

However, antithyroid drugs, including methimazole and propylthiouracil, carry their own risks. In crossing the placental barrier, the drugs can increase the risk of birth defects, particularly during 6-10 weeks of gestation, yet their discontinuation is linked to as much as a 50%-60% risk of relapse, the authors explain.

Because of the risks, the American Thyroid Association recommends that “women with a stable euthyroid state on 5-10 mg methimazole per day achieved within a few months, and a falling TRAb level, are likely candidates to withdraw from antithyroid drug therapy in early pregnancy,” the authors noted.

However, as the recommendations for women who are already pregnant are largely based on evidence from nonpregnant patients, Hou and colleagues sought to evaluate withdrawal among women who were pregnant.

For the study, published in Thyroid, they enrolled 63 women who were pregnant and part of an outpatient service of the department of endocrinology and metabolism at The First Affiliated Hospital of China Medical University, between September 2014 and March 2017, who had well-controlled hyperthyroidism in early pregnancy and discontinued the drugs.

The women were an average age of 27 years, and 28 were multigravida. Twenty-two had a history of miscarriage.

A follow-up of the patients until the end of their pregnancy showed that, overall, 20 (31.7%) had a rebound of hyperthyroidism during their pregnancy after withdrawing from the drugs.

Key factors associated with the highest risk of a rebound after discontinuation included having subnormal TSH levels (TSH < 0.35 mIU/L; odds ratio, 5.12; P  = .03) or having positive TRAb (TRAb > 1.75 IU/L; OR, 3.79; P = .02) at the time of medication withdrawal, compared with those with either normal TSH levels or negative TRAb.

The combination of both subnormal TSH and positive TRAb at the time of antithyroid medication withdrawal further boosted the risk of hyperthyroidism rebound (83.3%, 5 of 6), compared with those who had both normal TSH and negative TRAb (13%, 3 of 23; OR, 33.33; P = .003).

Adverse pregnancy outcomes increased

Importantly, among the 20 patients who had a rebound, 11 (55%) had adverse pregnancy outcomes, including miscarriage, premature birth, induced labor, gestational hypertension, and gestational diabetes, compared with only 4 (9.3%) of the 43 who had no rebound (OR, 11.92; P = .0002).

Neonatal abnormalities were also higher among those experiencing a rebound (20% vs. 4.7%), however, the authors noted that “larger prospective studies are required to conclude whether antithyroid drug withdrawal affects fetal outcome.”

In the rebound group, the mean duration of antithyroid medication use was 24.7 months versus 35.1 months in the nonrebound group, however, the difference was not statistically significant (P = .07). And 40% of the rebound group had a history of miscarriage versus 32.6% in the non-rebound group, but was also not significantly different (P = .56).

The authors noted that half of those in the rebound group developed hyperthyroidism more than 4 weeks after their withdrawal from antithyroid medications, “which seemed to have circumvented the most sensitive period of teratogenesis between 6 and 10 weeks of pregnancy.”

Hou added that restarting antithyroid medication did not increase the risk of adverse outcomes for offspring.

“A low dose of antithyroid medications may be a good choice for women with subnormal TSH and/or positive TRAb in early pregnancy,” Hou concluded. “Because of the small size of our study, a larger prospective study is needed to overcome the potential selection bias and to verify the conclusions.”
 

Findings consistent with Finnish study

In her own recent study, which included 2,144 women in Finland who experienced hyperthyroidism during pregnancy, Dr. Turunen and colleagues found that having hyperthyroidism, with or without antithyroid drug treatment, was associated with an increased odds of pregnancy and/or prenatal complications, compared with those without thyroid disease.

“In our study, we observed an increased risk of adverse pregnancy outcomes also in mothers with previous diagnosis and/or treatment of hyperthyroidism, not only with overt hyperthyroidism treated with antithyroid drugs,” she told this news organization.

“I think that especially those patients with positive antibodies [TRAbs] are at risk even if they are euthyroid,” she noted. “Withdrawal of antithyroid drugs in these patients is a risk.”

“Probably continuing antithyroid treatment with low dose is a better option,” she said.

The authors and Dr. Turunen reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Discontinuing antithyroid drugs during early pregnancy is linked to a possible rebound of hyperthyroidism and a high risk of adverse pregnancy outcomes, new research shows.

“Our study provides preliminary evidence that the risk of rebound increases in women with subnormal thyroid-stimulating hormone (TSH) and/or positive thyrotropin receptor antibody (TRAb) who stop antithyroid drugs in early pregnancy,” first author Xin Hou told this news organization.

“When discussing the pros and cons of antithyroid drug withdrawal early in pregnancy [clinicians] should consider the level of TSH and TRAb in early pregnancy,” said Hou, of the department of endocrinology and metabolism, Institute of Endocrinology, The First Affiliated Hospital of China Medical University, Shenyang.

Suvi Turunen, MD, of the University of Oulu (Finland), who has also conducted research on the issue, said the study adds important insights.

“I find this study very interesting,” Dr. Turunen said in an interview. “It is well known that medical treatment of hyperthyroidism outweighs the potential harms of antithyroid treatment.”

The new findings add to the evidence, she added. “I think that withdrawal of antithyroid drugs should be carefully considered, especially with autoantibody-positive patients,” Dr. Turunen said.
 

Hyperthyroidism a risk in pregnancy – with or without treatment

The potential risks of hyperthyroidism in pregnancy are well established and can range from preeclampsia to premature birth or miscarriage.

However, antithyroid drugs, including methimazole and propylthiouracil, carry their own risks. In crossing the placental barrier, the drugs can increase the risk of birth defects, particularly during 6-10 weeks of gestation, yet their discontinuation is linked to as much as a 50%-60% risk of relapse, the authors explain.

Because of the risks, the American Thyroid Association recommends that “women with a stable euthyroid state on 5-10 mg methimazole per day achieved within a few months, and a falling TRAb level, are likely candidates to withdraw from antithyroid drug therapy in early pregnancy,” the authors noted.

However, as the recommendations for women who are already pregnant are largely based on evidence from nonpregnant patients, Hou and colleagues sought to evaluate withdrawal among women who were pregnant.

For the study, published in Thyroid, they enrolled 63 women who were pregnant and part of an outpatient service of the department of endocrinology and metabolism at The First Affiliated Hospital of China Medical University, between September 2014 and March 2017, who had well-controlled hyperthyroidism in early pregnancy and discontinued the drugs.

The women were an average age of 27 years, and 28 were multigravida. Twenty-two had a history of miscarriage.

A follow-up of the patients until the end of their pregnancy showed that, overall, 20 (31.7%) had a rebound of hyperthyroidism during their pregnancy after withdrawing from the drugs.

Key factors associated with the highest risk of a rebound after discontinuation included having subnormal TSH levels (TSH < 0.35 mIU/L; odds ratio, 5.12; P  = .03) or having positive TRAb (TRAb > 1.75 IU/L; OR, 3.79; P = .02) at the time of medication withdrawal, compared with those with either normal TSH levels or negative TRAb.

The combination of both subnormal TSH and positive TRAb at the time of antithyroid medication withdrawal further boosted the risk of hyperthyroidism rebound (83.3%, 5 of 6), compared with those who had both normal TSH and negative TRAb (13%, 3 of 23; OR, 33.33; P = .003).

Adverse pregnancy outcomes increased

Importantly, among the 20 patients who had a rebound, 11 (55%) had adverse pregnancy outcomes, including miscarriage, premature birth, induced labor, gestational hypertension, and gestational diabetes, compared with only 4 (9.3%) of the 43 who had no rebound (OR, 11.92; P = .0002).

Neonatal abnormalities were also higher among those experiencing a rebound (20% vs. 4.7%), however, the authors noted that “larger prospective studies are required to conclude whether antithyroid drug withdrawal affects fetal outcome.”

In the rebound group, the mean duration of antithyroid medication use was 24.7 months versus 35.1 months in the nonrebound group, however, the difference was not statistically significant (P = .07). And 40% of the rebound group had a history of miscarriage versus 32.6% in the non-rebound group, but was also not significantly different (P = .56).

The authors noted that half of those in the rebound group developed hyperthyroidism more than 4 weeks after their withdrawal from antithyroid medications, “which seemed to have circumvented the most sensitive period of teratogenesis between 6 and 10 weeks of pregnancy.”

Hou added that restarting antithyroid medication did not increase the risk of adverse outcomes for offspring.

“A low dose of antithyroid medications may be a good choice for women with subnormal TSH and/or positive TRAb in early pregnancy,” Hou concluded. “Because of the small size of our study, a larger prospective study is needed to overcome the potential selection bias and to verify the conclusions.”
 

Findings consistent with Finnish study

In her own recent study, which included 2,144 women in Finland who experienced hyperthyroidism during pregnancy, Dr. Turunen and colleagues found that having hyperthyroidism, with or without antithyroid drug treatment, was associated with an increased odds of pregnancy and/or prenatal complications, compared with those without thyroid disease.

“In our study, we observed an increased risk of adverse pregnancy outcomes also in mothers with previous diagnosis and/or treatment of hyperthyroidism, not only with overt hyperthyroidism treated with antithyroid drugs,” she told this news organization.

“I think that especially those patients with positive antibodies [TRAbs] are at risk even if they are euthyroid,” she noted. “Withdrawal of antithyroid drugs in these patients is a risk.”

“Probably continuing antithyroid treatment with low dose is a better option,” she said.

The authors and Dr. Turunen reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The risk of developing incident heart failure is 1.5-times higher in people with nonalcoholic fatty liver disease (NAFLD) during a median follow-up of 10 years, according to a new meta-analysis.

The risk appears to increase with greater liver disease severity and was independent of age, sex, ethnicity, obesity, and the presence of diabetes, hypertension, and other common cardiovascular risk factors.

“Health care professionals should be aware that the risk of new-onset heart failure is moderately higher in patients with NAFLD,” senior author Giovanni Targher, MD, said in an interview.

“Because of the link between the two conditions, more careful surveillance of these patients will be needed,” said Dr. Targher, who is an associate professor of diabetes and endocrinology at the University of Verona (Italy). “In particular, the results of this meta-analysis highlight the need for a patient-centered, multidisciplinary, and holistic approach to manage both liver disease and cardiovascular risk in patients with NAFLD.”

The study was published online in Gut.
 

Risk calculations

NAFLD has become one of the most common causes of chronic liver disease worldwide (affecting up to about 30% of the world’s adults), and is expected to rise sharply in the next decade, the study authors write. The disease is linked with liver-related conditions, such as nonalcoholic steatohepatitis, cirrhosis, and hepatocellular carcinoma, as well as complications in other organs.

Previous meta-analyses have found an association between NAFLD and a higher risk of heart failure, though the analyses included a relatively small number of studies and a relatively modest sample size, Dr. Targher and colleagues write.

Since then, several new cohort studies have examined the association, which inspired a new meta-analysis.

The research team analyzed 11 observational cohort studies with aggregate data on more than 11 million middle-aged people from different countries, including nearly 3 million with NAFLD and nearly 98,000 cases of incident heart failure over a median follow-up of 10 years.

In the studies, NAFLD was diagnosed by serum liver enzyme levels, serum biomarkers or scores, diagnostic codes, imaging techniques, or liver histology. Four studies were conducted in the United States, three were conducted in South Korea, and four were carried out in Europe, including Finland, Sweden, and the United Kingdom.

Dr. Targher and colleagues found that the presence of NAFLD was associated with a moderately higher risk of new-onset heart failure, with a pooled random-effects hazard ratio of 1.5. The risk was independent of age, sex, ethnicity, adiposity measures, diabetes, hypertension, and other typical cardiovascular risk factors.

The association between NAFLD and heart failure risk was consistent even when the comparison was stratified by study country, follow-up length, modality of heart failure diagnosis, and modality of NAFLD diagnosis.

In addition, sensitivity analyses didn’t change the results, and a funnel plot suggested that publication bias was unlikely.

“Accumulating evidence supports that NAFLD is part of a multisystem disease that adversely affects several extrahepatic organs, including the heart,” Dr. Targher said.

“NAFLD not only promotes accelerated coronary atherosclerosis but also confers a higher risk of myocardial abnormalities (cardiac remodeling and hypertrophy) and certain arrhythmias (mostly atrial fibrillation), which may precede and promote the development of new-onset heart failure over time,” he said.
 

Future research

Dr. Targher and colleagues also found that the risk of incident heart failure appeared to further increase with more advanced liver disease, particularly with higher levels of liver fibrosis, as assessed by noninvasive fibrosis biomarkers or histology. With only two cohort studies that examined the association, the authors judged there was insufficient data available to combine the studies into a meta-analysis.

But the observations are consistent with other recent meta-analyses that reported a significant association between the presence and severity of NAFLD and the risk of developing adverse cardiovascular outcomes, atrial fibrillation, chronic kidney disease, or other non-liver complications.

“It’s reassuring that the observations that have come from single studies hold true when you look at the totality of evidence,” Ambarish Pandey, MD, a cardiologist and assistant professor of internal medicine at the University of Texas Southwestern Medical Center, Dallas, told this news organization.

Dr. Pandey, who wasn’t involved with this study, conducted one of the recent meta-analyses that found a 1.6-times increased risk of heart failure associated with NAFLD, as well as a further increased risk with more advanced liver disease.

Now Dr. Pandey and colleagues are studying the underlying mechanisms for the link between NAFLD and heart failure risk, including cardiac structure and function, biomarkers of injury and stress, and how proportions of liver fat influence risk. Additional studies should investigate whether resolving NAFLD could reduce the risk of heart failure, he said.

“It’s really important to look for patients with NAFLD in primary care and think about cardiovascular disease in our liver patients,” he said. “Early strategies to implement the prevention of heart failure would go a long way in reducing long-term risks for these patients.”

The study authors did not declare a specific grant for this research from any funding agency in the public, commercial, or nonprofit sectors. Dr. Targher and Dr. Pandey report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The risk of developing incident heart failure is 1.5-times higher in people with nonalcoholic fatty liver disease (NAFLD) during a median follow-up of 10 years, according to a new meta-analysis.

The risk appears to increase with greater liver disease severity and was independent of age, sex, ethnicity, obesity, and the presence of diabetes, hypertension, and other common cardiovascular risk factors.

“Health care professionals should be aware that the risk of new-onset heart failure is moderately higher in patients with NAFLD,” senior author Giovanni Targher, MD, said in an interview.

“Because of the link between the two conditions, more careful surveillance of these patients will be needed,” said Dr. Targher, who is an associate professor of diabetes and endocrinology at the University of Verona (Italy). “In particular, the results of this meta-analysis highlight the need for a patient-centered, multidisciplinary, and holistic approach to manage both liver disease and cardiovascular risk in patients with NAFLD.”

The study was published online in Gut.
 

Risk calculations

NAFLD has become one of the most common causes of chronic liver disease worldwide (affecting up to about 30% of the world’s adults), and is expected to rise sharply in the next decade, the study authors write. The disease is linked with liver-related conditions, such as nonalcoholic steatohepatitis, cirrhosis, and hepatocellular carcinoma, as well as complications in other organs.

Previous meta-analyses have found an association between NAFLD and a higher risk of heart failure, though the analyses included a relatively small number of studies and a relatively modest sample size, Dr. Targher and colleagues write.

Since then, several new cohort studies have examined the association, which inspired a new meta-analysis.

The research team analyzed 11 observational cohort studies with aggregate data on more than 11 million middle-aged people from different countries, including nearly 3 million with NAFLD and nearly 98,000 cases of incident heart failure over a median follow-up of 10 years.

In the studies, NAFLD was diagnosed by serum liver enzyme levels, serum biomarkers or scores, diagnostic codes, imaging techniques, or liver histology. Four studies were conducted in the United States, three were conducted in South Korea, and four were carried out in Europe, including Finland, Sweden, and the United Kingdom.

Dr. Targher and colleagues found that the presence of NAFLD was associated with a moderately higher risk of new-onset heart failure, with a pooled random-effects hazard ratio of 1.5. The risk was independent of age, sex, ethnicity, adiposity measures, diabetes, hypertension, and other typical cardiovascular risk factors.

The association between NAFLD and heart failure risk was consistent even when the comparison was stratified by study country, follow-up length, modality of heart failure diagnosis, and modality of NAFLD diagnosis.

In addition, sensitivity analyses didn’t change the results, and a funnel plot suggested that publication bias was unlikely.

“Accumulating evidence supports that NAFLD is part of a multisystem disease that adversely affects several extrahepatic organs, including the heart,” Dr. Targher said.

“NAFLD not only promotes accelerated coronary atherosclerosis but also confers a higher risk of myocardial abnormalities (cardiac remodeling and hypertrophy) and certain arrhythmias (mostly atrial fibrillation), which may precede and promote the development of new-onset heart failure over time,” he said.
 

Future research

Dr. Targher and colleagues also found that the risk of incident heart failure appeared to further increase with more advanced liver disease, particularly with higher levels of liver fibrosis, as assessed by noninvasive fibrosis biomarkers or histology. With only two cohort studies that examined the association, the authors judged there was insufficient data available to combine the studies into a meta-analysis.

But the observations are consistent with other recent meta-analyses that reported a significant association between the presence and severity of NAFLD and the risk of developing adverse cardiovascular outcomes, atrial fibrillation, chronic kidney disease, or other non-liver complications.

“It’s reassuring that the observations that have come from single studies hold true when you look at the totality of evidence,” Ambarish Pandey, MD, a cardiologist and assistant professor of internal medicine at the University of Texas Southwestern Medical Center, Dallas, told this news organization.

Dr. Pandey, who wasn’t involved with this study, conducted one of the recent meta-analyses that found a 1.6-times increased risk of heart failure associated with NAFLD, as well as a further increased risk with more advanced liver disease.

Now Dr. Pandey and colleagues are studying the underlying mechanisms for the link between NAFLD and heart failure risk, including cardiac structure and function, biomarkers of injury and stress, and how proportions of liver fat influence risk. Additional studies should investigate whether resolving NAFLD could reduce the risk of heart failure, he said.

“It’s really important to look for patients with NAFLD in primary care and think about cardiovascular disease in our liver patients,” he said. “Early strategies to implement the prevention of heart failure would go a long way in reducing long-term risks for these patients.”

The study authors did not declare a specific grant for this research from any funding agency in the public, commercial, or nonprofit sectors. Dr. Targher and Dr. Pandey report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The risk of developing incident heart failure is 1.5-times higher in people with nonalcoholic fatty liver disease (NAFLD) during a median follow-up of 10 years, according to a new meta-analysis.

The risk appears to increase with greater liver disease severity and was independent of age, sex, ethnicity, obesity, and the presence of diabetes, hypertension, and other common cardiovascular risk factors.

“Health care professionals should be aware that the risk of new-onset heart failure is moderately higher in patients with NAFLD,” senior author Giovanni Targher, MD, said in an interview.

“Because of the link between the two conditions, more careful surveillance of these patients will be needed,” said Dr. Targher, who is an associate professor of diabetes and endocrinology at the University of Verona (Italy). “In particular, the results of this meta-analysis highlight the need for a patient-centered, multidisciplinary, and holistic approach to manage both liver disease and cardiovascular risk in patients with NAFLD.”

The study was published online in Gut.
 

Risk calculations

NAFLD has become one of the most common causes of chronic liver disease worldwide (affecting up to about 30% of the world’s adults), and is expected to rise sharply in the next decade, the study authors write. The disease is linked with liver-related conditions, such as nonalcoholic steatohepatitis, cirrhosis, and hepatocellular carcinoma, as well as complications in other organs.

Previous meta-analyses have found an association between NAFLD and a higher risk of heart failure, though the analyses included a relatively small number of studies and a relatively modest sample size, Dr. Targher and colleagues write.

Since then, several new cohort studies have examined the association, which inspired a new meta-analysis.

The research team analyzed 11 observational cohort studies with aggregate data on more than 11 million middle-aged people from different countries, including nearly 3 million with NAFLD and nearly 98,000 cases of incident heart failure over a median follow-up of 10 years.

In the studies, NAFLD was diagnosed by serum liver enzyme levels, serum biomarkers or scores, diagnostic codes, imaging techniques, or liver histology. Four studies were conducted in the United States, three were conducted in South Korea, and four were carried out in Europe, including Finland, Sweden, and the United Kingdom.

Dr. Targher and colleagues found that the presence of NAFLD was associated with a moderately higher risk of new-onset heart failure, with a pooled random-effects hazard ratio of 1.5. The risk was independent of age, sex, ethnicity, adiposity measures, diabetes, hypertension, and other typical cardiovascular risk factors.

The association between NAFLD and heart failure risk was consistent even when the comparison was stratified by study country, follow-up length, modality of heart failure diagnosis, and modality of NAFLD diagnosis.

In addition, sensitivity analyses didn’t change the results, and a funnel plot suggested that publication bias was unlikely.

“Accumulating evidence supports that NAFLD is part of a multisystem disease that adversely affects several extrahepatic organs, including the heart,” Dr. Targher said.

“NAFLD not only promotes accelerated coronary atherosclerosis but also confers a higher risk of myocardial abnormalities (cardiac remodeling and hypertrophy) and certain arrhythmias (mostly atrial fibrillation), which may precede and promote the development of new-onset heart failure over time,” he said.
 

Future research

Dr. Targher and colleagues also found that the risk of incident heart failure appeared to further increase with more advanced liver disease, particularly with higher levels of liver fibrosis, as assessed by noninvasive fibrosis biomarkers or histology. With only two cohort studies that examined the association, the authors judged there was insufficient data available to combine the studies into a meta-analysis.

But the observations are consistent with other recent meta-analyses that reported a significant association between the presence and severity of NAFLD and the risk of developing adverse cardiovascular outcomes, atrial fibrillation, chronic kidney disease, or other non-liver complications.

“It’s reassuring that the observations that have come from single studies hold true when you look at the totality of evidence,” Ambarish Pandey, MD, a cardiologist and assistant professor of internal medicine at the University of Texas Southwestern Medical Center, Dallas, told this news organization.

Dr. Pandey, who wasn’t involved with this study, conducted one of the recent meta-analyses that found a 1.6-times increased risk of heart failure associated with NAFLD, as well as a further increased risk with more advanced liver disease.

Now Dr. Pandey and colleagues are studying the underlying mechanisms for the link between NAFLD and heart failure risk, including cardiac structure and function, biomarkers of injury and stress, and how proportions of liver fat influence risk. Additional studies should investigate whether resolving NAFLD could reduce the risk of heart failure, he said.

“It’s really important to look for patients with NAFLD in primary care and think about cardiovascular disease in our liver patients,” he said. “Early strategies to implement the prevention of heart failure would go a long way in reducing long-term risks for these patients.”

The study authors did not declare a specific grant for this research from any funding agency in the public, commercial, or nonprofit sectors. Dr. Targher and Dr. Pandey report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The CHEST Foundation raises awareness for the most common interstitial lung disease.

On August 27, the CHEST Foundation and the Feldman Family Foundation will be hosting the 9th annual Irv Feldman Texas Hold ‘Em Tournament & Casino Night fundraiser supporting patient access and the provision of better quality of life for patients battling the interstitial lung disease – pulmonary fibrosis.

“My dad, Irv, had pulmonary fibrosis and deeply loved to play poker. It was always a family activity, and it continued through when he got sick. We played at his kitchen table when he couldn’t leave the house, and we even brought cards and chips to his hospital and rehab rooms,” said Mitch Feldman, President of the Feldman Family Foundation and member of the CHEST Foundation Board of Trustees. “During these few hours of poker play, he all but forgot about his illness and showed virtually no symptoms of the disease. In his honor, we created an event where people would come together to have fun playing poker while raising money for the disease [that] so deeply impacted our family.”

Through years of hosting the event, the Feldman family and the CHEST Foundation secured funding to develop a pulmonary fibrosis patient education resource hub that serves as a resource for those newly diagnosed and living with this disease. The Feldman Family and the CHEST Foundation continue to raise funds to support both early diagnosis and closing the gap between diagnosis and beginning treatment.
 

Partnering to address gaps

Affecting around 400,000 people in the United States, ILDs are frequently misdiagnosed as more common lung diseases. Some studies show that reaching an appropriate diagnosis for rarer lung diseases can take upwards of several years.

To begin addressing the issue of delays in diagnosis, the American College of Chest Physicians (CHEST) and Three Lakes Foundation are collaborating on a multiphase educational initiative aiming to reduce the time it takes to identify interstitial lung diseases like pulmonary fibrosis.

The initiative is called “Bridging Specialties^TM: Timely Diagnosis for ILD Patients” to highlight the collaboration of pulmonary and primary care medicine. A steering committee of medical experts – including pulmonologists, primary care physicians, and a nursing professional – will work to create materials that will aid in identifying and diagnosing complex lung diseases quicker.

“By having experts from both pulmonary and primary care medicine as members of the steering committee, we are bringing together the pieces of the puzzle that is a complex diagnosis,” said Bridging Specialties steering committee member and family medicine physician, Dr. William Lago. “Patients first see their family medicine or primary care clinicians and, all too often, the most complex lung diseases present in ways that are indistinguishable from more common conditions like asthma and COPD. Bringing together experts in both fields will yield the best results in creating a path to diagnosis.”
 

To learn more about the Bridging Specialties^TM: Timely Diagnosis for ILD Patients initiative and to sign up for updates, visit https://tinyurl.com/2p92ha6r.

For ticket and donation information to the Irv Feldman Texas Hold ‘Em Tournament & Casino Night, visit the CHEST Foundation website at foundation.chestnet.org.

The CHEST Foundation raises awareness for the most common interstitial lung disease.

On August 27, the CHEST Foundation and the Feldman Family Foundation will be hosting the 9th annual Irv Feldman Texas Hold ‘Em Tournament & Casino Night fundraiser supporting patient access and the provision of better quality of life for patients battling the interstitial lung disease – pulmonary fibrosis.

“My dad, Irv, had pulmonary fibrosis and deeply loved to play poker. It was always a family activity, and it continued through when he got sick. We played at his kitchen table when he couldn’t leave the house, and we even brought cards and chips to his hospital and rehab rooms,” said Mitch Feldman, President of the Feldman Family Foundation and member of the CHEST Foundation Board of Trustees. “During these few hours of poker play, he all but forgot about his illness and showed virtually no symptoms of the disease. In his honor, we created an event where people would come together to have fun playing poker while raising money for the disease [that] so deeply impacted our family.”

Through years of hosting the event, the Feldman family and the CHEST Foundation secured funding to develop a pulmonary fibrosis patient education resource hub that serves as a resource for those newly diagnosed and living with this disease. The Feldman Family and the CHEST Foundation continue to raise funds to support both early diagnosis and closing the gap between diagnosis and beginning treatment.
 

Partnering to address gaps

Affecting around 400,000 people in the United States, ILDs are frequently misdiagnosed as more common lung diseases. Some studies show that reaching an appropriate diagnosis for rarer lung diseases can take upwards of several years.

To begin addressing the issue of delays in diagnosis, the American College of Chest Physicians (CHEST) and Three Lakes Foundation are collaborating on a multiphase educational initiative aiming to reduce the time it takes to identify interstitial lung diseases like pulmonary fibrosis.

The initiative is called “Bridging Specialties^TM: Timely Diagnosis for ILD Patients” to highlight the collaboration of pulmonary and primary care medicine. A steering committee of medical experts – including pulmonologists, primary care physicians, and a nursing professional – will work to create materials that will aid in identifying and diagnosing complex lung diseases quicker.

“By having experts from both pulmonary and primary care medicine as members of the steering committee, we are bringing together the pieces of the puzzle that is a complex diagnosis,” said Bridging Specialties steering committee member and family medicine physician, Dr. William Lago. “Patients first see their family medicine or primary care clinicians and, all too often, the most complex lung diseases present in ways that are indistinguishable from more common conditions like asthma and COPD. Bringing together experts in both fields will yield the best results in creating a path to diagnosis.”
 

To learn more about the Bridging Specialties^TM: Timely Diagnosis for ILD Patients initiative and to sign up for updates, visit https://tinyurl.com/2p92ha6r.

For ticket and donation information to the Irv Feldman Texas Hold ‘Em Tournament & Casino Night, visit the CHEST Foundation website at foundation.chestnet.org.

The CHEST Foundation raises awareness for the most common interstitial lung disease.

On August 27, the CHEST Foundation and the Feldman Family Foundation will be hosting the 9th annual Irv Feldman Texas Hold ‘Em Tournament & Casino Night fundraiser supporting patient access and the provision of better quality of life for patients battling the interstitial lung disease – pulmonary fibrosis.

“My dad, Irv, had pulmonary fibrosis and deeply loved to play poker. It was always a family activity, and it continued through when he got sick. We played at his kitchen table when he couldn’t leave the house, and we even brought cards and chips to his hospital and rehab rooms,” said Mitch Feldman, President of the Feldman Family Foundation and member of the CHEST Foundation Board of Trustees. “During these few hours of poker play, he all but forgot about his illness and showed virtually no symptoms of the disease. In his honor, we created an event where people would come together to have fun playing poker while raising money for the disease [that] so deeply impacted our family.”

Through years of hosting the event, the Feldman family and the CHEST Foundation secured funding to develop a pulmonary fibrosis patient education resource hub that serves as a resource for those newly diagnosed and living with this disease. The Feldman Family and the CHEST Foundation continue to raise funds to support both early diagnosis and closing the gap between diagnosis and beginning treatment.
 

Partnering to address gaps

Affecting around 400,000 people in the United States, ILDs are frequently misdiagnosed as more common lung diseases. Some studies show that reaching an appropriate diagnosis for rarer lung diseases can take upwards of several years.

To begin addressing the issue of delays in diagnosis, the American College of Chest Physicians (CHEST) and Three Lakes Foundation are collaborating on a multiphase educational initiative aiming to reduce the time it takes to identify interstitial lung diseases like pulmonary fibrosis.

The initiative is called “Bridging Specialties^TM: Timely Diagnosis for ILD Patients” to highlight the collaboration of pulmonary and primary care medicine. A steering committee of medical experts – including pulmonologists, primary care physicians, and a nursing professional – will work to create materials that will aid in identifying and diagnosing complex lung diseases quicker.

“By having experts from both pulmonary and primary care medicine as members of the steering committee, we are bringing together the pieces of the puzzle that is a complex diagnosis,” said Bridging Specialties steering committee member and family medicine physician, Dr. William Lago. “Patients first see their family medicine or primary care clinicians and, all too often, the most complex lung diseases present in ways that are indistinguishable from more common conditions like asthma and COPD. Bringing together experts in both fields will yield the best results in creating a path to diagnosis.”
 

To learn more about the Bridging Specialties^TM: Timely Diagnosis for ILD Patients initiative and to sign up for updates, visit https://tinyurl.com/2p92ha6r.

For ticket and donation information to the Irv Feldman Texas Hold ‘Em Tournament & Casino Night, visit the CHEST Foundation website at foundation.chestnet.org.

The investigational agent xanomeline-trospium (KarXT, Karuna Therapeutics), which combines a muscarinic receptor agonist with an anticholinergic agent, helps improve psychosis symptoms and is not associated with weight gain or sedation in adults with schizophrenia, new research shows.

Top-line results from the phase 3 EMERGENT-2 trial showed a significantly greater reduction from baseline on Positive and Negative Syndrome Scale (PANSS) total scores for those receiving the active drug than for those receiving placebo, meeting its primary endpoint.

The findings “underscore the potential for KarXT, with its novel and unique mechanism of action, to redefine what successful treatment looks like for the 21 million people living with schizophrenia worldwide, and potentially usher in the first new class of medicine for these patients in more than 50 years,” Steve Paul, MD, chief executive officer, president, and chairman of Karuna Therapeutics, said in a press release.
 

Primary outcome met

About 20%-33% of patients with schizophrenia do not respond to conventional treatments, the company noted. Many have poor functional status and quality of life despite lifelong treatment with current antipsychotic agents.

Unlike current therapies, KarXT doesn’t rely on the dopaminergic or serotonergic pathways. It comprises the muscarinic agonist xanomeline and the muscarinic antagonist trospium and is designed to preferentially stimulate muscarinic receptors in the central nervous system.

Results from a phase 2 trial of almost 200 patients with schizophrenia were published last year in the New England Journal of Medicine. The findings showed that those who received xanomeline-trospium had a significantly greater reduction in psychosis symptoms than those who received placebo.

In the current phase 3 EMERGENT-2 trial, investigators included 252 adults aged 18-65 years who were diagnosed with schizophrenia and were experiencing symptoms of psychosis. Patients were randomly assigned to receive either a flexible dose of xanomeline-trospium or placebo twice daily.

The primary endpoint was change from baseline in the PANSS total score at week 5. Results showed a statistically significant and clinically meaningful 9.6-point reduction in the PANSS total score in participants taking the active drug, compared with those taking placebo (–21.2 vs. –11.6, respectively; P < .0001; Cohen’s d effect size, 0.61).

In addition, there was an early and sustained significant reduction of schizophrenia symptoms, as assessed by the PANSS total score, starting at week 2. This reduction was maintained through all trial timepoints.
 

Safety profile

The novel drug also met key secondary endpoints. In the active treatment group, there was a significant reduction on the PANSS subscales in both positive symptoms of schizophrenia, such as hallucinations or delusions, and negative symptoms, such as difficulty enjoying life or withdrawal from others.

Overall, the agent was generally well tolerated. The treatment-emergent adverse events (TEAEs) rate for xanomeline-trospium and placebo was 75% versus 58%, respectively.

The most common TEAEs for the active treatment were all mild-to-moderate in severity and included constipation, dyspepsia, nausea, vomiting, headache, increases in blood pressure, dizziness, gastroesophageal reflux disease, abdominal discomfort, and diarrhea.

As in prior trials, an increase in heart rate was also associated with the active treatment and decreased in magnitude by the end of the current study.

Discontinuation rates related to TEAEs were similar between xanomeline-trospium (7%) and placebo (6%), as were rates of serious TEAEs (2% in each group) – which included suicidal ideation, worsening of schizophrenia symptoms, and appendicitis.

Notably, the drug was not associated with common problematic adverse events of current therapies, such as weight gain, sedation, and movement disorders.

Karuna plans to submit a New Drug Application with the U.S. Food and Drug Administration for KarXT in mid-2023. In addition to schizophrenia, the drug is in development for the treatment of other psychiatric and neurological conditions, including Alzheimer’s disease.

A version of this article first appeared on Medscape.com.

The investigational agent xanomeline-trospium (KarXT, Karuna Therapeutics), which combines a muscarinic receptor agonist with an anticholinergic agent, helps improve psychosis symptoms and is not associated with weight gain or sedation in adults with schizophrenia, new research shows.

Top-line results from the phase 3 EMERGENT-2 trial showed a significantly greater reduction from baseline on Positive and Negative Syndrome Scale (PANSS) total scores for those receiving the active drug than for those receiving placebo, meeting its primary endpoint.

The findings “underscore the potential for KarXT, with its novel and unique mechanism of action, to redefine what successful treatment looks like for the 21 million people living with schizophrenia worldwide, and potentially usher in the first new class of medicine for these patients in more than 50 years,” Steve Paul, MD, chief executive officer, president, and chairman of Karuna Therapeutics, said in a press release.
 

Primary outcome met

About 20%-33% of patients with schizophrenia do not respond to conventional treatments, the company noted. Many have poor functional status and quality of life despite lifelong treatment with current antipsychotic agents.

Unlike current therapies, KarXT doesn’t rely on the dopaminergic or serotonergic pathways. It comprises the muscarinic agonist xanomeline and the muscarinic antagonist trospium and is designed to preferentially stimulate muscarinic receptors in the central nervous system.

Results from a phase 2 trial of almost 200 patients with schizophrenia were published last year in the New England Journal of Medicine. The findings showed that those who received xanomeline-trospium had a significantly greater reduction in psychosis symptoms than those who received placebo.

In the current phase 3 EMERGENT-2 trial, investigators included 252 adults aged 18-65 years who were diagnosed with schizophrenia and were experiencing symptoms of psychosis. Patients were randomly assigned to receive either a flexible dose of xanomeline-trospium or placebo twice daily.

The primary endpoint was change from baseline in the PANSS total score at week 5. Results showed a statistically significant and clinically meaningful 9.6-point reduction in the PANSS total score in participants taking the active drug, compared with those taking placebo (–21.2 vs. –11.6, respectively; P < .0001; Cohen’s d effect size, 0.61).

In addition, there was an early and sustained significant reduction of schizophrenia symptoms, as assessed by the PANSS total score, starting at week 2. This reduction was maintained through all trial timepoints.
 

Safety profile

The novel drug also met key secondary endpoints. In the active treatment group, there was a significant reduction on the PANSS subscales in both positive symptoms of schizophrenia, such as hallucinations or delusions, and negative symptoms, such as difficulty enjoying life or withdrawal from others.

Overall, the agent was generally well tolerated. The treatment-emergent adverse events (TEAEs) rate for xanomeline-trospium and placebo was 75% versus 58%, respectively.

The most common TEAEs for the active treatment were all mild-to-moderate in severity and included constipation, dyspepsia, nausea, vomiting, headache, increases in blood pressure, dizziness, gastroesophageal reflux disease, abdominal discomfort, and diarrhea.

As in prior trials, an increase in heart rate was also associated with the active treatment and decreased in magnitude by the end of the current study.

Discontinuation rates related to TEAEs were similar between xanomeline-trospium (7%) and placebo (6%), as were rates of serious TEAEs (2% in each group) – which included suicidal ideation, worsening of schizophrenia symptoms, and appendicitis.

Notably, the drug was not associated with common problematic adverse events of current therapies, such as weight gain, sedation, and movement disorders.

Karuna plans to submit a New Drug Application with the U.S. Food and Drug Administration for KarXT in mid-2023. In addition to schizophrenia, the drug is in development for the treatment of other psychiatric and neurological conditions, including Alzheimer’s disease.

A version of this article first appeared on Medscape.com.

The investigational agent xanomeline-trospium (KarXT, Karuna Therapeutics), which combines a muscarinic receptor agonist with an anticholinergic agent, helps improve psychosis symptoms and is not associated with weight gain or sedation in adults with schizophrenia, new research shows.

Top-line results from the phase 3 EMERGENT-2 trial showed a significantly greater reduction from baseline on Positive and Negative Syndrome Scale (PANSS) total scores for those receiving the active drug than for those receiving placebo, meeting its primary endpoint.

The findings “underscore the potential for KarXT, with its novel and unique mechanism of action, to redefine what successful treatment looks like for the 21 million people living with schizophrenia worldwide, and potentially usher in the first new class of medicine for these patients in more than 50 years,” Steve Paul, MD, chief executive officer, president, and chairman of Karuna Therapeutics, said in a press release.
 

Primary outcome met

About 20%-33% of patients with schizophrenia do not respond to conventional treatments, the company noted. Many have poor functional status and quality of life despite lifelong treatment with current antipsychotic agents.

Unlike current therapies, KarXT doesn’t rely on the dopaminergic or serotonergic pathways. It comprises the muscarinic agonist xanomeline and the muscarinic antagonist trospium and is designed to preferentially stimulate muscarinic receptors in the central nervous system.

Results from a phase 2 trial of almost 200 patients with schizophrenia were published last year in the New England Journal of Medicine. The findings showed that those who received xanomeline-trospium had a significantly greater reduction in psychosis symptoms than those who received placebo.

In the current phase 3 EMERGENT-2 trial, investigators included 252 adults aged 18-65 years who were diagnosed with schizophrenia and were experiencing symptoms of psychosis. Patients were randomly assigned to receive either a flexible dose of xanomeline-trospium or placebo twice daily.

The primary endpoint was change from baseline in the PANSS total score at week 5. Results showed a statistically significant and clinically meaningful 9.6-point reduction in the PANSS total score in participants taking the active drug, compared with those taking placebo (–21.2 vs. –11.6, respectively; P < .0001; Cohen’s d effect size, 0.61).

In addition, there was an early and sustained significant reduction of schizophrenia symptoms, as assessed by the PANSS total score, starting at week 2. This reduction was maintained through all trial timepoints.
 

Safety profile

The novel drug also met key secondary endpoints. In the active treatment group, there was a significant reduction on the PANSS subscales in both positive symptoms of schizophrenia, such as hallucinations or delusions, and negative symptoms, such as difficulty enjoying life or withdrawal from others.

Overall, the agent was generally well tolerated. The treatment-emergent adverse events (TEAEs) rate for xanomeline-trospium and placebo was 75% versus 58%, respectively.

The most common TEAEs for the active treatment were all mild-to-moderate in severity and included constipation, dyspepsia, nausea, vomiting, headache, increases in blood pressure, dizziness, gastroesophageal reflux disease, abdominal discomfort, and diarrhea.

As in prior trials, an increase in heart rate was also associated with the active treatment and decreased in magnitude by the end of the current study.

Discontinuation rates related to TEAEs were similar between xanomeline-trospium (7%) and placebo (6%), as were rates of serious TEAEs (2% in each group) – which included suicidal ideation, worsening of schizophrenia symptoms, and appendicitis.

Notably, the drug was not associated with common problematic adverse events of current therapies, such as weight gain, sedation, and movement disorders.

Karuna plans to submit a New Drug Application with the U.S. Food and Drug Administration for KarXT in mid-2023. In addition to schizophrenia, the drug is in development for the treatment of other psychiatric and neurological conditions, including Alzheimer’s disease.

A version of this article first appeared on Medscape.com.

Acute generalized pustular psoriasis (GPP) is a rare severe variant of psoriasis characterized by the sudden widespread eruption of sterile pustules.^1,2 The cutaneous manifestations of GPP also may be accompanied by signs of systemic inflammation, including fever, malaise, and leukocytosis.² Complications are common and may be life-threatening, especially in older patients with comorbid diseases.³ Generalized pustular psoriasis most commonly occurs in patients with a preceding history of psoriasis, but it also may occur de novo.⁴ Generalized pustular psoriasis is associated with notable morbidity and mortality, and relapses are common.^3,4 Many triggers of GPP have been identified, including initiation and withdrawal of various medications, infections, pregnancy, and other conditions.^5,6 Although GPP most often occurs in adults, it also may arise in children and infants.³ In pregnancy, GPP is referred to as impetigo herpetiformis, despite having no etiologic ties with either herpes simplex virus or staphylococcal or streptococcal infection. Impetigo herpetiformis is considered one of the most dangerous dermatoses of pregnancy because of high rates of associated maternal and fetal morbidity.^6,7

Acute GPP has proven to be a challenging disease to treat due to the rarity and relapsing-remitting nature of the disease; additionally, there are relatively few randomized controlled trials investigating the efficacy and safety of treatments for GPP. This review summarizes the features of GPP, including the pathophysiology of the disease, clinical and histological manifestations, and recommendations for management based on a PubMed search of articles indexed for MEDLINE using MeSH terms pertaining to the disease, including generalized pustular psoriasis, impetigo herpetiformis, and von Zumbusch psoriasis.

Pathophysiology

The pathophysiology of GPP is only partially understood, but it is thought to have a distinct pattern of immune activation compared with plaque psoriasis.⁸ Although there is a considerable amount of overlap and cross-talk among cytokine pathways, GPP generally is driven by innate immunity and unrestrained IL-36 cytokine activity. In contrast, adaptive immune responses—namely the tumor necrosis factor (TNF) α, IL-23, IL-17, and IL-22 axes—underlie plaque psoriasis.^8-10

Proinflammatory IL-36 cytokines α, β, and γ, which are all part of the IL-1 superfamily, bind to the IL-36 receptor (IL-36R) to recruit and activate immune cells via various mediators, including IL-1β; IL-8; and chemokines CXCL1, CXCL2, and CXCL8.³ The IL-36 receptor antagonist (IL-36ra) acts to inhibit this inflammatory cascade.^3,8 Microarray analyses of skin biopsy samples have shown that overexpression of IL-17A, TNF-α, IL-1, and IL-36 are seen in both GPP and plaque psoriasis lesions, but GPP lesions had higher expression of IL-1β, IL-36α, and IL-36γ and elevated neutrophil chemokines—CXCL1, CXCL2, and CXCL8—compared with plaque psoriasis lesions.⁸

Gene Mutations Associated With GPP

There are 3 gene mutations that have been associated with pustular variants of psoriasis, though these mutations account for a minority of cases of GPP.⁴ Genetic screenings are not routinely indicated in patients with GPP, but they may be warranted in severe cases when a familial pattern of inheritance is suspected.⁴

IL36RN—The gene IL36RN codes the anti-inflammatory IL-36ra. Loss-of-function mutations in IL36RN lead to impairment of IL-36ra and consequently hyperactivity of the proinflammatory responses triggered by IL-36.³ Homozygous and heterozygous mutations in IL36RN have been observed in both familial and sporadic cases of GPP.^11-13 Subsequent retrospective analyses have identified the presence of IL36RN mutations in patients with GPP with frequencies ranging from 23% to 37%.^14-17IL36RN mutations are thought to be more common in patients without concomitant plaque psoriasis and have been associated with severe disease and early disease onset.¹⁵

CARD14—A gain-of-function mutation in CARD14 results in overactivation of the proinflammatory nuclear factor κB pathway and has been implicated in cases of GPP with concurrent psoriasis vulgaris. Interestingly, this may suggest distinct etiologies underlying GPP de novo and GPP in patients with a history of psoriasis.^18,19

AP1S3—A loss-of-function mutation in AP1S3 results in abnormal endosomal trafficking and autophagy as well as increased expression of IL-36α.^20,21

Clinical Presentation and DiagnosisCutaneous Manifestations of GPP

Generalized pustular psoriasis is characterized by the onset of widespread 2- to 3-mm sterile pustules on erythematous skin or within psoriasiform plaques⁴ (Figure). In patients with skin of color, the erythema may appear less obvious or perhaps slightly violaceous compared to White skin. Pustules may coalesce to form “lakes” of pus.⁵ Cutaneous symptoms include pain, burning, and pruritus. Associated mucosal findings may include cheilitis, geographic tongue, conjunctivitis, and uveitis.⁴

The severity of symptoms can vary greatly among patients as well as between flares within the same patient.^2,3 Four distinct patterns of GPP have been described. The von Zumbusch pattern is characterized by a rapid, generalized, painful, erythematous and pustular eruption accompanied by fever and asthenia. The pustules usually resolve after several days with extensive scaling. The annular pattern is characterized by annular, erythematous, scaly lesions with pustules present centrifugally. The lesions enlarge by centrifugal expansion over a period of hours to days, while healing occurs centrally. The exanthematic type is an acute eruption of small pustules that abruptly appear and disappear within a few days, usually from infection or medication initiation. Sometimes pustules appear within or at the edge of existing psoriatic plaques in a localized pattern—the fourth pattern—often following the exposure to irritants (eg, tars, anthralin).⁵

Impetigo Herpetiformis—Impetigo herpetiformis is a form of GPP associated with pregnancy. It generally presents early in the third trimester with symmetric erythematous plaques in flexural and intertriginous areas with pustules present at lesion margins. Lesions expand centrifugally, with pustulation present at the advancing edge.^6,7 Patients often are acutely ill with fever, delirium, vomiting, and tetany. Mucous membranes, including the tongue, mouth, and esophagus, also may be involved. The eruption typically resolves after delivery, though it often recurs with subsequent pregnancies, with the morbidity risk rising with each successive pregnancy.⁷

Systemic and Extracutaneous Manifestations of GPP

Although the severity of GPP is highly variable, skin manifestations often are accompanied by systemic manifestations of inflammation, including fever and malaise. Common laboratory abnormalities include leukocytosis with peripheral neutrophilia, a high serum C-reactive protein level, hypocalcemia, and hypoalbuminemia.²² Abnormal liver enzymes often are present and result from neutrophilic cholangitis, with alternating strictures and dilations of biliary ducts observed on magnetic resonance imaging.²³ Additional laboratory abnormalities are provided in Table 2. Other extracutaneous findings associated with GPP include arthralgia, edema, and characteristic psoriatic nail changes.⁴ Fatal complications include acute respiratory distress syndrome, renal dysfunction, cardiovascular shock, and sepsis.^24,25

Histologic Features

Given the potential for the skin manifestations of GPP to mimic other disorders, a skin biopsy is warranted to confirm the diagnosis. Generalized pustular psoriasis is histologically characterized by the presence of subcorneal macropustules (ie, spongiform pustules of Kogoj) formed by neutrophil infiltration into the spongelike network of the epidermis.⁶ Otherwise, the architecture of the epithelium in GPP is similar to that seen with plaque psoriasis, with parakeratosis, acanthosis, rete-ridge elongation, diminished stratum granulosum, and thinning of the suprapapillary epidermis, though the inflammatory cell infiltrate and edema are markedly more severe in GPP than plaque psoriasis.^3,4

Differential Diagnosis

There are many other cutaneous pustular diagnoses that must be ruled out when evaluating a patient with GPP (Table 1).²⁶ Acute generalized exanthematous pustulosis (AGEP) is a common mimicker of GPP that is differentiated histologically by the presence of eosinophils and necrotic keratinocytes.⁴ In addition to its distinct histopathologic findings, AGEP is classically associated with recent initiation of certain medications, most commonly penicillins, macrolides, quinolones, sulfonamides, terbinafine, and diltiazem.²⁷ In contrast, GPP more commonly is related to withdrawal of corticosteroids as well as initiation of some biologic medications, including anti-TNF agents.³ Generalized pustular psoriasis should be suspected over AGEP in patients with a personal or family history of psoriasis, though GPP may arise in patients with or without a history of psoriasis. Acute generalized exanthematous pustulosis usually is more abrupt in both onset and resolution compared with GPP, with clearance of pustules within a few days to weeks following cessation of the triggering factor.⁴

Other pustular variants of psoriasis (eg, palmoplantar pustular psoriasis, acrodermatitis continua of Hallopeau) are differentiated from GPP by their chronicity and localization to palmoplantar and/or ungual surfaces.⁵ Other differential diagnoses are listed in Table 1.

Diagnostic Criteria for GPP

Diagnostic criteria have been proposed for GPP (Table 2), including (1) the presence of sterile pustules, (2) systemic signs of inflammation, (3) laboratory abnormalities, (4) histopathologic confirmation of spongiform pustules of Kogoj, and (5) recurrence of symptoms.²² To definitively diagnose GPP, all 5 criteria must be met. To rule out mimickers, it may be worthwhile to perform Gram staining, potassium hydroxide preparation, in vitro cultures, and/or immunofluorescence testing.⁶

Treatment

Given the high potential for mortality associated with GPP, the most essential component of management is to ensure adequate supportive care. Any temperature, fluid, or electrolyte imbalances should be corrected as they arise. Secondary infections also must be identified and treated, if present, to reduce the risk for fatal complications, including systemic infection and sepsis. Precautions must be taken to ensure that serious end-organ damage, including hepatic, renal, and respiratory dysfunction, is avoided.

Adjunctive topical intervention often is initiated with bland emollients, corticosteroids, calcineurin inhibitors, and/or vitamin D derivatives to help soothe skin symptoms, but treatment with systemic therapies usually is warranted to achieve symptom control.^2,25 Importantly, there are no systemic or topical agents that have specifically been approved for the treatment of GPP in Europe or the United States.³ Given the absence of universally accepted treatment guidelines, therapeutic agents for GPP usually are selected based on clinical experience while also taking the extent of involvement and disease severity into consideration.³

Treatment Recommendations for Adults

Oral Systemic Agents—Treatment guidelines set forth by the National Psoriasis Foundation (NPF) in 2012 proposed that first-line therapies for GPP should be acitretin, cyclosporine, methotrexate, and infliximab.²⁸ However, since those guidelines were established, many new biologic therapies have been approved for the treatment of psoriasis and often are considered in the treatment of psoriasis subtypes, including GPP.²⁹ Although retinoids previously were considered to be a preferred first-line therapy, they are associated with a high incidence of adverse effects and must be used with caution in women of childbearing age.⁶ Oral acitretin at a dosage of 0.75 to 1.0 mg/kg/d has been shown to result in clinical improvement within 1 to 2 weeks, and a maintenance dosage of 0.125 to 0.25 mg/kg/d is required for several months to prevent recurrence.³⁰ Methotrexate—5.0 to 15.0 mg/wk, or perhaps higher in patients with refractory disease, increased by 2.5-mg intervals until symptoms improve—is recommended by the NPF in patients who are unresponsive or cannot tolerate retinoids, though close monitoring for hematologic abnormalities is required. Cyclosporine 2.5 to 5.0 mg/kg/d is considered an alternative to methotrexate and retinoids; it has a faster onset of action, with improvement reported as early as 2 weeks after initiation of therapy.^1,28 Although cyclosporine may be effective in the acute phase, especially in severe cases of GPP, long-term use of cyclosporine is not recommended because of the potential for renal dysfunction and hypertension.³¹

Biologic Agents—More recent evidence has accumulated supporting the efficacy of anti-TNF agents in the treatment of GPP, suggesting the positioning of these agents as first line. A number of case series have shown dramatic and rapid improvement of GPP with intravenous infliximab 3 to 5 mg/kg, with results observed hours to days after the first infusion.^32-37 Thus, infliximab is recommended as first-line treatment in severe acute cases, though its efficacy as a maintenance therapy has not been sufficiently investigated.⁶ Case reports and case series document the safety and efficacy of adalimumab 40 to 80 mg every 1 to 2 weeks^38,39 and etanercept 25 to 50 mg twice weekly^40-42 in patients with recalcitrantGPP. Therefore, these anti-TNF agents may be considered in patients who are nonresponsive to treatment with infliximab.

Rarely, there have been reports of paradoxical induction of GPP with the use of some anti-TNF agents,^43-45 which may be due to a cytokine imbalance characterized by unopposed IFN-α activation.⁶ In patients with a history of GPP after initiation of a biologic, treatment with agents from within the offending class should be avoided.

The IL-17A monoclonal antibodies secukinumab, ixekizumab, and brodalumab have been shown in open-label phase 3 studies to result in disease remission at 12 weeks.^46-48 Treatment with guselkumab, an IL-23 monoclonal antibody, also has demonstrated efficacy in patients with GPP.⁴⁹ Ustekinumab, an IL-12/23 inhibitor, in combination with acitretin also has been shown to be successful in achieving disease remission after a few weeks of treatment.⁵⁰

More recent case reports have shown the efficacy of IL-1 inhibitors including gevokizumab, canakinumab, and anakinra in achieving GPP clearance, though more prospective studies are needed to evaluate their efficacy.^51-53 Given the etiologic association between IL-1 disinhibition and GPP, future investigations of these therapies as well as those that target the IL-36 pathway may prove to be particularly interesting.

Phototherapy and Combination Therapies—Phototherapy may be considered as maintenance therapy after disease control is achieved, though it is not considered appropriate for acute cases.²⁸ Combination therapies with a biologic plus a nonbiologic systemic agent or alternating among various biologics may allow physicians to maximize benefits and minimize adverse effects in the long term, though there is insufficient evidence to suggest any specific combination treatment algorithm for GPP.²⁸

Treatment Recommendations for Pediatric Patients

Based on a small number of case series and case reports, the first-line treatment strategy for children with GPP is similar to adults. Given the notable adverse events of most oral systemic agents, biologic therapies may emerge as first-line therapy in the pediatric population as more evidence accumulates.²⁸

Treatment Recommendations for Pregnant Patients

Systemic corticosteroids are widely considered to be the first-line treatments for the management of impetigo herpetiformis.⁷ Low-dose prednisone (15–30 mg/d) usually is effective, but severe cases may require increasing the dosage to 60 mg/d.⁶ Given the potential for rebound flares upon withdrawal of systemic corticosteroids, these agents must be gradually tapered after the resolution of symptoms.

Certolizumab pegol also is an attractive option in pregnant patients with impetigo herpetiformis because of its favorable safety profile and negligible mother-to-infant transfer through the placenta or breast milk. It has been shown to be effective in treating GPP and impetigo herpetiformis during pregnancy in recently published case reports.^54,55 In refractory cases, other TNF-α inhibitors (eg, adalimumab, infliximab, etanercept) or cyclosporine may be considered. However, cautious medical monitoring is warranted, as little is known about the potential adverse effects of these agents to the mother and fetus.^28,56 Data from transplant recipients along with several case reports indicate that cyclosporine is not associated with an increased risk for adverse effects during pregnancy at a dose of 2 to 3 mg/kg.^57-59 Both methotrexate and retinoids are known teratogens and are therefore contraindicated in pregnant patients.⁵⁶

If pustules do not resolve in the postpartum period, patients should be treated with standard GPP therapies. However, long-term and population studies are lacking regarding the potential for infant exposure to systemic agents in breast milk. Therefore, the NPF recommends avoiding breastfeeding while taking systemic medications, if possible.⁵⁶

Limitations of Treatment Recommendations

The ability to generate an evidence-based treatment strategy for GPP is limited by a lack of high-quality studies investigating the efficacy and safety of treatments in patients with GPP due to the rarity and relapsing-remitting nature of the disease, which makes randomized controlled trials difficult to conduct. The quality of the available research is further limited by the lack of validated outcome measures to specifically assess improvements in patients with GPP, such that results are difficult to synthesize and compare among studies.³¹

Conclusion

Although limited, the available research suggests that treatment with various biologics, especially infliximab, is effective in achieving rapid clearance in patients with GPP. In general, biologics may be the most appropriate treatment option in patients with GPP given their relatively favorable safety profiles. Other oral systemic agents, including acitretin, cyclosporine, and methotrexate, have limited evidence to support their use in the acute phase, but their safety profiles often limit their utility in the long-term. Emerging evidence regarding the association of GPP with IL36RN mutations suggests a unique role for agents targeting the IL-36 or IL-1 pathways, though this has yet to be thoroughly investigated.

Acute generalized pustular psoriasis (GPP) is a rare severe variant of psoriasis characterized by the sudden widespread eruption of sterile pustules.^1,2 The cutaneous manifestations of GPP also may be accompanied by signs of systemic inflammation, including fever, malaise, and leukocytosis.² Complications are common and may be life-threatening, especially in older patients with comorbid diseases.³ Generalized pustular psoriasis most commonly occurs in patients with a preceding history of psoriasis, but it also may occur de novo.⁴ Generalized pustular psoriasis is associated with notable morbidity and mortality, and relapses are common.^3,4 Many triggers of GPP have been identified, including initiation and withdrawal of various medications, infections, pregnancy, and other conditions.^5,6 Although GPP most often occurs in adults, it also may arise in children and infants.³ In pregnancy, GPP is referred to as impetigo herpetiformis, despite having no etiologic ties with either herpes simplex virus or staphylococcal or streptococcal infection. Impetigo herpetiformis is considered one of the most dangerous dermatoses of pregnancy because of high rates of associated maternal and fetal morbidity.^6,7

Acute GPP has proven to be a challenging disease to treat due to the rarity and relapsing-remitting nature of the disease; additionally, there are relatively few randomized controlled trials investigating the efficacy and safety of treatments for GPP. This review summarizes the features of GPP, including the pathophysiology of the disease, clinical and histological manifestations, and recommendations for management based on a PubMed search of articles indexed for MEDLINE using MeSH terms pertaining to the disease, including generalized pustular psoriasis, impetigo herpetiformis, and von Zumbusch psoriasis.

Pathophysiology

The pathophysiology of GPP is only partially understood, but it is thought to have a distinct pattern of immune activation compared with plaque psoriasis.⁸ Although there is a considerable amount of overlap and cross-talk among cytokine pathways, GPP generally is driven by innate immunity and unrestrained IL-36 cytokine activity. In contrast, adaptive immune responses—namely the tumor necrosis factor (TNF) α, IL-23, IL-17, and IL-22 axes—underlie plaque psoriasis.^8-10

Proinflammatory IL-36 cytokines α, β, and γ, which are all part of the IL-1 superfamily, bind to the IL-36 receptor (IL-36R) to recruit and activate immune cells via various mediators, including IL-1β; IL-8; and chemokines CXCL1, CXCL2, and CXCL8.³ The IL-36 receptor antagonist (IL-36ra) acts to inhibit this inflammatory cascade.^3,8 Microarray analyses of skin biopsy samples have shown that overexpression of IL-17A, TNF-α, IL-1, and IL-36 are seen in both GPP and plaque psoriasis lesions, but GPP lesions had higher expression of IL-1β, IL-36α, and IL-36γ and elevated neutrophil chemokines—CXCL1, CXCL2, and CXCL8—compared with plaque psoriasis lesions.⁸

Gene Mutations Associated With GPP

There are 3 gene mutations that have been associated with pustular variants of psoriasis, though these mutations account for a minority of cases of GPP.⁴ Genetic screenings are not routinely indicated in patients with GPP, but they may be warranted in severe cases when a familial pattern of inheritance is suspected.⁴

IL36RN—The gene IL36RN codes the anti-inflammatory IL-36ra. Loss-of-function mutations in IL36RN lead to impairment of IL-36ra and consequently hyperactivity of the proinflammatory responses triggered by IL-36.³ Homozygous and heterozygous mutations in IL36RN have been observed in both familial and sporadic cases of GPP.^11-13 Subsequent retrospective analyses have identified the presence of IL36RN mutations in patients with GPP with frequencies ranging from 23% to 37%.^14-17IL36RN mutations are thought to be more common in patients without concomitant plaque psoriasis and have been associated with severe disease and early disease onset.¹⁵

CARD14—A gain-of-function mutation in CARD14 results in overactivation of the proinflammatory nuclear factor κB pathway and has been implicated in cases of GPP with concurrent psoriasis vulgaris. Interestingly, this may suggest distinct etiologies underlying GPP de novo and GPP in patients with a history of psoriasis.^18,19

AP1S3—A loss-of-function mutation in AP1S3 results in abnormal endosomal trafficking and autophagy as well as increased expression of IL-36α.^20,21

Clinical Presentation and DiagnosisCutaneous Manifestations of GPP

Generalized pustular psoriasis is characterized by the onset of widespread 2- to 3-mm sterile pustules on erythematous skin or within psoriasiform plaques⁴ (Figure). In patients with skin of color, the erythema may appear less obvious or perhaps slightly violaceous compared to White skin. Pustules may coalesce to form “lakes” of pus.⁵ Cutaneous symptoms include pain, burning, and pruritus. Associated mucosal findings may include cheilitis, geographic tongue, conjunctivitis, and uveitis.⁴

The severity of symptoms can vary greatly among patients as well as between flares within the same patient.^2,3 Four distinct patterns of GPP have been described. The von Zumbusch pattern is characterized by a rapid, generalized, painful, erythematous and pustular eruption accompanied by fever and asthenia. The pustules usually resolve after several days with extensive scaling. The annular pattern is characterized by annular, erythematous, scaly lesions with pustules present centrifugally. The lesions enlarge by centrifugal expansion over a period of hours to days, while healing occurs centrally. The exanthematic type is an acute eruption of small pustules that abruptly appear and disappear within a few days, usually from infection or medication initiation. Sometimes pustules appear within or at the edge of existing psoriatic plaques in a localized pattern—the fourth pattern—often following the exposure to irritants (eg, tars, anthralin).⁵

Impetigo Herpetiformis—Impetigo herpetiformis is a form of GPP associated with pregnancy. It generally presents early in the third trimester with symmetric erythematous plaques in flexural and intertriginous areas with pustules present at lesion margins. Lesions expand centrifugally, with pustulation present at the advancing edge.^6,7 Patients often are acutely ill with fever, delirium, vomiting, and tetany. Mucous membranes, including the tongue, mouth, and esophagus, also may be involved. The eruption typically resolves after delivery, though it often recurs with subsequent pregnancies, with the morbidity risk rising with each successive pregnancy.⁷

Systemic and Extracutaneous Manifestations of GPP

Although the severity of GPP is highly variable, skin manifestations often are accompanied by systemic manifestations of inflammation, including fever and malaise. Common laboratory abnormalities include leukocytosis with peripheral neutrophilia, a high serum C-reactive protein level, hypocalcemia, and hypoalbuminemia.²² Abnormal liver enzymes often are present and result from neutrophilic cholangitis, with alternating strictures and dilations of biliary ducts observed on magnetic resonance imaging.²³ Additional laboratory abnormalities are provided in Table 2. Other extracutaneous findings associated with GPP include arthralgia, edema, and characteristic psoriatic nail changes.⁴ Fatal complications include acute respiratory distress syndrome, renal dysfunction, cardiovascular shock, and sepsis.^24,25

Histologic Features

Given the potential for the skin manifestations of GPP to mimic other disorders, a skin biopsy is warranted to confirm the diagnosis. Generalized pustular psoriasis is histologically characterized by the presence of subcorneal macropustules (ie, spongiform pustules of Kogoj) formed by neutrophil infiltration into the spongelike network of the epidermis.⁶ Otherwise, the architecture of the epithelium in GPP is similar to that seen with plaque psoriasis, with parakeratosis, acanthosis, rete-ridge elongation, diminished stratum granulosum, and thinning of the suprapapillary epidermis, though the inflammatory cell infiltrate and edema are markedly more severe in GPP than plaque psoriasis.^3,4

Differential Diagnosis

There are many other cutaneous pustular diagnoses that must be ruled out when evaluating a patient with GPP (Table 1).²⁶ Acute generalized exanthematous pustulosis (AGEP) is a common mimicker of GPP that is differentiated histologically by the presence of eosinophils and necrotic keratinocytes.⁴ In addition to its distinct histopathologic findings, AGEP is classically associated with recent initiation of certain medications, most commonly penicillins, macrolides, quinolones, sulfonamides, terbinafine, and diltiazem.²⁷ In contrast, GPP more commonly is related to withdrawal of corticosteroids as well as initiation of some biologic medications, including anti-TNF agents.³ Generalized pustular psoriasis should be suspected over AGEP in patients with a personal or family history of psoriasis, though GPP may arise in patients with or without a history of psoriasis. Acute generalized exanthematous pustulosis usually is more abrupt in both onset and resolution compared with GPP, with clearance of pustules within a few days to weeks following cessation of the triggering factor.⁴

Other pustular variants of psoriasis (eg, palmoplantar pustular psoriasis, acrodermatitis continua of Hallopeau) are differentiated from GPP by their chronicity and localization to palmoplantar and/or ungual surfaces.⁵ Other differential diagnoses are listed in Table 1.

Diagnostic Criteria for GPP

Diagnostic criteria have been proposed for GPP (Table 2), including (1) the presence of sterile pustules, (2) systemic signs of inflammation, (3) laboratory abnormalities, (4) histopathologic confirmation of spongiform pustules of Kogoj, and (5) recurrence of symptoms.²² To definitively diagnose GPP, all 5 criteria must be met. To rule out mimickers, it may be worthwhile to perform Gram staining, potassium hydroxide preparation, in vitro cultures, and/or immunofluorescence testing.⁶

Treatment

Given the high potential for mortality associated with GPP, the most essential component of management is to ensure adequate supportive care. Any temperature, fluid, or electrolyte imbalances should be corrected as they arise. Secondary infections also must be identified and treated, if present, to reduce the risk for fatal complications, including systemic infection and sepsis. Precautions must be taken to ensure that serious end-organ damage, including hepatic, renal, and respiratory dysfunction, is avoided.

Adjunctive topical intervention often is initiated with bland emollients, corticosteroids, calcineurin inhibitors, and/or vitamin D derivatives to help soothe skin symptoms, but treatment with systemic therapies usually is warranted to achieve symptom control.^2,25 Importantly, there are no systemic or topical agents that have specifically been approved for the treatment of GPP in Europe or the United States.³ Given the absence of universally accepted treatment guidelines, therapeutic agents for GPP usually are selected based on clinical experience while also taking the extent of involvement and disease severity into consideration.³

Treatment Recommendations for Adults

Oral Systemic Agents—Treatment guidelines set forth by the National Psoriasis Foundation (NPF) in 2012 proposed that first-line therapies for GPP should be acitretin, cyclosporine, methotrexate, and infliximab.²⁸ However, since those guidelines were established, many new biologic therapies have been approved for the treatment of psoriasis and often are considered in the treatment of psoriasis subtypes, including GPP.²⁹ Although retinoids previously were considered to be a preferred first-line therapy, they are associated with a high incidence of adverse effects and must be used with caution in women of childbearing age.⁶ Oral acitretin at a dosage of 0.75 to 1.0 mg/kg/d has been shown to result in clinical improvement within 1 to 2 weeks, and a maintenance dosage of 0.125 to 0.25 mg/kg/d is required for several months to prevent recurrence.³⁰ Methotrexate—5.0 to 15.0 mg/wk, or perhaps higher in patients with refractory disease, increased by 2.5-mg intervals until symptoms improve—is recommended by the NPF in patients who are unresponsive or cannot tolerate retinoids, though close monitoring for hematologic abnormalities is required. Cyclosporine 2.5 to 5.0 mg/kg/d is considered an alternative to methotrexate and retinoids; it has a faster onset of action, with improvement reported as early as 2 weeks after initiation of therapy.^1,28 Although cyclosporine may be effective in the acute phase, especially in severe cases of GPP, long-term use of cyclosporine is not recommended because of the potential for renal dysfunction and hypertension.³¹

Biologic Agents—More recent evidence has accumulated supporting the efficacy of anti-TNF agents in the treatment of GPP, suggesting the positioning of these agents as first line. A number of case series have shown dramatic and rapid improvement of GPP with intravenous infliximab 3 to 5 mg/kg, with results observed hours to days after the first infusion.^32-37 Thus, infliximab is recommended as first-line treatment in severe acute cases, though its efficacy as a maintenance therapy has not been sufficiently investigated.⁶ Case reports and case series document the safety and efficacy of adalimumab 40 to 80 mg every 1 to 2 weeks^38,39 and etanercept 25 to 50 mg twice weekly^40-42 in patients with recalcitrantGPP. Therefore, these anti-TNF agents may be considered in patients who are nonresponsive to treatment with infliximab.

Rarely, there have been reports of paradoxical induction of GPP with the use of some anti-TNF agents,^43-45 which may be due to a cytokine imbalance characterized by unopposed IFN-α activation.⁶ In patients with a history of GPP after initiation of a biologic, treatment with agents from within the offending class should be avoided.

The IL-17A monoclonal antibodies secukinumab, ixekizumab, and brodalumab have been shown in open-label phase 3 studies to result in disease remission at 12 weeks.^46-48 Treatment with guselkumab, an IL-23 monoclonal antibody, also has demonstrated efficacy in patients with GPP.⁴⁹ Ustekinumab, an IL-12/23 inhibitor, in combination with acitretin also has been shown to be successful in achieving disease remission after a few weeks of treatment.⁵⁰

More recent case reports have shown the efficacy of IL-1 inhibitors including gevokizumab, canakinumab, and anakinra in achieving GPP clearance, though more prospective studies are needed to evaluate their efficacy.^51-53 Given the etiologic association between IL-1 disinhibition and GPP, future investigations of these therapies as well as those that target the IL-36 pathway may prove to be particularly interesting.

Phototherapy and Combination Therapies—Phototherapy may be considered as maintenance therapy after disease control is achieved, though it is not considered appropriate for acute cases.²⁸ Combination therapies with a biologic plus a nonbiologic systemic agent or alternating among various biologics may allow physicians to maximize benefits and minimize adverse effects in the long term, though there is insufficient evidence to suggest any specific combination treatment algorithm for GPP.²⁸

Treatment Recommendations for Pediatric Patients

Based on a small number of case series and case reports, the first-line treatment strategy for children with GPP is similar to adults. Given the notable adverse events of most oral systemic agents, biologic therapies may emerge as first-line therapy in the pediatric population as more evidence accumulates.²⁸

Treatment Recommendations for Pregnant Patients

Systemic corticosteroids are widely considered to be the first-line treatments for the management of impetigo herpetiformis.⁷ Low-dose prednisone (15–30 mg/d) usually is effective, but severe cases may require increasing the dosage to 60 mg/d.⁶ Given the potential for rebound flares upon withdrawal of systemic corticosteroids, these agents must be gradually tapered after the resolution of symptoms.

Certolizumab pegol also is an attractive option in pregnant patients with impetigo herpetiformis because of its favorable safety profile and negligible mother-to-infant transfer through the placenta or breast milk. It has been shown to be effective in treating GPP and impetigo herpetiformis during pregnancy in recently published case reports.^54,55 In refractory cases, other TNF-α inhibitors (eg, adalimumab, infliximab, etanercept) or cyclosporine may be considered. However, cautious medical monitoring is warranted, as little is known about the potential adverse effects of these agents to the mother and fetus.^28,56 Data from transplant recipients along with several case reports indicate that cyclosporine is not associated with an increased risk for adverse effects during pregnancy at a dose of 2 to 3 mg/kg.^57-59 Both methotrexate and retinoids are known teratogens and are therefore contraindicated in pregnant patients.⁵⁶

If pustules do not resolve in the postpartum period, patients should be treated with standard GPP therapies. However, long-term and population studies are lacking regarding the potential for infant exposure to systemic agents in breast milk. Therefore, the NPF recommends avoiding breastfeeding while taking systemic medications, if possible.⁵⁶

Limitations of Treatment Recommendations

The ability to generate an evidence-based treatment strategy for GPP is limited by a lack of high-quality studies investigating the efficacy and safety of treatments in patients with GPP due to the rarity and relapsing-remitting nature of the disease, which makes randomized controlled trials difficult to conduct. The quality of the available research is further limited by the lack of validated outcome measures to specifically assess improvements in patients with GPP, such that results are difficult to synthesize and compare among studies.³¹

Conclusion

Although limited, the available research suggests that treatment with various biologics, especially infliximab, is effective in achieving rapid clearance in patients with GPP. In general, biologics may be the most appropriate treatment option in patients with GPP given their relatively favorable safety profiles. Other oral systemic agents, including acitretin, cyclosporine, and methotrexate, have limited evidence to support their use in the acute phase, but their safety profiles often limit their utility in the long-term. Emerging evidence regarding the association of GPP with IL36RN mutations suggests a unique role for agents targeting the IL-36 or IL-1 pathways, though this has yet to be thoroughly investigated.

Acute generalized pustular psoriasis (GPP) is a rare severe variant of psoriasis characterized by the sudden widespread eruption of sterile pustules.^1,2 The cutaneous manifestations of GPP also may be accompanied by signs of systemic inflammation, including fever, malaise, and leukocytosis.² Complications are common and may be life-threatening, especially in older patients with comorbid diseases.³ Generalized pustular psoriasis most commonly occurs in patients with a preceding history of psoriasis, but it also may occur de novo.⁴ Generalized pustular psoriasis is associated with notable morbidity and mortality, and relapses are common.^3,4 Many triggers of GPP have been identified, including initiation and withdrawal of various medications, infections, pregnancy, and other conditions.^5,6 Although GPP most often occurs in adults, it also may arise in children and infants.³ In pregnancy, GPP is referred to as impetigo herpetiformis, despite having no etiologic ties with either herpes simplex virus or staphylococcal or streptococcal infection. Impetigo herpetiformis is considered one of the most dangerous dermatoses of pregnancy because of high rates of associated maternal and fetal morbidity.^6,7

Acute GPP has proven to be a challenging disease to treat due to the rarity and relapsing-remitting nature of the disease; additionally, there are relatively few randomized controlled trials investigating the efficacy and safety of treatments for GPP. This review summarizes the features of GPP, including the pathophysiology of the disease, clinical and histological manifestations, and recommendations for management based on a PubMed search of articles indexed for MEDLINE using MeSH terms pertaining to the disease, including generalized pustular psoriasis, impetigo herpetiformis, and von Zumbusch psoriasis.

Pathophysiology

The pathophysiology of GPP is only partially understood, but it is thought to have a distinct pattern of immune activation compared with plaque psoriasis.⁸ Although there is a considerable amount of overlap and cross-talk among cytokine pathways, GPP generally is driven by innate immunity and unrestrained IL-36 cytokine activity. In contrast, adaptive immune responses—namely the tumor necrosis factor (TNF) α, IL-23, IL-17, and IL-22 axes—underlie plaque psoriasis.^8-10

Proinflammatory IL-36 cytokines α, β, and γ, which are all part of the IL-1 superfamily, bind to the IL-36 receptor (IL-36R) to recruit and activate immune cells via various mediators, including IL-1β; IL-8; and chemokines CXCL1, CXCL2, and CXCL8.³ The IL-36 receptor antagonist (IL-36ra) acts to inhibit this inflammatory cascade.^3,8 Microarray analyses of skin biopsy samples have shown that overexpression of IL-17A, TNF-α, IL-1, and IL-36 are seen in both GPP and plaque psoriasis lesions, but GPP lesions had higher expression of IL-1β, IL-36α, and IL-36γ and elevated neutrophil chemokines—CXCL1, CXCL2, and CXCL8—compared with plaque psoriasis lesions.⁸

Gene Mutations Associated With GPP

There are 3 gene mutations that have been associated with pustular variants of psoriasis, though these mutations account for a minority of cases of GPP.⁴ Genetic screenings are not routinely indicated in patients with GPP, but they may be warranted in severe cases when a familial pattern of inheritance is suspected.⁴

IL36RN—The gene IL36RN codes the anti-inflammatory IL-36ra. Loss-of-function mutations in IL36RN lead to impairment of IL-36ra and consequently hyperactivity of the proinflammatory responses triggered by IL-36.³ Homozygous and heterozygous mutations in IL36RN have been observed in both familial and sporadic cases of GPP.^11-13 Subsequent retrospective analyses have identified the presence of IL36RN mutations in patients with GPP with frequencies ranging from 23% to 37%.^14-17IL36RN mutations are thought to be more common in patients without concomitant plaque psoriasis and have been associated with severe disease and early disease onset.¹⁵

CARD14—A gain-of-function mutation in CARD14 results in overactivation of the proinflammatory nuclear factor κB pathway and has been implicated in cases of GPP with concurrent psoriasis vulgaris. Interestingly, this may suggest distinct etiologies underlying GPP de novo and GPP in patients with a history of psoriasis.^18,19

AP1S3—A loss-of-function mutation in AP1S3 results in abnormal endosomal trafficking and autophagy as well as increased expression of IL-36α.^20,21

Clinical Presentation and DiagnosisCutaneous Manifestations of GPP

Generalized pustular psoriasis is characterized by the onset of widespread 2- to 3-mm sterile pustules on erythematous skin or within psoriasiform plaques⁴ (Figure). In patients with skin of color, the erythema may appear less obvious or perhaps slightly violaceous compared to White skin. Pustules may coalesce to form “lakes” of pus.⁵ Cutaneous symptoms include pain, burning, and pruritus. Associated mucosal findings may include cheilitis, geographic tongue, conjunctivitis, and uveitis.⁴

The severity of symptoms can vary greatly among patients as well as between flares within the same patient.^2,3 Four distinct patterns of GPP have been described. The von Zumbusch pattern is characterized by a rapid, generalized, painful, erythematous and pustular eruption accompanied by fever and asthenia. The pustules usually resolve after several days with extensive scaling. The annular pattern is characterized by annular, erythematous, scaly lesions with pustules present centrifugally. The lesions enlarge by centrifugal expansion over a period of hours to days, while healing occurs centrally. The exanthematic type is an acute eruption of small pustules that abruptly appear and disappear within a few days, usually from infection or medication initiation. Sometimes pustules appear within or at the edge of existing psoriatic plaques in a localized pattern—the fourth pattern—often following the exposure to irritants (eg, tars, anthralin).⁵

Impetigo Herpetiformis—Impetigo herpetiformis is a form of GPP associated with pregnancy. It generally presents early in the third trimester with symmetric erythematous plaques in flexural and intertriginous areas with pustules present at lesion margins. Lesions expand centrifugally, with pustulation present at the advancing edge.^6,7 Patients often are acutely ill with fever, delirium, vomiting, and tetany. Mucous membranes, including the tongue, mouth, and esophagus, also may be involved. The eruption typically resolves after delivery, though it often recurs with subsequent pregnancies, with the morbidity risk rising with each successive pregnancy.⁷

Systemic and Extracutaneous Manifestations of GPP

Although the severity of GPP is highly variable, skin manifestations often are accompanied by systemic manifestations of inflammation, including fever and malaise. Common laboratory abnormalities include leukocytosis with peripheral neutrophilia, a high serum C-reactive protein level, hypocalcemia, and hypoalbuminemia.²² Abnormal liver enzymes often are present and result from neutrophilic cholangitis, with alternating strictures and dilations of biliary ducts observed on magnetic resonance imaging.²³ Additional laboratory abnormalities are provided in Table 2. Other extracutaneous findings associated with GPP include arthralgia, edema, and characteristic psoriatic nail changes.⁴ Fatal complications include acute respiratory distress syndrome, renal dysfunction, cardiovascular shock, and sepsis.^24,25

Histologic Features

Given the potential for the skin manifestations of GPP to mimic other disorders, a skin biopsy is warranted to confirm the diagnosis. Generalized pustular psoriasis is histologically characterized by the presence of subcorneal macropustules (ie, spongiform pustules of Kogoj) formed by neutrophil infiltration into the spongelike network of the epidermis.⁶ Otherwise, the architecture of the epithelium in GPP is similar to that seen with plaque psoriasis, with parakeratosis, acanthosis, rete-ridge elongation, diminished stratum granulosum, and thinning of the suprapapillary epidermis, though the inflammatory cell infiltrate and edema are markedly more severe in GPP than plaque psoriasis.^3,4

Differential Diagnosis

There are many other cutaneous pustular diagnoses that must be ruled out when evaluating a patient with GPP (Table 1).²⁶ Acute generalized exanthematous pustulosis (AGEP) is a common mimicker of GPP that is differentiated histologically by the presence of eosinophils and necrotic keratinocytes.⁴ In addition to its distinct histopathologic findings, AGEP is classically associated with recent initiation of certain medications, most commonly penicillins, macrolides, quinolones, sulfonamides, terbinafine, and diltiazem.²⁷ In contrast, GPP more commonly is related to withdrawal of corticosteroids as well as initiation of some biologic medications, including anti-TNF agents.³ Generalized pustular psoriasis should be suspected over AGEP in patients with a personal or family history of psoriasis, though GPP may arise in patients with or without a history of psoriasis. Acute generalized exanthematous pustulosis usually is more abrupt in both onset and resolution compared with GPP, with clearance of pustules within a few days to weeks following cessation of the triggering factor.⁴

Other pustular variants of psoriasis (eg, palmoplantar pustular psoriasis, acrodermatitis continua of Hallopeau) are differentiated from GPP by their chronicity and localization to palmoplantar and/or ungual surfaces.⁵ Other differential diagnoses are listed in Table 1.

Diagnostic Criteria for GPP

Diagnostic criteria have been proposed for GPP (Table 2), including (1) the presence of sterile pustules, (2) systemic signs of inflammation, (3) laboratory abnormalities, (4) histopathologic confirmation of spongiform pustules of Kogoj, and (5) recurrence of symptoms.²² To definitively diagnose GPP, all 5 criteria must be met. To rule out mimickers, it may be worthwhile to perform Gram staining, potassium hydroxide preparation, in vitro cultures, and/or immunofluorescence testing.⁶

Treatment

Given the high potential for mortality associated with GPP, the most essential component of management is to ensure adequate supportive care. Any temperature, fluid, or electrolyte imbalances should be corrected as they arise. Secondary infections also must be identified and treated, if present, to reduce the risk for fatal complications, including systemic infection and sepsis. Precautions must be taken to ensure that serious end-organ damage, including hepatic, renal, and respiratory dysfunction, is avoided.

Adjunctive topical intervention often is initiated with bland emollients, corticosteroids, calcineurin inhibitors, and/or vitamin D derivatives to help soothe skin symptoms, but treatment with systemic therapies usually is warranted to achieve symptom control.^2,25 Importantly, there are no systemic or topical agents that have specifically been approved for the treatment of GPP in Europe or the United States.³ Given the absence of universally accepted treatment guidelines, therapeutic agents for GPP usually are selected based on clinical experience while also taking the extent of involvement and disease severity into consideration.³

Treatment Recommendations for Adults

Oral Systemic Agents—Treatment guidelines set forth by the National Psoriasis Foundation (NPF) in 2012 proposed that first-line therapies for GPP should be acitretin, cyclosporine, methotrexate, and infliximab.²⁸ However, since those guidelines were established, many new biologic therapies have been approved for the treatment of psoriasis and often are considered in the treatment of psoriasis subtypes, including GPP.²⁹ Although retinoids previously were considered to be a preferred first-line therapy, they are associated with a high incidence of adverse effects and must be used with caution in women of childbearing age.⁶ Oral acitretin at a dosage of 0.75 to 1.0 mg/kg/d has been shown to result in clinical improvement within 1 to 2 weeks, and a maintenance dosage of 0.125 to 0.25 mg/kg/d is required for several months to prevent recurrence.³⁰ Methotrexate—5.0 to 15.0 mg/wk, or perhaps higher in patients with refractory disease, increased by 2.5-mg intervals until symptoms improve—is recommended by the NPF in patients who are unresponsive or cannot tolerate retinoids, though close monitoring for hematologic abnormalities is required. Cyclosporine 2.5 to 5.0 mg/kg/d is considered an alternative to methotrexate and retinoids; it has a faster onset of action, with improvement reported as early as 2 weeks after initiation of therapy.^1,28 Although cyclosporine may be effective in the acute phase, especially in severe cases of GPP, long-term use of cyclosporine is not recommended because of the potential for renal dysfunction and hypertension.³¹

Biologic Agents—More recent evidence has accumulated supporting the efficacy of anti-TNF agents in the treatment of GPP, suggesting the positioning of these agents as first line. A number of case series have shown dramatic and rapid improvement of GPP with intravenous infliximab 3 to 5 mg/kg, with results observed hours to days after the first infusion.^32-37 Thus, infliximab is recommended as first-line treatment in severe acute cases, though its efficacy as a maintenance therapy has not been sufficiently investigated.⁶ Case reports and case series document the safety and efficacy of adalimumab 40 to 80 mg every 1 to 2 weeks^38,39 and etanercept 25 to 50 mg twice weekly^40-42 in patients with recalcitrantGPP. Therefore, these anti-TNF agents may be considered in patients who are nonresponsive to treatment with infliximab.

Rarely, there have been reports of paradoxical induction of GPP with the use of some anti-TNF agents,^43-45 which may be due to a cytokine imbalance characterized by unopposed IFN-α activation.⁶ In patients with a history of GPP after initiation of a biologic, treatment with agents from within the offending class should be avoided.

The IL-17A monoclonal antibodies secukinumab, ixekizumab, and brodalumab have been shown in open-label phase 3 studies to result in disease remission at 12 weeks.^46-48 Treatment with guselkumab, an IL-23 monoclonal antibody, also has demonstrated efficacy in patients with GPP.⁴⁹ Ustekinumab, an IL-12/23 inhibitor, in combination with acitretin also has been shown to be successful in achieving disease remission after a few weeks of treatment.⁵⁰

More recent case reports have shown the efficacy of IL-1 inhibitors including gevokizumab, canakinumab, and anakinra in achieving GPP clearance, though more prospective studies are needed to evaluate their efficacy.^51-53 Given the etiologic association between IL-1 disinhibition and GPP, future investigations of these therapies as well as those that target the IL-36 pathway may prove to be particularly interesting.

Phototherapy and Combination Therapies—Phototherapy may be considered as maintenance therapy after disease control is achieved, though it is not considered appropriate for acute cases.²⁸ Combination therapies with a biologic plus a nonbiologic systemic agent or alternating among various biologics may allow physicians to maximize benefits and minimize adverse effects in the long term, though there is insufficient evidence to suggest any specific combination treatment algorithm for GPP.²⁸

Treatment Recommendations for Pediatric Patients

Based on a small number of case series and case reports, the first-line treatment strategy for children with GPP is similar to adults. Given the notable adverse events of most oral systemic agents, biologic therapies may emerge as first-line therapy in the pediatric population as more evidence accumulates.²⁸

Treatment Recommendations for Pregnant Patients

Systemic corticosteroids are widely considered to be the first-line treatments for the management of impetigo herpetiformis.⁷ Low-dose prednisone (15–30 mg/d) usually is effective, but severe cases may require increasing the dosage to 60 mg/d.⁶ Given the potential for rebound flares upon withdrawal of systemic corticosteroids, these agents must be gradually tapered after the resolution of symptoms.

Certolizumab pegol also is an attractive option in pregnant patients with impetigo herpetiformis because of its favorable safety profile and negligible mother-to-infant transfer through the placenta or breast milk. It has been shown to be effective in treating GPP and impetigo herpetiformis during pregnancy in recently published case reports.^54,55 In refractory cases, other TNF-α inhibitors (eg, adalimumab, infliximab, etanercept) or cyclosporine may be considered. However, cautious medical monitoring is warranted, as little is known about the potential adverse effects of these agents to the mother and fetus.^28,56 Data from transplant recipients along with several case reports indicate that cyclosporine is not associated with an increased risk for adverse effects during pregnancy at a dose of 2 to 3 mg/kg.^57-59 Both methotrexate and retinoids are known teratogens and are therefore contraindicated in pregnant patients.⁵⁶

If pustules do not resolve in the postpartum period, patients should be treated with standard GPP therapies. However, long-term and population studies are lacking regarding the potential for infant exposure to systemic agents in breast milk. Therefore, the NPF recommends avoiding breastfeeding while taking systemic medications, if possible.⁵⁶

Limitations of Treatment Recommendations

The ability to generate an evidence-based treatment strategy for GPP is limited by a lack of high-quality studies investigating the efficacy and safety of treatments in patients with GPP due to the rarity and relapsing-remitting nature of the disease, which makes randomized controlled trials difficult to conduct. The quality of the available research is further limited by the lack of validated outcome measures to specifically assess improvements in patients with GPP, such that results are difficult to synthesize and compare among studies.³¹

Conclusion

Although limited, the available research suggests that treatment with various biologics, especially infliximab, is effective in achieving rapid clearance in patients with GPP. In general, biologics may be the most appropriate treatment option in patients with GPP given their relatively favorable safety profiles. Other oral systemic agents, including acitretin, cyclosporine, and methotrexate, have limited evidence to support their use in the acute phase, but their safety profiles often limit their utility in the long-term. Emerging evidence regarding the association of GPP with IL36RN mutations suggests a unique role for agents targeting the IL-36 or IL-1 pathways, though this has yet to be thoroughly investigated.

To the Editor:

Psoriasis affects 2% to 3% of the US population and is one of the more commonly diagnosed dermatologic conditions.^1-3 Experts agree that common cutaneous diseases such as psoriasis present differently in patients with skin of color (SOC) compared to non-SOC patients.^3,4 Despite the prevalence of psoriasis, data on these morphologic differences are limited.^3-5 We performed a retrospective chart review comparing characteristics of psoriasis in SOC and non-SOC patients.

Through a search of electronic health records, we identified patients with an International Classification of Diseases, 10th Revision, diagnosis of psoriasis who were 18 years or older and were evaluated in the dermatology department between August 2015 and June 2020 at University Medical Center, an academic institution in New Orleans, Louisiana. Photographs and descriptions of lesions from these patients were reviewed. Patient data collected included age, sex, psoriasis classification, insurance status, self-identified race and ethnicity, location of lesion(s), biopsy, final diagnosis, and average number of visits or days required for accurate diagnosis. Self-identified SOC race and ethnicity categories included Black or African American, Hispanic, Asian, American Indian and Alaskan Native, Native Hawaiian and Other Pacific Islander, and “other.”

All analyses were conducted using R-4.0.1 statistics software. Categorical variables were compared in SOC and non-SOC groups using Fisher exact tests. Continuous covariates were conducted using a Wilcoxon rank sum test.

In total, we reviewed 557 charts. Four patients who declined to identify their race or ethnicity were excluded, yielding 286 SOC and 267 non-SOC patients (N=553). A total of 276 patients (131 SOC; 145 non-SOC) with a prior diagnosis of psoriasis were excluded in the days to diagnosis analysis. Twenty patients (15, SOC; 5, non-SOC) were given a diagnosis of a disease other than psoriasis when evaluated in the dermatology department.

Distributions between racial groups differed for insurance status, sex, psoriasis classification, biopsy status, and days between first dermatology visit and diagnosis. Skin of color patients had significantly longer days between initial presentation to dermatology and final diagnosis vs non-SOC patients (180.11 and 60.27 days, respectively; P=.001). Skin of color patients had a higher rate of palmoplantar psoriasis and severe plaque psoriasis (ie, >10% body surface area involvement) at presentation.

Several multivariable regression analyses were performed. Skin of color patients had significantly higher odds of biopsy compared to non-SOC patients (adjusted odds ratio [95% CI]=4 [2.05-7.82]; P<.001)(Figure 1). There were no significant predictors for severe plaque psoriasis involving more than 10% body surface area. Skin of color patients had a significantly longer time to diagnosis than non-SOC patients (P=.006)(Figure 2). On average, patients with SOC waited 3.23 times longer for a diagnosis than their non-SOC counterparts (95% CI, 1.42-7.36).

Our data reveal striking racial disparities in psoriasis care. Worse outcomes for patients with SOC compared to non-SOC patients may result from physicians’ inadequate familiarity with diverse presentations of psoriasis, including more frequent involvement of special body sites in SOC. Other likely contributing factors that we did not evaluate include socioeconomic barriers to health care, lack of physician diversity, missed appointments, and a paucity of literature on the topic of differentiating morphologies of psoriasis in SOC and non-SOC patients. Our study did not examine the effects of sex, tobacco use, or prior or current therapy, and it excluded pediatric patients.

To improve dermatologic outcomes for our increasingly diverse patient population, more studies must be undertaken to elucidate and document disparities in care for SOC populations.

To the Editor:

Psoriasis affects 2% to 3% of the US population and is one of the more commonly diagnosed dermatologic conditions.^1-3 Experts agree that common cutaneous diseases such as psoriasis present differently in patients with skin of color (SOC) compared to non-SOC patients.^3,4 Despite the prevalence of psoriasis, data on these morphologic differences are limited.^3-5 We performed a retrospective chart review comparing characteristics of psoriasis in SOC and non-SOC patients.

Through a search of electronic health records, we identified patients with an International Classification of Diseases, 10th Revision, diagnosis of psoriasis who were 18 years or older and were evaluated in the dermatology department between August 2015 and June 2020 at University Medical Center, an academic institution in New Orleans, Louisiana. Photographs and descriptions of lesions from these patients were reviewed. Patient data collected included age, sex, psoriasis classification, insurance status, self-identified race and ethnicity, location of lesion(s), biopsy, final diagnosis, and average number of visits or days required for accurate diagnosis. Self-identified SOC race and ethnicity categories included Black or African American, Hispanic, Asian, American Indian and Alaskan Native, Native Hawaiian and Other Pacific Islander, and “other.”

All analyses were conducted using R-4.0.1 statistics software. Categorical variables were compared in SOC and non-SOC groups using Fisher exact tests. Continuous covariates were conducted using a Wilcoxon rank sum test.

In total, we reviewed 557 charts. Four patients who declined to identify their race or ethnicity were excluded, yielding 286 SOC and 267 non-SOC patients (N=553). A total of 276 patients (131 SOC; 145 non-SOC) with a prior diagnosis of psoriasis were excluded in the days to diagnosis analysis. Twenty patients (15, SOC; 5, non-SOC) were given a diagnosis of a disease other than psoriasis when evaluated in the dermatology department.

Distributions between racial groups differed for insurance status, sex, psoriasis classification, biopsy status, and days between first dermatology visit and diagnosis. Skin of color patients had significantly longer days between initial presentation to dermatology and final diagnosis vs non-SOC patients (180.11 and 60.27 days, respectively; P=.001). Skin of color patients had a higher rate of palmoplantar psoriasis and severe plaque psoriasis (ie, >10% body surface area involvement) at presentation.

Several multivariable regression analyses were performed. Skin of color patients had significantly higher odds of biopsy compared to non-SOC patients (adjusted odds ratio [95% CI]=4 [2.05-7.82]; P<.001)(Figure 1). There were no significant predictors for severe plaque psoriasis involving more than 10% body surface area. Skin of color patients had a significantly longer time to diagnosis than non-SOC patients (P=.006)(Figure 2). On average, patients with SOC waited 3.23 times longer for a diagnosis than their non-SOC counterparts (95% CI, 1.42-7.36).

Our data reveal striking racial disparities in psoriasis care. Worse outcomes for patients with SOC compared to non-SOC patients may result from physicians’ inadequate familiarity with diverse presentations of psoriasis, including more frequent involvement of special body sites in SOC. Other likely contributing factors that we did not evaluate include socioeconomic barriers to health care, lack of physician diversity, missed appointments, and a paucity of literature on the topic of differentiating morphologies of psoriasis in SOC and non-SOC patients. Our study did not examine the effects of sex, tobacco use, or prior or current therapy, and it excluded pediatric patients.

To improve dermatologic outcomes for our increasingly diverse patient population, more studies must be undertaken to elucidate and document disparities in care for SOC populations.

To the Editor:

Psoriasis affects 2% to 3% of the US population and is one of the more commonly diagnosed dermatologic conditions.^1-3 Experts agree that common cutaneous diseases such as psoriasis present differently in patients with skin of color (SOC) compared to non-SOC patients.^3,4 Despite the prevalence of psoriasis, data on these morphologic differences are limited.^3-5 We performed a retrospective chart review comparing characteristics of psoriasis in SOC and non-SOC patients.

Through a search of electronic health records, we identified patients with an International Classification of Diseases, 10th Revision, diagnosis of psoriasis who were 18 years or older and were evaluated in the dermatology department between August 2015 and June 2020 at University Medical Center, an academic institution in New Orleans, Louisiana. Photographs and descriptions of lesions from these patients were reviewed. Patient data collected included age, sex, psoriasis classification, insurance status, self-identified race and ethnicity, location of lesion(s), biopsy, final diagnosis, and average number of visits or days required for accurate diagnosis. Self-identified SOC race and ethnicity categories included Black or African American, Hispanic, Asian, American Indian and Alaskan Native, Native Hawaiian and Other Pacific Islander, and “other.”

All analyses were conducted using R-4.0.1 statistics software. Categorical variables were compared in SOC and non-SOC groups using Fisher exact tests. Continuous covariates were conducted using a Wilcoxon rank sum test.

In total, we reviewed 557 charts. Four patients who declined to identify their race or ethnicity were excluded, yielding 286 SOC and 267 non-SOC patients (N=553). A total of 276 patients (131 SOC; 145 non-SOC) with a prior diagnosis of psoriasis were excluded in the days to diagnosis analysis. Twenty patients (15, SOC; 5, non-SOC) were given a diagnosis of a disease other than psoriasis when evaluated in the dermatology department.

Distributions between racial groups differed for insurance status, sex, psoriasis classification, biopsy status, and days between first dermatology visit and diagnosis. Skin of color patients had significantly longer days between initial presentation to dermatology and final diagnosis vs non-SOC patients (180.11 and 60.27 days, respectively; P=.001). Skin of color patients had a higher rate of palmoplantar psoriasis and severe plaque psoriasis (ie, >10% body surface area involvement) at presentation.

Several multivariable regression analyses were performed. Skin of color patients had significantly higher odds of biopsy compared to non-SOC patients (adjusted odds ratio [95% CI]=4 [2.05-7.82]; P<.001)(Figure 1). There were no significant predictors for severe plaque psoriasis involving more than 10% body surface area. Skin of color patients had a significantly longer time to diagnosis than non-SOC patients (P=.006)(Figure 2). On average, patients with SOC waited 3.23 times longer for a diagnosis than their non-SOC counterparts (95% CI, 1.42-7.36).

Our data reveal striking racial disparities in psoriasis care. Worse outcomes for patients with SOC compared to non-SOC patients may result from physicians’ inadequate familiarity with diverse presentations of psoriasis, including more frequent involvement of special body sites in SOC. Other likely contributing factors that we did not evaluate include socioeconomic barriers to health care, lack of physician diversity, missed appointments, and a paucity of literature on the topic of differentiating morphologies of psoriasis in SOC and non-SOC patients. Our study did not examine the effects of sex, tobacco use, or prior or current therapy, and it excluded pediatric patients.

To improve dermatologic outcomes for our increasingly diverse patient population, more studies must be undertaken to elucidate and document disparities in care for SOC populations.