Infectious Diseases

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

People taking immunosuppressive drugs benefit significantly from SARS-CoV-2 vaccines approved in the United States to prevent and reduce the severity of COVID-19, according to the first study to quantify the vaccines’ real-world effectiveness in this population.

Researchers’ analysis of the electronic medical records of more than 150,000 people in the University of Michigan’s health care system showed that even after becoming fully vaccinated, immunosuppressed individuals remain at higher risk for COVID-19 than are vaccinated people in the wider population who aren’t receiving immunosuppressive therapy. However, they still derive benefit from vaccination, particularly when bolstered with a booster dose.

BrianAJackson/Thinkstock

The study, published online in Annals of the Rheumatic Diseases, also claims to be the first to show that the Moderna (mRNA-1273) vaccine is as effective as the Pfizer-BioNTech (BNT162b2) vaccine for people taking immunosuppressants.

“Booster doses are effective and important for individuals on immunosuppressants,” corresponding author Lili Zhao, PhD, a research associate professor in biostatistics at the University of Michigan, Ann Arbor, said in an interview. “Previous studies focused mostly on the Pfizer vaccine, whereas our study is the first that also investigates the Moderna vaccine in a large, immunosuppressed population.”

The epidemiologic study included 154,519 fully vaccinated and unvaccinated adults in the Michigan Medicine electronic health record database. Participants were considered fully vaccinated if they were within 2 weeks of having received a second dose of the Pfizer-BioNTech and Moderna vaccines or the single-dose Johnson & Johnson (Ad26.COV2.S) vaccine. The study population included 5,536 immunosuppressed patients; of those, 4,283 were fully vaccinated, and 1,253 were unvaccinated.

The researchers focused on data collected from Jan. 1 to Dec. 7, 2021, so the study doesn’t cover the Omicron variant. “The conclusions for immunosuppressed individuals are likely to remain the same during the Omicron period,” Dr. Zhao said. “We are currently investigating this.” Johnson & Johnson paused production of its vaccine in February.

The researchers found that, among unvaccinated individuals, the immunosuppressed group had about a 40% higher risk of infection than did the immunocompetent patients (hazard ratio, 1.398; 95% confidence interval, 1.068-1.829; P = .0075) but a similar risk of COVID-19 hospitalization (HR, 0.951; 95% CI, 0.435-2.080; P = .9984). For the fully vaccinated, the gap was significantly wider: Immunosuppressed patients had more than double the risk of infection (HR, 2.173; 95% CI, 1.690-2.794; P < .0001) and almost five times the risk of hospitalization (HR, 4.861; 95% CI, 2.238-10.56; P < .0001), compared with immunocompetent patients.

However, among immunosuppressed individuals, the vaccinations significantly lowered risks, compared with not being vaccinated. There was a statistically significant 45% lower risk of infection (HR, 0.550; 95% CI, 0.387-0.781; P = .001) and similarly lower risk of hospitalization that did not reach statistical significance (HR, 0.534; 95% CI, 0.196-1.452; P = .3724).

When those immunosuppressed patients received a booster dose, their protection against COVID-19 improved, compared with their immunosuppressed counterparts who didn’t get a booster, with a 58% lower risk of infection after adjustment for age, gender, race, and Charlson Comorbidity Index (adjusted HR, 0.42; 95% CI, 0.24-0.76; P = .0037). The study included nearly 4 months of data after the Centers for Disease Control and Prevention recommended a booster dose of the Moderna and Pfizer-BioNTech vaccines for immunocompromised individuals in August 2021. Among the immunosuppressed patients, 38.5% had received a booster dose.

There also was no apparent difference in the effectiveness between the Moderna and Pfizer-BioNTech vaccines, with adjusted hazard ratios showing 41%-48% lower risk of infection. Too few individuals in the study were vaccinated with the Johnson & Johnson vaccine to enable a sufficiently powered calculation of its effectiveness.

Other studies reach similar conclusions

The study findings fall into line with other studies of patient populations on immunosuppressants. A retrospective cohort study of Veterans Affairs patients with inflammatory bowel disease who were taking immunosuppressants, published in Gastroenterology, found that full vaccination with either Moderna and Pfizer-BioNTech vaccines was about 80% effective. Another retrospective cohort study of data from the National COVID Cohort Collaborative, published in JAMA Internal Medicine, reported that full vaccination significantly reduced the risk of COVID-19 breakthrough infection regardless of immune status. Immunosuppressed patients in this study had higher rates of breakthrough infections than immunocompetent patients, but the disparities were in line with what Dr. Zhao and the University of Michigan researchers reported.

A review of 23 studies of COVID-19 vaccinations, published in Lancet Global Health, found that immunocompromised people – 1,722 of whom were included in the studies – had lower rates of producing antibodies after two vaccine doses than did immunocompetent people, ranging from 27% to 92%, depending on the nature of their immunocompromised status, compared with 99% for the immunocompetent.
 

Strengths and limitations

One strength of the Michigan study is the quality of data, which were drawn from the Michigan Medicine electronic health record, Dr. Zhao said. “So, we know who received the vaccine and who didn’t. We also have access to data on patient health conditions, such as comorbidities, in addition to demographic variables (age, gender, and race), which were controlled in making fair comparisons between immunosuppressants and immunocompetent groups.”

Alfred Kim, MD, PhD, an assistant professor of internal medicine and rheumatology at Washington University in St. Louis, who was not involved with the study, credited Dr. Zhao and associates for delivering the first data that specifically quantified COVID-19 risk reduction in a large study population. Although he noted that the large sample size and the design reduced the chances of confounding and were strengths, he said in an interview that “lumping” the patients taking immunosuppressive drugs into one group was a weakness of the study.

“Clearly, there are certain medications (B-cell depleters, mycophenolate, for example) that carry the greatest risk of poor antibody responses post vaccination,” he said. “One would have to guess that the greatest risk of breakthrough infections continues to be in those patients taking these high-risk medications.”

Another possible problem, which the authors acknowledged, is spotty SARS-CoV-2 testing of study participants – “a systemic issue,” Dr. Kim noted.

“The easiest and most durable way to reduce the risk of getting COVID-19 is through vaccination, period,” he said. “Now we have infection-rates data from a real-world study cohort to prove this. Furthermore, boosting clearly provides additional benefit to this population.”

The National Institute of Allergy and Infectious Diseases provided funding for the study. Dr. Zhao, Dr. Zhao’s coauthors, and Kim disclosed no relevant financial relationships.

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

People taking immunosuppressive drugs benefit significantly from SARS-CoV-2 vaccines approved in the United States to prevent and reduce the severity of COVID-19, according to the first study to quantify the vaccines’ real-world effectiveness in this population.

Researchers’ analysis of the electronic medical records of more than 150,000 people in the University of Michigan’s health care system showed that even after becoming fully vaccinated, immunosuppressed individuals remain at higher risk for COVID-19 than are vaccinated people in the wider population who aren’t receiving immunosuppressive therapy. However, they still derive benefit from vaccination, particularly when bolstered with a booster dose.

BrianAJackson/Thinkstock

The study, published online in Annals of the Rheumatic Diseases, also claims to be the first to show that the Moderna (mRNA-1273) vaccine is as effective as the Pfizer-BioNTech (BNT162b2) vaccine for people taking immunosuppressants.

“Booster doses are effective and important for individuals on immunosuppressants,” corresponding author Lili Zhao, PhD, a research associate professor in biostatistics at the University of Michigan, Ann Arbor, said in an interview. “Previous studies focused mostly on the Pfizer vaccine, whereas our study is the first that also investigates the Moderna vaccine in a large, immunosuppressed population.”

The epidemiologic study included 154,519 fully vaccinated and unvaccinated adults in the Michigan Medicine electronic health record database. Participants were considered fully vaccinated if they were within 2 weeks of having received a second dose of the Pfizer-BioNTech and Moderna vaccines or the single-dose Johnson & Johnson (Ad26.COV2.S) vaccine. The study population included 5,536 immunosuppressed patients; of those, 4,283 were fully vaccinated, and 1,253 were unvaccinated.

The researchers focused on data collected from Jan. 1 to Dec. 7, 2021, so the study doesn’t cover the Omicron variant. “The conclusions for immunosuppressed individuals are likely to remain the same during the Omicron period,” Dr. Zhao said. “We are currently investigating this.” Johnson & Johnson paused production of its vaccine in February.

The researchers found that, among unvaccinated individuals, the immunosuppressed group had about a 40% higher risk of infection than did the immunocompetent patients (hazard ratio, 1.398; 95% confidence interval, 1.068-1.829; P = .0075) but a similar risk of COVID-19 hospitalization (HR, 0.951; 95% CI, 0.435-2.080; P = .9984). For the fully vaccinated, the gap was significantly wider: Immunosuppressed patients had more than double the risk of infection (HR, 2.173; 95% CI, 1.690-2.794; P < .0001) and almost five times the risk of hospitalization (HR, 4.861; 95% CI, 2.238-10.56; P < .0001), compared with immunocompetent patients.

However, among immunosuppressed individuals, the vaccinations significantly lowered risks, compared with not being vaccinated. There was a statistically significant 45% lower risk of infection (HR, 0.550; 95% CI, 0.387-0.781; P = .001) and similarly lower risk of hospitalization that did not reach statistical significance (HR, 0.534; 95% CI, 0.196-1.452; P = .3724).

When those immunosuppressed patients received a booster dose, their protection against COVID-19 improved, compared with their immunosuppressed counterparts who didn’t get a booster, with a 58% lower risk of infection after adjustment for age, gender, race, and Charlson Comorbidity Index (adjusted HR, 0.42; 95% CI, 0.24-0.76; P = .0037). The study included nearly 4 months of data after the Centers for Disease Control and Prevention recommended a booster dose of the Moderna and Pfizer-BioNTech vaccines for immunocompromised individuals in August 2021. Among the immunosuppressed patients, 38.5% had received a booster dose.

There also was no apparent difference in the effectiveness between the Moderna and Pfizer-BioNTech vaccines, with adjusted hazard ratios showing 41%-48% lower risk of infection. Too few individuals in the study were vaccinated with the Johnson & Johnson vaccine to enable a sufficiently powered calculation of its effectiveness.

Other studies reach similar conclusions

The study findings fall into line with other studies of patient populations on immunosuppressants. A retrospective cohort study of Veterans Affairs patients with inflammatory bowel disease who were taking immunosuppressants, published in Gastroenterology, found that full vaccination with either Moderna and Pfizer-BioNTech vaccines was about 80% effective. Another retrospective cohort study of data from the National COVID Cohort Collaborative, published in JAMA Internal Medicine, reported that full vaccination significantly reduced the risk of COVID-19 breakthrough infection regardless of immune status. Immunosuppressed patients in this study had higher rates of breakthrough infections than immunocompetent patients, but the disparities were in line with what Dr. Zhao and the University of Michigan researchers reported.

A review of 23 studies of COVID-19 vaccinations, published in Lancet Global Health, found that immunocompromised people – 1,722 of whom were included in the studies – had lower rates of producing antibodies after two vaccine doses than did immunocompetent people, ranging from 27% to 92%, depending on the nature of their immunocompromised status, compared with 99% for the immunocompetent.
 

Strengths and limitations

One strength of the Michigan study is the quality of data, which were drawn from the Michigan Medicine electronic health record, Dr. Zhao said. “So, we know who received the vaccine and who didn’t. We also have access to data on patient health conditions, such as comorbidities, in addition to demographic variables (age, gender, and race), which were controlled in making fair comparisons between immunosuppressants and immunocompetent groups.”

Alfred Kim, MD, PhD, an assistant professor of internal medicine and rheumatology at Washington University in St. Louis, who was not involved with the study, credited Dr. Zhao and associates for delivering the first data that specifically quantified COVID-19 risk reduction in a large study population. Although he noted that the large sample size and the design reduced the chances of confounding and were strengths, he said in an interview that “lumping” the patients taking immunosuppressive drugs into one group was a weakness of the study.

“Clearly, there are certain medications (B-cell depleters, mycophenolate, for example) that carry the greatest risk of poor antibody responses post vaccination,” he said. “One would have to guess that the greatest risk of breakthrough infections continues to be in those patients taking these high-risk medications.”

Another possible problem, which the authors acknowledged, is spotty SARS-CoV-2 testing of study participants – “a systemic issue,” Dr. Kim noted.

“The easiest and most durable way to reduce the risk of getting COVID-19 is through vaccination, period,” he said. “Now we have infection-rates data from a real-world study cohort to prove this. Furthermore, boosting clearly provides additional benefit to this population.”

The National Institute of Allergy and Infectious Diseases provided funding for the study. Dr. Zhao, Dr. Zhao’s coauthors, and Kim disclosed no relevant financial relationships.

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

People taking immunosuppressive drugs benefit significantly from SARS-CoV-2 vaccines approved in the United States to prevent and reduce the severity of COVID-19, according to the first study to quantify the vaccines’ real-world effectiveness in this population.

Researchers’ analysis of the electronic medical records of more than 150,000 people in the University of Michigan’s health care system showed that even after becoming fully vaccinated, immunosuppressed individuals remain at higher risk for COVID-19 than are vaccinated people in the wider population who aren’t receiving immunosuppressive therapy. However, they still derive benefit from vaccination, particularly when bolstered with a booster dose.

BrianAJackson/Thinkstock

The study, published online in Annals of the Rheumatic Diseases, also claims to be the first to show that the Moderna (mRNA-1273) vaccine is as effective as the Pfizer-BioNTech (BNT162b2) vaccine for people taking immunosuppressants.

“Booster doses are effective and important for individuals on immunosuppressants,” corresponding author Lili Zhao, PhD, a research associate professor in biostatistics at the University of Michigan, Ann Arbor, said in an interview. “Previous studies focused mostly on the Pfizer vaccine, whereas our study is the first that also investigates the Moderna vaccine in a large, immunosuppressed population.”

The epidemiologic study included 154,519 fully vaccinated and unvaccinated adults in the Michigan Medicine electronic health record database. Participants were considered fully vaccinated if they were within 2 weeks of having received a second dose of the Pfizer-BioNTech and Moderna vaccines or the single-dose Johnson & Johnson (Ad26.COV2.S) vaccine. The study population included 5,536 immunosuppressed patients; of those, 4,283 were fully vaccinated, and 1,253 were unvaccinated.

The researchers focused on data collected from Jan. 1 to Dec. 7, 2021, so the study doesn’t cover the Omicron variant. “The conclusions for immunosuppressed individuals are likely to remain the same during the Omicron period,” Dr. Zhao said. “We are currently investigating this.” Johnson & Johnson paused production of its vaccine in February.

The researchers found that, among unvaccinated individuals, the immunosuppressed group had about a 40% higher risk of infection than did the immunocompetent patients (hazard ratio, 1.398; 95% confidence interval, 1.068-1.829; P = .0075) but a similar risk of COVID-19 hospitalization (HR, 0.951; 95% CI, 0.435-2.080; P = .9984). For the fully vaccinated, the gap was significantly wider: Immunosuppressed patients had more than double the risk of infection (HR, 2.173; 95% CI, 1.690-2.794; P < .0001) and almost five times the risk of hospitalization (HR, 4.861; 95% CI, 2.238-10.56; P < .0001), compared with immunocompetent patients.

However, among immunosuppressed individuals, the vaccinations significantly lowered risks, compared with not being vaccinated. There was a statistically significant 45% lower risk of infection (HR, 0.550; 95% CI, 0.387-0.781; P = .001) and similarly lower risk of hospitalization that did not reach statistical significance (HR, 0.534; 95% CI, 0.196-1.452; P = .3724).

When those immunosuppressed patients received a booster dose, their protection against COVID-19 improved, compared with their immunosuppressed counterparts who didn’t get a booster, with a 58% lower risk of infection after adjustment for age, gender, race, and Charlson Comorbidity Index (adjusted HR, 0.42; 95% CI, 0.24-0.76; P = .0037). The study included nearly 4 months of data after the Centers for Disease Control and Prevention recommended a booster dose of the Moderna and Pfizer-BioNTech vaccines for immunocompromised individuals in August 2021. Among the immunosuppressed patients, 38.5% had received a booster dose.

There also was no apparent difference in the effectiveness between the Moderna and Pfizer-BioNTech vaccines, with adjusted hazard ratios showing 41%-48% lower risk of infection. Too few individuals in the study were vaccinated with the Johnson & Johnson vaccine to enable a sufficiently powered calculation of its effectiveness.

Other studies reach similar conclusions

The study findings fall into line with other studies of patient populations on immunosuppressants. A retrospective cohort study of Veterans Affairs patients with inflammatory bowel disease who were taking immunosuppressants, published in Gastroenterology, found that full vaccination with either Moderna and Pfizer-BioNTech vaccines was about 80% effective. Another retrospective cohort study of data from the National COVID Cohort Collaborative, published in JAMA Internal Medicine, reported that full vaccination significantly reduced the risk of COVID-19 breakthrough infection regardless of immune status. Immunosuppressed patients in this study had higher rates of breakthrough infections than immunocompetent patients, but the disparities were in line with what Dr. Zhao and the University of Michigan researchers reported.

A review of 23 studies of COVID-19 vaccinations, published in Lancet Global Health, found that immunocompromised people – 1,722 of whom were included in the studies – had lower rates of producing antibodies after two vaccine doses than did immunocompetent people, ranging from 27% to 92%, depending on the nature of their immunocompromised status, compared with 99% for the immunocompetent.
 

Strengths and limitations

One strength of the Michigan study is the quality of data, which were drawn from the Michigan Medicine electronic health record, Dr. Zhao said. “So, we know who received the vaccine and who didn’t. We also have access to data on patient health conditions, such as comorbidities, in addition to demographic variables (age, gender, and race), which were controlled in making fair comparisons between immunosuppressants and immunocompetent groups.”

Alfred Kim, MD, PhD, an assistant professor of internal medicine and rheumatology at Washington University in St. Louis, who was not involved with the study, credited Dr. Zhao and associates for delivering the first data that specifically quantified COVID-19 risk reduction in a large study population. Although he noted that the large sample size and the design reduced the chances of confounding and were strengths, he said in an interview that “lumping” the patients taking immunosuppressive drugs into one group was a weakness of the study.

“Clearly, there are certain medications (B-cell depleters, mycophenolate, for example) that carry the greatest risk of poor antibody responses post vaccination,” he said. “One would have to guess that the greatest risk of breakthrough infections continues to be in those patients taking these high-risk medications.”

Another possible problem, which the authors acknowledged, is spotty SARS-CoV-2 testing of study participants – “a systemic issue,” Dr. Kim noted.

“The easiest and most durable way to reduce the risk of getting COVID-19 is through vaccination, period,” he said. “Now we have infection-rates data from a real-world study cohort to prove this. Furthermore, boosting clearly provides additional benefit to this population.”

The National Institute of Allergy and Infectious Diseases provided funding for the study. Dr. Zhao, Dr. Zhao’s coauthors, and Kim disclosed no relevant financial relationships.

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

Owning an outdoor cat as a child is associated with an increased risk of psychotic experiences in adulthood – but only in males, new research suggests.

Investigators found male children who owned cats that went outside had a small, but significantly increased, risk of psychotic experiences in adulthood, compared with their counterparts who had no cat during childhood or who had an indoor cat.

Courtesy McGill University

The suspected culprit is not the cat itself but rather exposure to Toxoplasma gondii, a common parasite carried by rodents and sometimes found in cat feces. The study adds to a growing evidence showing exposure to T. gondii may be a risk factor for schizophrenia and other psychotic disorders.

“These are small pieces of evidence but it’s interesting to consider that there might be combinations of risk factors at play,” lead author Vincent Paquin, MD, psychiatry resident at McGill University, Montreal, said in an interview.

“And even if the magnitude of the risk is small at the individual level,” he added, “cats and Toxoplasma gondii are so present in our society that if we add up all these small potential effects then it becomes a potential public health question.”

The study was published online Jan. 30, 2022, in the Journal of Psychiatric Research.
 

Inconsistent evidence

T. gondii infects about 30% of the human population and is usually transmitted by cats. Most infections are asymptomatic, but T. gondii can cause toxoplasmosis in humans, which has been linked to increased risk of schizophrenia, suicide attempts, and more recently, mild cognitive impairment.

Although some studies show an association between cat ownership and increased risk of mental illness, the research findings have been inconsistent.

“The evidence has been mixed about the association between cat ownership and psychosis expression, so our approach was to consider whether specific factors or combinations of factors could explain this mixed evidence,” Dr. Paquin said.

For the study, 2206 individuals aged 18-40 years completed the Community Assessment of Psychic Experiences (CAPE-42) and a questionnaire to gather information about cat ownership at any time between birth and age 13 and if the cats lived exclusively indoors (nonhunting) or if they were allowed outside (rodent hunting).

Participants were also asked about the number of residential moves between birth and age 15, date and place of birth, lifetime history of head trauma, and tobacco smoking history.

Rodent-hunting cat ownership was associated with higher risk of psychosis in male participants, compared with owning no cat or a nonhunting cat. When the investigators added head trauma and residential moves to rodent-hunting cat ownership, psychosis risk was elevated in both men and women.

Independent of cat ownership, younger age, moving more than three times as a child, a history of head trauma, and being a smoker were all associated with higher psychosis risk.

Courtesy McGill University

The study wasn’t designed to explore potential biological mechanisms to explain the sex differences in psychosis risk seen among rodent-hunting cat owners, but “one possible explanation based on the animal model literature is that the neurobiological effects of parasitic exposure may be greater with male sex,” senior author Suzanne King, PhD, professor of psychiatry at McGill, said in an interview.

The new study is part of a larger, long-term project called EnviroGen, led by Dr. King, examining the environmental and genetic risk factors for schizophrenia.
 

Need for replication

Commenting on the findings, E. Fuller Torrey, MD, who was among the first researchers to identify a link between cat ownership, T. gondii infection, and schizophrenia, said the study is “an interesting addition to the studies of cat ownership in childhood as a risk factor for psychosis.”

Of the approximately 10 published studies on the topic, about half suggest a link between cat ownership and psychosis later in life, said Dr. Torrey, associate director for research at the Stanley Medical Research Institute in Rockville, Md.

“The Canadian study is interesting in that it is the first study that separates exposure to permanently indoor cats from cats that are allowed to go outdoors, and the results were positive only for outdoor cats,” Dr. Torrey said.

The study has limitations, Dr. Torrey added, including its retrospective design and the use of a self-report questionnaire to assess psychotic experiences in adulthood.

Also commenting on findings, James Kirkbride, PhD, professor of psychiatric and social epidemiology, University College London, noted the same limitations.

Dr. Kirkbride is the lead author of a 2017 study that showed no link between cat ownership and serious mental illness that included nearly 5,000 people born in 1991 or 1992 and followed until age 18. In this study, there was no link between psychosis and cat ownership during pregnancy or at ages 4 or 10 years.

“Researchers have long been fascinated with the idea that cat ownership may affect mental health. This paper may have them chasing their own tail,” Dr. Kirkbride said.

“Evidence of any association is limited to certain subgroups without a strong theoretical basis for why this may be the case,” he added. “The retrospective and cross-sectional nature of the survey also raise the possibility that the results are impacted by differential recall bias, as well as the broader issues of chance and unobserved confounding.”

Dr. King noted that recall bias is a limitation the researchers highlighted in their study, but “considering the exposures are relatively objective and factual, we do not believe the potential for recall bias is substantial.”

“Nonetheless, we strongly believe that replication of our results in prospective, population-representative cohorts will be crucial to making firmer conclusions,” he added.

The study was funded by grants from the Quebec Health Research Fund. The study authors and Dr. Kirkbride disclosed no relevant financial relationships.

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

Owning an outdoor cat as a child is associated with an increased risk of psychotic experiences in adulthood – but only in males, new research suggests.

Investigators found male children who owned cats that went outside had a small, but significantly increased, risk of psychotic experiences in adulthood, compared with their counterparts who had no cat during childhood or who had an indoor cat.

Courtesy McGill University

The suspected culprit is not the cat itself but rather exposure to Toxoplasma gondii, a common parasite carried by rodents and sometimes found in cat feces. The study adds to a growing evidence showing exposure to T. gondii may be a risk factor for schizophrenia and other psychotic disorders.

“These are small pieces of evidence but it’s interesting to consider that there might be combinations of risk factors at play,” lead author Vincent Paquin, MD, psychiatry resident at McGill University, Montreal, said in an interview.

“And even if the magnitude of the risk is small at the individual level,” he added, “cats and Toxoplasma gondii are so present in our society that if we add up all these small potential effects then it becomes a potential public health question.”

The study was published online Jan. 30, 2022, in the Journal of Psychiatric Research.
 

Inconsistent evidence

T. gondii infects about 30% of the human population and is usually transmitted by cats. Most infections are asymptomatic, but T. gondii can cause toxoplasmosis in humans, which has been linked to increased risk of schizophrenia, suicide attempts, and more recently, mild cognitive impairment.

Although some studies show an association between cat ownership and increased risk of mental illness, the research findings have been inconsistent.

“The evidence has been mixed about the association between cat ownership and psychosis expression, so our approach was to consider whether specific factors or combinations of factors could explain this mixed evidence,” Dr. Paquin said.

For the study, 2206 individuals aged 18-40 years completed the Community Assessment of Psychic Experiences (CAPE-42) and a questionnaire to gather information about cat ownership at any time between birth and age 13 and if the cats lived exclusively indoors (nonhunting) or if they were allowed outside (rodent hunting).

Participants were also asked about the number of residential moves between birth and age 15, date and place of birth, lifetime history of head trauma, and tobacco smoking history.

Rodent-hunting cat ownership was associated with higher risk of psychosis in male participants, compared with owning no cat or a nonhunting cat. When the investigators added head trauma and residential moves to rodent-hunting cat ownership, psychosis risk was elevated in both men and women.

Independent of cat ownership, younger age, moving more than three times as a child, a history of head trauma, and being a smoker were all associated with higher psychosis risk.

Courtesy McGill University

The study wasn’t designed to explore potential biological mechanisms to explain the sex differences in psychosis risk seen among rodent-hunting cat owners, but “one possible explanation based on the animal model literature is that the neurobiological effects of parasitic exposure may be greater with male sex,” senior author Suzanne King, PhD, professor of psychiatry at McGill, said in an interview.

The new study is part of a larger, long-term project called EnviroGen, led by Dr. King, examining the environmental and genetic risk factors for schizophrenia.
 

Need for replication

Commenting on the findings, E. Fuller Torrey, MD, who was among the first researchers to identify a link between cat ownership, T. gondii infection, and schizophrenia, said the study is “an interesting addition to the studies of cat ownership in childhood as a risk factor for psychosis.”

Of the approximately 10 published studies on the topic, about half suggest a link between cat ownership and psychosis later in life, said Dr. Torrey, associate director for research at the Stanley Medical Research Institute in Rockville, Md.

“The Canadian study is interesting in that it is the first study that separates exposure to permanently indoor cats from cats that are allowed to go outdoors, and the results were positive only for outdoor cats,” Dr. Torrey said.

The study has limitations, Dr. Torrey added, including its retrospective design and the use of a self-report questionnaire to assess psychotic experiences in adulthood.

Also commenting on findings, James Kirkbride, PhD, professor of psychiatric and social epidemiology, University College London, noted the same limitations.

Dr. Kirkbride is the lead author of a 2017 study that showed no link between cat ownership and serious mental illness that included nearly 5,000 people born in 1991 or 1992 and followed until age 18. In this study, there was no link between psychosis and cat ownership during pregnancy or at ages 4 or 10 years.

“Researchers have long been fascinated with the idea that cat ownership may affect mental health. This paper may have them chasing their own tail,” Dr. Kirkbride said.

“Evidence of any association is limited to certain subgroups without a strong theoretical basis for why this may be the case,” he added. “The retrospective and cross-sectional nature of the survey also raise the possibility that the results are impacted by differential recall bias, as well as the broader issues of chance and unobserved confounding.”

Dr. King noted that recall bias is a limitation the researchers highlighted in their study, but “considering the exposures are relatively objective and factual, we do not believe the potential for recall bias is substantial.”

“Nonetheless, we strongly believe that replication of our results in prospective, population-representative cohorts will be crucial to making firmer conclusions,” he added.

The study was funded by grants from the Quebec Health Research Fund. The study authors and Dr. Kirkbride disclosed no relevant financial relationships.

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

Owning an outdoor cat as a child is associated with an increased risk of psychotic experiences in adulthood – but only in males, new research suggests.

Investigators found male children who owned cats that went outside had a small, but significantly increased, risk of psychotic experiences in adulthood, compared with their counterparts who had no cat during childhood or who had an indoor cat.

Courtesy McGill University

The suspected culprit is not the cat itself but rather exposure to Toxoplasma gondii, a common parasite carried by rodents and sometimes found in cat feces. The study adds to a growing evidence showing exposure to T. gondii may be a risk factor for schizophrenia and other psychotic disorders.

“These are small pieces of evidence but it’s interesting to consider that there might be combinations of risk factors at play,” lead author Vincent Paquin, MD, psychiatry resident at McGill University, Montreal, said in an interview.

“And even if the magnitude of the risk is small at the individual level,” he added, “cats and Toxoplasma gondii are so present in our society that if we add up all these small potential effects then it becomes a potential public health question.”

The study was published online Jan. 30, 2022, in the Journal of Psychiatric Research.
 

Inconsistent evidence

T. gondii infects about 30% of the human population and is usually transmitted by cats. Most infections are asymptomatic, but T. gondii can cause toxoplasmosis in humans, which has been linked to increased risk of schizophrenia, suicide attempts, and more recently, mild cognitive impairment.

Although some studies show an association between cat ownership and increased risk of mental illness, the research findings have been inconsistent.

“The evidence has been mixed about the association between cat ownership and psychosis expression, so our approach was to consider whether specific factors or combinations of factors could explain this mixed evidence,” Dr. Paquin said.

For the study, 2206 individuals aged 18-40 years completed the Community Assessment of Psychic Experiences (CAPE-42) and a questionnaire to gather information about cat ownership at any time between birth and age 13 and if the cats lived exclusively indoors (nonhunting) or if they were allowed outside (rodent hunting).

Participants were also asked about the number of residential moves between birth and age 15, date and place of birth, lifetime history of head trauma, and tobacco smoking history.

Rodent-hunting cat ownership was associated with higher risk of psychosis in male participants, compared with owning no cat or a nonhunting cat. When the investigators added head trauma and residential moves to rodent-hunting cat ownership, psychosis risk was elevated in both men and women.

Independent of cat ownership, younger age, moving more than three times as a child, a history of head trauma, and being a smoker were all associated with higher psychosis risk.

Courtesy McGill University

The study wasn’t designed to explore potential biological mechanisms to explain the sex differences in psychosis risk seen among rodent-hunting cat owners, but “one possible explanation based on the animal model literature is that the neurobiological effects of parasitic exposure may be greater with male sex,” senior author Suzanne King, PhD, professor of psychiatry at McGill, said in an interview.

The new study is part of a larger, long-term project called EnviroGen, led by Dr. King, examining the environmental and genetic risk factors for schizophrenia.
 

Need for replication

Commenting on the findings, E. Fuller Torrey, MD, who was among the first researchers to identify a link between cat ownership, T. gondii infection, and schizophrenia, said the study is “an interesting addition to the studies of cat ownership in childhood as a risk factor for psychosis.”

Of the approximately 10 published studies on the topic, about half suggest a link between cat ownership and psychosis later in life, said Dr. Torrey, associate director for research at the Stanley Medical Research Institute in Rockville, Md.

“The Canadian study is interesting in that it is the first study that separates exposure to permanently indoor cats from cats that are allowed to go outdoors, and the results were positive only for outdoor cats,” Dr. Torrey said.

The study has limitations, Dr. Torrey added, including its retrospective design and the use of a self-report questionnaire to assess psychotic experiences in adulthood.

Also commenting on findings, James Kirkbride, PhD, professor of psychiatric and social epidemiology, University College London, noted the same limitations.

Dr. Kirkbride is the lead author of a 2017 study that showed no link between cat ownership and serious mental illness that included nearly 5,000 people born in 1991 or 1992 and followed until age 18. In this study, there was no link between psychosis and cat ownership during pregnancy or at ages 4 or 10 years.

“Researchers have long been fascinated with the idea that cat ownership may affect mental health. This paper may have them chasing their own tail,” Dr. Kirkbride said.

“Evidence of any association is limited to certain subgroups without a strong theoretical basis for why this may be the case,” he added. “The retrospective and cross-sectional nature of the survey also raise the possibility that the results are impacted by differential recall bias, as well as the broader issues of chance and unobserved confounding.”

Dr. King noted that recall bias is a limitation the researchers highlighted in their study, but “considering the exposures are relatively objective and factual, we do not believe the potential for recall bias is substantial.”

“Nonetheless, we strongly believe that replication of our results in prospective, population-representative cohorts will be crucial to making firmer conclusions,” he added.

The study was funded by grants from the Quebec Health Research Fund. The study authors and Dr. Kirkbride disclosed no relevant financial relationships.

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

There’s mixed news from Pfizer on results from their CLOVER trial (CLOstridium difficile Vaccine Efficacy TRial), a phase 3 study involving 17,500 adults aged 50 and older that evaluated their candidate vaccine (PF-06425090) against Clostridioides difficile (C. diff) for the prevention of C. diff. infection (CDI).

The bad news is that the trial didn’t meet its efficacy endpoint – the prevention of primary CDI. According to a Pfizer press release, “Vaccine efficacy under the primary endpoint was 31% (96.4%, confidence interval -38.7, 66.6) following the third dose and 28.6% (96.4%, CI -28.4, 61.0) following the second dose. For all CDI cases recorded at 14 days post dose 3, vaccine efficacy was 49%, 47%, and 31% up to 12 months, 24 months, and at final analysis, respectively.”

gaetan stoffel/gettyimages

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

There’s mixed news from Pfizer on results from their CLOVER trial (CLOstridium difficile Vaccine Efficacy TRial), a phase 3 study involving 17,500 adults aged 50 and older that evaluated their candidate vaccine (PF-06425090) against Clostridioides difficile (C. diff) for the prevention of C. diff. infection (CDI).

The bad news is that the trial didn’t meet its efficacy endpoint – the prevention of primary CDI. According to a Pfizer press release, “Vaccine efficacy under the primary endpoint was 31% (96.4%, confidence interval -38.7, 66.6) following the third dose and 28.6% (96.4%, CI -28.4, 61.0) following the second dose. For all CDI cases recorded at 14 days post dose 3, vaccine efficacy was 49%, 47%, and 31% up to 12 months, 24 months, and at final analysis, respectively.”

gaetan stoffel/gettyimages

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

There’s mixed news from Pfizer on results from their CLOVER trial (CLOstridium difficile Vaccine Efficacy TRial), a phase 3 study involving 17,500 adults aged 50 and older that evaluated their candidate vaccine (PF-06425090) against Clostridioides difficile (C. diff) for the prevention of C. diff. infection (CDI).

The bad news is that the trial didn’t meet its efficacy endpoint – the prevention of primary CDI. According to a Pfizer press release, “Vaccine efficacy under the primary endpoint was 31% (96.4%, confidence interval -38.7, 66.6) following the third dose and 28.6% (96.4%, CI -28.4, 61.0) following the second dose. For all CDI cases recorded at 14 days post dose 3, vaccine efficacy was 49%, 47%, and 31% up to 12 months, 24 months, and at final analysis, respectively.”

gaetan stoffel/gettyimages

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

Pseudomonas aeruginosa persisted in the airways of patients with chronic obstructive pulmonary disease (COPD), based on data from 23 patients over a 1-year period.

P. aeruginosa is cultured in as many as 20% of bacterial exacerbations and has been linked to increased morbidity and mortality in patients with COPD, wrote Josefin Eklöf, MD, of the University of Copenhagen and colleagues. However, its patterns and characteristics have not been well studied, and researchers proposed that P. aerunginosa persists in COPD patients in part because of genetic adaptations in the genes related to antibiotic resistance.

In a study published in Clinical Microbiology and Infection, the researchers identified 23 consecutive patients enrolled in an ongoing randomized clinical trial at four sites in Denmark between Jan. 2018 and Jan. 2020. Participants were randomized 1:1 to targeted antipseudomonal antibiotic treatment for 14 days (between visit day 1 and visit day 14) or no antipseudomonal treatment. Sputum samples were collected at baseline on day 1 and on days 14, 30, 60, 90, and 365.

The researchers sequenced isolates from 23 adult patients over 365 days of follow-up. The recurrence of P. aeruginosa occurred in 19 patients (83%) during this period. Ultimately, a total of 153 isolates were analyzed. The researchers found that each patient carried their own unique lineage, with the except of one patient in whom two distinct lineages were identified.

“Independent mutation of the same gene across multiple lineages may be the result of positive selection of adaptive mutations,” Dr. Eklöf and colleagues wrote. They found 38 genes for P. aeruginosa that were mutated in at least two lineages, which suggested adaptive mutations. Some of the more frequently mutated genes were those important to antibiotic resistance and chronic infections, the researchers said. Specifically, mutations occurred in 40 of 140 pathoadaptive genes, compared with 265 of 5,572 other genes (P < .001). In addition, the 24 total lineages carried 4-6 antibiotic resistance genes, and no evidence suggested that lineages acquired or lost these genes during carriage.

Overall, the results indicate that the recurrence of P. aeruginosa was caused by persistence of the same clonal lineage in each patient. “This pattern of persistence was associated with genetic adaptation related to phenotypes considered important for P. aeruginosa infections,” the researchers said.

The study findings were limited by the relatively small number of samples and isolates per sample, the follow-up of only 1 year, and the inability to account for mutations in the early stage because few patients were naive to P. aeruginosa at the start of the study, the researchers noted. However, the results were strengthened by the relatively large and well-defined study population and high rate of sampling compliance, they said.

Overall, “the findings warrant research to improve therapy, including trial data on possible clinical benefits of attempting antibiotic eradication of P. aeruginosa in this vulnerable group of patients,” they concluded.

The study was supported by the Independent Research Fund Denmark and the Research committee at Copenhagen University Hospital-Herlev and Gentofte Hospital. The researchers had no financial conflicts to disclose.

Pseudomonas aeruginosa persisted in the airways of patients with chronic obstructive pulmonary disease (COPD), based on data from 23 patients over a 1-year period.

P. aeruginosa is cultured in as many as 20% of bacterial exacerbations and has been linked to increased morbidity and mortality in patients with COPD, wrote Josefin Eklöf, MD, of the University of Copenhagen and colleagues. However, its patterns and characteristics have not been well studied, and researchers proposed that P. aerunginosa persists in COPD patients in part because of genetic adaptations in the genes related to antibiotic resistance.

In a study published in Clinical Microbiology and Infection, the researchers identified 23 consecutive patients enrolled in an ongoing randomized clinical trial at four sites in Denmark between Jan. 2018 and Jan. 2020. Participants were randomized 1:1 to targeted antipseudomonal antibiotic treatment for 14 days (between visit day 1 and visit day 14) or no antipseudomonal treatment. Sputum samples were collected at baseline on day 1 and on days 14, 30, 60, 90, and 365.

The researchers sequenced isolates from 23 adult patients over 365 days of follow-up. The recurrence of P. aeruginosa occurred in 19 patients (83%) during this period. Ultimately, a total of 153 isolates were analyzed. The researchers found that each patient carried their own unique lineage, with the except of one patient in whom two distinct lineages were identified.

“Independent mutation of the same gene across multiple lineages may be the result of positive selection of adaptive mutations,” Dr. Eklöf and colleagues wrote. They found 38 genes for P. aeruginosa that were mutated in at least two lineages, which suggested adaptive mutations. Some of the more frequently mutated genes were those important to antibiotic resistance and chronic infections, the researchers said. Specifically, mutations occurred in 40 of 140 pathoadaptive genes, compared with 265 of 5,572 other genes (P < .001). In addition, the 24 total lineages carried 4-6 antibiotic resistance genes, and no evidence suggested that lineages acquired or lost these genes during carriage.

Overall, the results indicate that the recurrence of P. aeruginosa was caused by persistence of the same clonal lineage in each patient. “This pattern of persistence was associated with genetic adaptation related to phenotypes considered important for P. aeruginosa infections,” the researchers said.

The study findings were limited by the relatively small number of samples and isolates per sample, the follow-up of only 1 year, and the inability to account for mutations in the early stage because few patients were naive to P. aeruginosa at the start of the study, the researchers noted. However, the results were strengthened by the relatively large and well-defined study population and high rate of sampling compliance, they said.

Overall, “the findings warrant research to improve therapy, including trial data on possible clinical benefits of attempting antibiotic eradication of P. aeruginosa in this vulnerable group of patients,” they concluded.

The study was supported by the Independent Research Fund Denmark and the Research committee at Copenhagen University Hospital-Herlev and Gentofte Hospital. The researchers had no financial conflicts to disclose.

Pseudomonas aeruginosa persisted in the airways of patients with chronic obstructive pulmonary disease (COPD), based on data from 23 patients over a 1-year period.

P. aeruginosa is cultured in as many as 20% of bacterial exacerbations and has been linked to increased morbidity and mortality in patients with COPD, wrote Josefin Eklöf, MD, of the University of Copenhagen and colleagues. However, its patterns and characteristics have not been well studied, and researchers proposed that P. aerunginosa persists in COPD patients in part because of genetic adaptations in the genes related to antibiotic resistance.

In a study published in Clinical Microbiology and Infection, the researchers identified 23 consecutive patients enrolled in an ongoing randomized clinical trial at four sites in Denmark between Jan. 2018 and Jan. 2020. Participants were randomized 1:1 to targeted antipseudomonal antibiotic treatment for 14 days (between visit day 1 and visit day 14) or no antipseudomonal treatment. Sputum samples were collected at baseline on day 1 and on days 14, 30, 60, 90, and 365.

The researchers sequenced isolates from 23 adult patients over 365 days of follow-up. The recurrence of P. aeruginosa occurred in 19 patients (83%) during this period. Ultimately, a total of 153 isolates were analyzed. The researchers found that each patient carried their own unique lineage, with the except of one patient in whom two distinct lineages were identified.

“Independent mutation of the same gene across multiple lineages may be the result of positive selection of adaptive mutations,” Dr. Eklöf and colleagues wrote. They found 38 genes for P. aeruginosa that were mutated in at least two lineages, which suggested adaptive mutations. Some of the more frequently mutated genes were those important to antibiotic resistance and chronic infections, the researchers said. Specifically, mutations occurred in 40 of 140 pathoadaptive genes, compared with 265 of 5,572 other genes (P < .001). In addition, the 24 total lineages carried 4-6 antibiotic resistance genes, and no evidence suggested that lineages acquired or lost these genes during carriage.

Overall, the results indicate that the recurrence of P. aeruginosa was caused by persistence of the same clonal lineage in each patient. “This pattern of persistence was associated with genetic adaptation related to phenotypes considered important for P. aeruginosa infections,” the researchers said.

The study findings were limited by the relatively small number of samples and isolates per sample, the follow-up of only 1 year, and the inability to account for mutations in the early stage because few patients were naive to P. aeruginosa at the start of the study, the researchers noted. However, the results were strengthened by the relatively large and well-defined study population and high rate of sampling compliance, they said.

Overall, “the findings warrant research to improve therapy, including trial data on possible clinical benefits of attempting antibiotic eradication of P. aeruginosa in this vulnerable group of patients,” they concluded.

The study was supported by the Independent Research Fund Denmark and the Research committee at Copenhagen University Hospital-Herlev and Gentofte Hospital. The researchers had no financial conflicts to disclose.

New cases of COVID-19 in children continued their descent toward normalcy, falling below 100,000 in a week for the first time since early August 2021, according to the American Academy of Pediatrics and the Children’s Hospital Association.

The sixth consecutive week of declines saw just under 69,000 U.S. children test positive for COVID-19 from Feb. 25 to March 3, a drop of almost 46% from the previous week and 94% since the Omicron-fueled peak of 1.15 million during the week of Jan. 14-20, the AAP and CHA said in their weekly COVID report. The total number of child cases is 12.7 million since the pandemic began, with children representing 19% of all cases.

New admissions also stayed on a downward path, as the rate dropped to 0.24 per 100,000 children aged 0-17 years on March 5, a decline of nearly 81% since hitting 1.25 per 100,000 on Jan. 15. The latest 7-day average for daily admissions, 178 per day from Feb. 27 to March 5, was 29% lower than the previous week and almost 81% lower than the peak of 914 per day for Jan. 10-16, the Centers for Disease Control and Prevention reported.

The story is the same for emergency department visits with diagnosed COVID-19, which are reported as a percentage of all ED visits. On March 4, the 7-day average for children aged 0-11 years was 0.8%, compared with a high of 13.9% in mid-January, while 12- to 15-year-olds had dropped from 12.4% to 0.5% and 16- to 17-year-olds went from 12.6% down to 0.5%, the CDC said on its COVID Data Tracker.

Florida’s surgeon general says no to the vaccine

Vaccination, in the meantime, is struggling to maintain a foothold against the current of declining cases. Florida Surgeon General Joseph Ladapo said that “the Florida Department of Health is going to be the first state to officially recommend against the COVID-19 vaccines for healthy children,” NBC News reported March 7. With such a move, “Florida would become the first state to break from the CDC on vaccines for children,” CNN said in its report.

Vaccinations among children aged 5-11 years, which hit 1.6 million in 1 week shortly after emergency use was authorized in early November, declined quickly shorty thereafter and only rose slightly during the Omicron surge. Since mid-January, the number of children receiving an initial dose has declined for seven consecutive weeks and is now lower than ever, based on CDC data compiled by the AAP.

Just over one-third of children aged 5-11 have gotten at least one dose of COVID-19 vaccine, while 26.4% are fully vaccinated. Among children aged 12-17, just over two-thirds (67.8%) have received at least one dose, 57.8% have completed the vaccine regimen, and 21.9% have gotten a booster, the CDC reported.

As of March 2, “about 8.4 million children 12-17 have yet to receive their initial COVID-19 vaccine dose,” the AAP said. About 64,000 children aged 12-17 had received their first dose in the previous week, the group noted, which was the second-lowest weekly total since the vaccine was approved for children aged 12-15 in May of 2021.

New cases of COVID-19 in children continued their descent toward normalcy, falling below 100,000 in a week for the first time since early August 2021, according to the American Academy of Pediatrics and the Children’s Hospital Association.

The sixth consecutive week of declines saw just under 69,000 U.S. children test positive for COVID-19 from Feb. 25 to March 3, a drop of almost 46% from the previous week and 94% since the Omicron-fueled peak of 1.15 million during the week of Jan. 14-20, the AAP and CHA said in their weekly COVID report. The total number of child cases is 12.7 million since the pandemic began, with children representing 19% of all cases.

New admissions also stayed on a downward path, as the rate dropped to 0.24 per 100,000 children aged 0-17 years on March 5, a decline of nearly 81% since hitting 1.25 per 100,000 on Jan. 15. The latest 7-day average for daily admissions, 178 per day from Feb. 27 to March 5, was 29% lower than the previous week and almost 81% lower than the peak of 914 per day for Jan. 10-16, the Centers for Disease Control and Prevention reported.

The story is the same for emergency department visits with diagnosed COVID-19, which are reported as a percentage of all ED visits. On March 4, the 7-day average for children aged 0-11 years was 0.8%, compared with a high of 13.9% in mid-January, while 12- to 15-year-olds had dropped from 12.4% to 0.5% and 16- to 17-year-olds went from 12.6% down to 0.5%, the CDC said on its COVID Data Tracker.

Florida’s surgeon general says no to the vaccine

Vaccination, in the meantime, is struggling to maintain a foothold against the current of declining cases. Florida Surgeon General Joseph Ladapo said that “the Florida Department of Health is going to be the first state to officially recommend against the COVID-19 vaccines for healthy children,” NBC News reported March 7. With such a move, “Florida would become the first state to break from the CDC on vaccines for children,” CNN said in its report.

Vaccinations among children aged 5-11 years, which hit 1.6 million in 1 week shortly after emergency use was authorized in early November, declined quickly shorty thereafter and only rose slightly during the Omicron surge. Since mid-January, the number of children receiving an initial dose has declined for seven consecutive weeks and is now lower than ever, based on CDC data compiled by the AAP.

Just over one-third of children aged 5-11 have gotten at least one dose of COVID-19 vaccine, while 26.4% are fully vaccinated. Among children aged 12-17, just over two-thirds (67.8%) have received at least one dose, 57.8% have completed the vaccine regimen, and 21.9% have gotten a booster, the CDC reported.

As of March 2, “about 8.4 million children 12-17 have yet to receive their initial COVID-19 vaccine dose,” the AAP said. About 64,000 children aged 12-17 had received their first dose in the previous week, the group noted, which was the second-lowest weekly total since the vaccine was approved for children aged 12-15 in May of 2021.

New cases of COVID-19 in children continued their descent toward normalcy, falling below 100,000 in a week for the first time since early August 2021, according to the American Academy of Pediatrics and the Children’s Hospital Association.

The sixth consecutive week of declines saw just under 69,000 U.S. children test positive for COVID-19 from Feb. 25 to March 3, a drop of almost 46% from the previous week and 94% since the Omicron-fueled peak of 1.15 million during the week of Jan. 14-20, the AAP and CHA said in their weekly COVID report. The total number of child cases is 12.7 million since the pandemic began, with children representing 19% of all cases.

New admissions also stayed on a downward path, as the rate dropped to 0.24 per 100,000 children aged 0-17 years on March 5, a decline of nearly 81% since hitting 1.25 per 100,000 on Jan. 15. The latest 7-day average for daily admissions, 178 per day from Feb. 27 to March 5, was 29% lower than the previous week and almost 81% lower than the peak of 914 per day for Jan. 10-16, the Centers for Disease Control and Prevention reported.

The story is the same for emergency department visits with diagnosed COVID-19, which are reported as a percentage of all ED visits. On March 4, the 7-day average for children aged 0-11 years was 0.8%, compared with a high of 13.9% in mid-January, while 12- to 15-year-olds had dropped from 12.4% to 0.5% and 16- to 17-year-olds went from 12.6% down to 0.5%, the CDC said on its COVID Data Tracker.

Florida’s surgeon general says no to the vaccine

Vaccination, in the meantime, is struggling to maintain a foothold against the current of declining cases. Florida Surgeon General Joseph Ladapo said that “the Florida Department of Health is going to be the first state to officially recommend against the COVID-19 vaccines for healthy children,” NBC News reported March 7. With such a move, “Florida would become the first state to break from the CDC on vaccines for children,” CNN said in its report.

Vaccinations among children aged 5-11 years, which hit 1.6 million in 1 week shortly after emergency use was authorized in early November, declined quickly shorty thereafter and only rose slightly during the Omicron surge. Since mid-January, the number of children receiving an initial dose has declined for seven consecutive weeks and is now lower than ever, based on CDC data compiled by the AAP.

Just over one-third of children aged 5-11 have gotten at least one dose of COVID-19 vaccine, while 26.4% are fully vaccinated. Among children aged 12-17, just over two-thirds (67.8%) have received at least one dose, 57.8% have completed the vaccine regimen, and 21.9% have gotten a booster, the CDC reported.

As of March 2, “about 8.4 million children 12-17 have yet to receive their initial COVID-19 vaccine dose,” the AAP said. About 64,000 children aged 12-17 had received their first dose in the previous week, the group noted, which was the second-lowest weekly total since the vaccine was approved for children aged 12-15 in May of 2021.

The Food and Drug Administration’s Vaccines and Related Biological Products Advisory Committee has chosen the influenza vaccine strains for the 2022-2023 season in the northern hemisphere, which begins in the fall of 2022.

On March 3, the committee unanimously voted to endorse the World Health Organization’s recommendations as to which influenza strains to include for coverage by vaccines for the upcoming flu season. Two of the four recommended strains are different from last season.

The committee also heard updates on flu activity this season. So far, data from the U.S. Flu Vaccine Effectiveness (VE) network, which consists of seven study sites, have not shown that the vaccine is protective against influenza A. “We can say that it is not highly effective,” Brendan Flannery, PhD, who leads the U.S. Flu VE network for the Centers for Disease Control and Prevention, said in an interview. He was not involved with the advisory committee meeting. Flu activity this season has been low, he explained, so there are fewer cases his team can use to estimate vaccine efficacy. “If there’s some benefit, it’s hard for us to show that now,” he said.
 

Vaccine strains

The panel voted to include a A/Darwin/9/2021-like strain for the H3N2 component of the vaccine; this is changed from A/Cambodia/e0826360/2020. For the influenza B Victoria lineage component, the committee voted to include a B/Austria/1359417/2021-like virus, a swap from this year’s B/Washington/02/2019-like virus. These changes apply to the egg-based, cell-culture, and recombinant vaccines. Both new strains were included in WHO’s 2022 influenza vaccine strain recommendations for the southern hemisphere.

For the influenza A H1N1 component, the group also agreed to include a A/Victoria/2570/2019 (H1N1) pdm09-like virus for the egg-based vaccine and the A/Wisconsin/588/2019 (H1N1) pdm09-like virus for cell culture or recombinant vaccines. These strains were included for the 2021-2022 season. The panel also voted for the inclusion of a B/Phuket/3073/2013-like virus (B/Yamagata lineage) as the second influenza B strain for the quadrivalent egg-based, cell culture, or recombinant vaccines, which is unchanged from this flu season.
 

‘Sporadic’ flu activity

While there was an uptick in influenza activity this year compared to the 2020-2021 season, hospitalization rates are lower than in the four seasons preceding the pandemic (from 2016-2017 to 2019-2020). As of Feb. 26, the cumulative hospitalization rate for this flu season was 5.2 hospitalizations per 100,000 individuals. There have been eight pediatric deaths due to influenza so far this season, compared to one pediatric death reported to the CDC during the 2020-2021 flu season.

About 4.1% of specimens tested at clinical laboratories were positive for flu. Since Oct. 30, 2.7% of specimens have been positive for influenza this season. Nearly all viruses detected (97.7%) have been influenza A.

Lisa Grohskopf, MD, MPH, a medical officer in the influenza division at the CDC who presented the data at the meeting, described flu activity this season as “sporadic” and noted that activity is increasing in some areas of the country. According to CDC’s weekly influenza surveillance report, most states had minimal influenza-like illness (ILI) activity, although Arkansas, Idaho, Iowa, Kansas, Minnesota, and Utah had slightly higher ILI activity as of Feb. 26. Champaign-Urbana, Illinois; St. Cloud, Minnesota; and Brownwood, Texas, had the highest levels of flu activity in the country.
 

Low vaccine effectiveness

As of Jan. 22, results from the U.S. Flu VE network do not show statistically significant evidence that the flu vaccine is effective. Currently, the vaccine is estimated to be 8% effective against preventing influenza A infection (95% confidence interval, –31% to 36%) and 14% effective against preventing A/H3N2 infection (95% CI, –28% to 43%) for people aged 6 months and older.

The network did not have enough data to provide age-specific VE estimates or estimates of effectiveness against influenza B. This could be due to low flu activity relative to prepandemic years, Dr. Flannery said. Of the 2,758 individuals enrolled in the VE flu network this season, just 147 (5%) tested positive for the flu this season. This is the lowest positivity rate observed in the Flu VE network participants with respiratory illness over the past 10 flu seasons, Dr. Grohskopf noted. In comparison, estimates from the 2019 to 2020 season included 4,112 individuals, and 1,060 tested positive for flu.

“We are really at the bare minimum of what we can use for a flu vaccine effectiveness estimate,” Dr. Flannery said about the more recent data. The network was not able to produce any estimates about flu vaccine effectiveness for the 2020-2021 season because of historically low flu activity.

The Department of Defense also presented vaccine efficacy estimates for the 2021–2022 season. The vaccine has been 36% effective (95% CI, 28%-44%) against all strains of the virus, 33% effective against influenza A (95% CI, 24%-41%), 32% effective against A/H3N2 (95% CI, 3%-53%), and 59% effective against influenza B (95% CI, 42%-71%). These results are from a young, healthy adult population, Lieutenant Commander Courtney Gustin, DrPH, MSN, told the panel, and they may not be reflective of efficacy rates across all age groups.

Though these findings suggest there is low to no measurable benefit against influenza A, Dr. Flannery said the CDC still recommends getting the flu vaccine, as it can be protective against other circulating flu strains. “We have been able to demonstrate protection against other H3 [viruses], B viruses, and H1 viruses in the past,” he said. And as these results only show protection against mild disease, “there is still possibility that there’s benefit against more severe disease,” he added. Studies measuring effectiveness against more severe outcomes are not yet available.

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

The Food and Drug Administration’s Vaccines and Related Biological Products Advisory Committee has chosen the influenza vaccine strains for the 2022-2023 season in the northern hemisphere, which begins in the fall of 2022.

On March 3, the committee unanimously voted to endorse the World Health Organization’s recommendations as to which influenza strains to include for coverage by vaccines for the upcoming flu season. Two of the four recommended strains are different from last season.

The committee also heard updates on flu activity this season. So far, data from the U.S. Flu Vaccine Effectiveness (VE) network, which consists of seven study sites, have not shown that the vaccine is protective against influenza A. “We can say that it is not highly effective,” Brendan Flannery, PhD, who leads the U.S. Flu VE network for the Centers for Disease Control and Prevention, said in an interview. He was not involved with the advisory committee meeting. Flu activity this season has been low, he explained, so there are fewer cases his team can use to estimate vaccine efficacy. “If there’s some benefit, it’s hard for us to show that now,” he said.
 

Vaccine strains

The panel voted to include a A/Darwin/9/2021-like strain for the H3N2 component of the vaccine; this is changed from A/Cambodia/e0826360/2020. For the influenza B Victoria lineage component, the committee voted to include a B/Austria/1359417/2021-like virus, a swap from this year’s B/Washington/02/2019-like virus. These changes apply to the egg-based, cell-culture, and recombinant vaccines. Both new strains were included in WHO’s 2022 influenza vaccine strain recommendations for the southern hemisphere.

For the influenza A H1N1 component, the group also agreed to include a A/Victoria/2570/2019 (H1N1) pdm09-like virus for the egg-based vaccine and the A/Wisconsin/588/2019 (H1N1) pdm09-like virus for cell culture or recombinant vaccines. These strains were included for the 2021-2022 season. The panel also voted for the inclusion of a B/Phuket/3073/2013-like virus (B/Yamagata lineage) as the second influenza B strain for the quadrivalent egg-based, cell culture, or recombinant vaccines, which is unchanged from this flu season.
 

‘Sporadic’ flu activity

While there was an uptick in influenza activity this year compared to the 2020-2021 season, hospitalization rates are lower than in the four seasons preceding the pandemic (from 2016-2017 to 2019-2020). As of Feb. 26, the cumulative hospitalization rate for this flu season was 5.2 hospitalizations per 100,000 individuals. There have been eight pediatric deaths due to influenza so far this season, compared to one pediatric death reported to the CDC during the 2020-2021 flu season.

About 4.1% of specimens tested at clinical laboratories were positive for flu. Since Oct. 30, 2.7% of specimens have been positive for influenza this season. Nearly all viruses detected (97.7%) have been influenza A.

Lisa Grohskopf, MD, MPH, a medical officer in the influenza division at the CDC who presented the data at the meeting, described flu activity this season as “sporadic” and noted that activity is increasing in some areas of the country. According to CDC’s weekly influenza surveillance report, most states had minimal influenza-like illness (ILI) activity, although Arkansas, Idaho, Iowa, Kansas, Minnesota, and Utah had slightly higher ILI activity as of Feb. 26. Champaign-Urbana, Illinois; St. Cloud, Minnesota; and Brownwood, Texas, had the highest levels of flu activity in the country.
 

Low vaccine effectiveness

As of Jan. 22, results from the U.S. Flu VE network do not show statistically significant evidence that the flu vaccine is effective. Currently, the vaccine is estimated to be 8% effective against preventing influenza A infection (95% confidence interval, –31% to 36%) and 14% effective against preventing A/H3N2 infection (95% CI, –28% to 43%) for people aged 6 months and older.

The network did not have enough data to provide age-specific VE estimates or estimates of effectiveness against influenza B. This could be due to low flu activity relative to prepandemic years, Dr. Flannery said. Of the 2,758 individuals enrolled in the VE flu network this season, just 147 (5%) tested positive for the flu this season. This is the lowest positivity rate observed in the Flu VE network participants with respiratory illness over the past 10 flu seasons, Dr. Grohskopf noted. In comparison, estimates from the 2019 to 2020 season included 4,112 individuals, and 1,060 tested positive for flu.

“We are really at the bare minimum of what we can use for a flu vaccine effectiveness estimate,” Dr. Flannery said about the more recent data. The network was not able to produce any estimates about flu vaccine effectiveness for the 2020-2021 season because of historically low flu activity.

The Department of Defense also presented vaccine efficacy estimates for the 2021–2022 season. The vaccine has been 36% effective (95% CI, 28%-44%) against all strains of the virus, 33% effective against influenza A (95% CI, 24%-41%), 32% effective against A/H3N2 (95% CI, 3%-53%), and 59% effective against influenza B (95% CI, 42%-71%). These results are from a young, healthy adult population, Lieutenant Commander Courtney Gustin, DrPH, MSN, told the panel, and they may not be reflective of efficacy rates across all age groups.

Though these findings suggest there is low to no measurable benefit against influenza A, Dr. Flannery said the CDC still recommends getting the flu vaccine, as it can be protective against other circulating flu strains. “We have been able to demonstrate protection against other H3 [viruses], B viruses, and H1 viruses in the past,” he said. And as these results only show protection against mild disease, “there is still possibility that there’s benefit against more severe disease,” he added. Studies measuring effectiveness against more severe outcomes are not yet available.

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

The Food and Drug Administration’s Vaccines and Related Biological Products Advisory Committee has chosen the influenza vaccine strains for the 2022-2023 season in the northern hemisphere, which begins in the fall of 2022.

On March 3, the committee unanimously voted to endorse the World Health Organization’s recommendations as to which influenza strains to include for coverage by vaccines for the upcoming flu season. Two of the four recommended strains are different from last season.

The committee also heard updates on flu activity this season. So far, data from the U.S. Flu Vaccine Effectiveness (VE) network, which consists of seven study sites, have not shown that the vaccine is protective against influenza A. “We can say that it is not highly effective,” Brendan Flannery, PhD, who leads the U.S. Flu VE network for the Centers for Disease Control and Prevention, said in an interview. He was not involved with the advisory committee meeting. Flu activity this season has been low, he explained, so there are fewer cases his team can use to estimate vaccine efficacy. “If there’s some benefit, it’s hard for us to show that now,” he said.
 

Vaccine strains

The panel voted to include a A/Darwin/9/2021-like strain for the H3N2 component of the vaccine; this is changed from A/Cambodia/e0826360/2020. For the influenza B Victoria lineage component, the committee voted to include a B/Austria/1359417/2021-like virus, a swap from this year’s B/Washington/02/2019-like virus. These changes apply to the egg-based, cell-culture, and recombinant vaccines. Both new strains were included in WHO’s 2022 influenza vaccine strain recommendations for the southern hemisphere.

For the influenza A H1N1 component, the group also agreed to include a A/Victoria/2570/2019 (H1N1) pdm09-like virus for the egg-based vaccine and the A/Wisconsin/588/2019 (H1N1) pdm09-like virus for cell culture or recombinant vaccines. These strains were included for the 2021-2022 season. The panel also voted for the inclusion of a B/Phuket/3073/2013-like virus (B/Yamagata lineage) as the second influenza B strain for the quadrivalent egg-based, cell culture, or recombinant vaccines, which is unchanged from this flu season.
 

‘Sporadic’ flu activity

While there was an uptick in influenza activity this year compared to the 2020-2021 season, hospitalization rates are lower than in the four seasons preceding the pandemic (from 2016-2017 to 2019-2020). As of Feb. 26, the cumulative hospitalization rate for this flu season was 5.2 hospitalizations per 100,000 individuals. There have been eight pediatric deaths due to influenza so far this season, compared to one pediatric death reported to the CDC during the 2020-2021 flu season.

About 4.1% of specimens tested at clinical laboratories were positive for flu. Since Oct. 30, 2.7% of specimens have been positive for influenza this season. Nearly all viruses detected (97.7%) have been influenza A.

Lisa Grohskopf, MD, MPH, a medical officer in the influenza division at the CDC who presented the data at the meeting, described flu activity this season as “sporadic” and noted that activity is increasing in some areas of the country. According to CDC’s weekly influenza surveillance report, most states had minimal influenza-like illness (ILI) activity, although Arkansas, Idaho, Iowa, Kansas, Minnesota, and Utah had slightly higher ILI activity as of Feb. 26. Champaign-Urbana, Illinois; St. Cloud, Minnesota; and Brownwood, Texas, had the highest levels of flu activity in the country.
 

Low vaccine effectiveness

As of Jan. 22, results from the U.S. Flu VE network do not show statistically significant evidence that the flu vaccine is effective. Currently, the vaccine is estimated to be 8% effective against preventing influenza A infection (95% confidence interval, –31% to 36%) and 14% effective against preventing A/H3N2 infection (95% CI, –28% to 43%) for people aged 6 months and older.

The network did not have enough data to provide age-specific VE estimates or estimates of effectiveness against influenza B. This could be due to low flu activity relative to prepandemic years, Dr. Flannery said. Of the 2,758 individuals enrolled in the VE flu network this season, just 147 (5%) tested positive for the flu this season. This is the lowest positivity rate observed in the Flu VE network participants with respiratory illness over the past 10 flu seasons, Dr. Grohskopf noted. In comparison, estimates from the 2019 to 2020 season included 4,112 individuals, and 1,060 tested positive for flu.

“We are really at the bare minimum of what we can use for a flu vaccine effectiveness estimate,” Dr. Flannery said about the more recent data. The network was not able to produce any estimates about flu vaccine effectiveness for the 2020-2021 season because of historically low flu activity.

The Department of Defense also presented vaccine efficacy estimates for the 2021–2022 season. The vaccine has been 36% effective (95% CI, 28%-44%) against all strains of the virus, 33% effective against influenza A (95% CI, 24%-41%), 32% effective against A/H3N2 (95% CI, 3%-53%), and 59% effective against influenza B (95% CI, 42%-71%). These results are from a young, healthy adult population, Lieutenant Commander Courtney Gustin, DrPH, MSN, told the panel, and they may not be reflective of efficacy rates across all age groups.

Though these findings suggest there is low to no measurable benefit against influenza A, Dr. Flannery said the CDC still recommends getting the flu vaccine, as it can be protective against other circulating flu strains. “We have been able to demonstrate protection against other H3 [viruses], B viruses, and H1 viruses in the past,” he said. And as these results only show protection against mild disease, “there is still possibility that there’s benefit against more severe disease,” he added. Studies measuring effectiveness against more severe outcomes are not yet available.

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

In a typical year, the Advisory Committee on Immunization Practices (ACIP) has three 1.5- to 2-day meetings to make recommendations for the use of new and existing vaccines in the US population. However, 2021 was not a typical year. Last year, ACIP held 17 meetings for a total of 127 hours. Most of these were related to vaccines to prevent COVID-19. There are now 3 COVID-19 vaccines authorized for use in the United States: the 2-dose mRNA-based Pfizer-BioNTech/Comirnaty and Moderna COVID-19 vaccines and the single-dose adenovirus, vector-based Janssen (Johnson & Johnson) COVID-19 vaccine.

TABLE 1¹ includes the actions taken by the ACIP from late 2020 through 2021 related to COVID-19 vaccines. All of these recommendations except 1 occurred after the US Food and Drug Administration (FDA) approved the product using an emergency use authorization (EUA). The exception is the recommendation for use of the Pfizer-BioNTech COVID-19 vaccine (BNT162b2) for those ages 16 years and older, which was approved under the normal process 8 months after widespread use under an EUA.

Hepatitis B vaccine now for all nonimmune adults up through 59 years

Since the introduction of hepatitis B (HepB) vaccines in 1980, the incidence of hepatitis B virus (HBV) infections in the United States has been reduced dramatically; there were an estimated 287,000 cases in 1985² and 19,200 in 2014.³ However, the incidence among adults has not declined in recent years and among someage groups has actually increased. Among those ages 40 to 49 years, the rate went from 1.9 per 100,000 in 2011⁴ to 2.7 per 100,000 population in 2019.⁵ In those ages 50 to 59, there was an increase from 1.1 to 1.6 per 100,000 population over the same period of time.^4,5

Recommendations for using HepB vaccine in adults have been based on risk that involves individual behavior, occupation, and medical conditions (TABLE 2⁶). The presence of these risk factors is often unknown to medical professionals, who rarely ask about or document them. And patients can be reluctant to disclose them for fear of being stigmatized. The consequence has been a low rate of vaccination in at-risk adults.

At its November 2021 meeting, ACIP accepted the advice of the Hepatitis Work Group to move to a universal adult recommendation through age 59.⁷ ACIP believed that the incidence of acute infection in those ages 60 and older was too low to merit a universal recommendation. The new recommendation states that all adults through age 59 years who are not immune to HBV through vaccination or prior infection should receive a HepB vaccine series, as should those 60 years and older with a risk factor (TABLE 2⁶). If a patient’s immune status is unknown, ACIP recommends administering the vaccine, as there are no documented harmful effects of doing so in an individual with immunity.

Multiple HepB vaccine products are available for adults. Two are recombinant-based and require 3 doses: Engerix-B (GlaxoSmithKline) and Recombivax HB (Merck). One is recombinant based and requires only 2 doses: Heplisav-B (Dynavax Technologies). A new product recently approved by the FDA, ­PREHEVBRIO (VBI Vaccines), is another recombinant 3-dose option that the ACIP will consider early in 2022. HepB and HepA vaccines can also be co-administered with Twinrix (GlaxoSmithKline).

Pneumococcal vaccines: New PCV vaccines alter prescribing choices

The ACIP recommendations for pneumococcal vaccines in adults have been very confusing, involving 2 vaccines: PCV13 (Prevnar13, Pfizer) and PPSV23 (Pneumovax23, Merck). Both PCV13 and PPSV23 given in series were recommended for immunocompromised patients, but only PPSV23 was recommended for those with chronic medical conditions. For those 65 and older, PPSV23 was recommended for all individuals (including those with no chronic or immunocompromising condition), and PCV13 was recommended for those with immunocompromising conditions. Other adults in this older age group could receive PCV13 based on individual risk and shared clinical decision making.⁸

Continue to: This past year...

This past year, 2 new PCV vaccines were approved by the FDA: PCV15 (Vaxneuvance, Merck) and PCV20 (Prevnar20, Pfizer). While considering these new vaccines, the ACIP re-­assessed its entire approval of pneumococcal vaccines. First, they retained the cutoff for universal pneumococcal vaccination at 65 years. For those younger than 65, they combined chronic medical conditions and immunocompromising conditions into a single at-risk group (TABLE 3⁹). They then issued the same recommendation for older adults and those younger than 65 with risks: to receive a PCV vaccine, either PCV15 or PCV20. If they receive PCV15, it should be followed by PPSV23. PPSV23 is not recommended for those who receive PCV20. Therefore, PPSV23 is no longer routinely recommended for adults unless PCV15 is the PCV of choice.⁹ Clinical guidance on the use of PCV vaccines will be published in early 2022.

Zoster vaccine for younger adults

Recombinant zoster vaccine (RZV) has been licensed and recommended in the United States since 2017 in a 2-dose schedule for adults ages 50 years and older. In the summer of 2021, the FDA expanded the indication for use of RZV to include individuals 18 to 49 years of age who are or will be immunodeficient or immunosuppressed due to known disease or therapy. In October, the ACIP agreed and recommended 2 RZV doses for those 19 years and older in these risk groups (TABLE 4¹⁰).

This recommendation was based on the elevated risk of herpes zoster documented in those with immune-suppressing conditions and therapies. In the conditions studied, the incidence in these younger adults exceeded that for older adults, for whom the vaccine is recommended.¹⁰ There are many immune conditions and immune-suppressing medications. The ACIP Zoster Work Group did not have efficacy and safety information on the use of RZV in each one of them, even though their recommendation includes them all. Many of these patients are under the care of specialists whose specialty societies had been recommending zoster vaccine for their patients, off label, prior to the FDA authorization.

Rabies vaccine is now available in 2-dose schedule

People who should receive rabies pre-exposure prophylaxis (PrEP) with rabies vaccine include laboratory personnel who work with rabies virus, biologists who work with bats, animal care professionals, wildlife biologists, veterinarians, and travelers who may be at risk of encountering rabid dogs. The recommendation has been for 3 doses of rabies vaccine at 0, 7, and 21-28 days. The ACIP voted at its June 2021 meeting to adopt a 2-dose PrEP schedule of 0 and 7 days.¹¹ This will be especially helpful to travelers who want to complete the recommended doses prior to departure. Those who have sustained risk over time can elect to have a third dose after 21 days and before 3 years, or elect to have titers checked. More detailed clinical advice will be published in the CDC’s Morbidity and Mortality Weekly Report in 2022.

Dengue vaccine: New rec for those 9-16 years

In 2019, the FDA approved the first dengue vaccine for use in the United States for children 9 to 16 years old who had laboratory-­confirmed previous dengue virus infection and who were living in an area where dengue is endemic. The CYD-TDV dengue vaccine (Dengvaxia) is a live-attenuated tetravalent vaccine built on a yellow fever vaccine backbone. Its effectiveness is 82% for prevention of symptomatic dengue, 79% for prevention of dengue-associated hospitalizations, and 84% against severe dengue.¹²

Continue to: Dengue viruses...

Dengue viruses (DENV) are transmitted by Aedes mosquitoes. There are 4 serotypes of dengue, and all 4 appear to be circulating in most endemic countries. Clinical disease varies from a mild febrile illness to severe disease. The most common clinical presentation includes sudden onset of fever, headache, retro-orbital pain, myalgia and arthralgia, abdominal pain, and nausea.

The incidence of hepatitis B infection among adults has not declined in recent years and has actually increased in some age groups.

Severe disease includes plasma leakage, shock, respiratory distress, severe bleeding, and organ failure. While severe dengue can occur with a primary infection, a second infection with a different DENV increases the risk of severe dengue. A small increased risk of severe dengue occurs when dengue infection occurs after vaccination in those with no evidence of previous dengue infection. It is felt that the vaccine serves as a primary infection that increases the risk of severe dengue with subsequent infections. This is the reason that the vaccine is recommended only for those with a documented previous dengue infection.

At its June 2021 meeting, the ACIP recommended 3-doses of Dengvaxia, administered at 0, 6, and 12 months, for individuals 9 to 16 years of age who have laboratory confirmation of previous dengue infection and live in endemic areas.¹² These areas include the territories and affiliated states of Puerto Rico, American Samoa, US Virgin Islands, Federated States of Micronesia, Republic of Marshall Islands, and the Republic of Palau. Puerto Rico accounts for 85% of the population of these areas and 95% of reported dengue cases.¹²The reason for the delay between FDA approval and the ACIP recommendation was the need to wait for a readily available, accurate laboratory test to confirm previous dengue infection, which is now available. There are other dengue vaccines in development including 2 live-attenuated, tetravalent vaccine candidates in Phase 3 trials.

In a typical year, the Advisory Committee on Immunization Practices (ACIP) has three 1.5- to 2-day meetings to make recommendations for the use of new and existing vaccines in the US population. However, 2021 was not a typical year. Last year, ACIP held 17 meetings for a total of 127 hours. Most of these were related to vaccines to prevent COVID-19. There are now 3 COVID-19 vaccines authorized for use in the United States: the 2-dose mRNA-based Pfizer-BioNTech/Comirnaty and Moderna COVID-19 vaccines and the single-dose adenovirus, vector-based Janssen (Johnson & Johnson) COVID-19 vaccine.

TABLE 1¹ includes the actions taken by the ACIP from late 2020 through 2021 related to COVID-19 vaccines. All of these recommendations except 1 occurred after the US Food and Drug Administration (FDA) approved the product using an emergency use authorization (EUA). The exception is the recommendation for use of the Pfizer-BioNTech COVID-19 vaccine (BNT162b2) for those ages 16 years and older, which was approved under the normal process 8 months after widespread use under an EUA.

Hepatitis B vaccine now for all nonimmune adults up through 59 years

Since the introduction of hepatitis B (HepB) vaccines in 1980, the incidence of hepatitis B virus (HBV) infections in the United States has been reduced dramatically; there were an estimated 287,000 cases in 1985² and 19,200 in 2014.³ However, the incidence among adults has not declined in recent years and among someage groups has actually increased. Among those ages 40 to 49 years, the rate went from 1.9 per 100,000 in 2011⁴ to 2.7 per 100,000 population in 2019.⁵ In those ages 50 to 59, there was an increase from 1.1 to 1.6 per 100,000 population over the same period of time.^4,5

Recommendations for using HepB vaccine in adults have been based on risk that involves individual behavior, occupation, and medical conditions (TABLE 2⁶). The presence of these risk factors is often unknown to medical professionals, who rarely ask about or document them. And patients can be reluctant to disclose them for fear of being stigmatized. The consequence has been a low rate of vaccination in at-risk adults.

At its November 2021 meeting, ACIP accepted the advice of the Hepatitis Work Group to move to a universal adult recommendation through age 59.⁷ ACIP believed that the incidence of acute infection in those ages 60 and older was too low to merit a universal recommendation. The new recommendation states that all adults through age 59 years who are not immune to HBV through vaccination or prior infection should receive a HepB vaccine series, as should those 60 years and older with a risk factor (TABLE 2⁶). If a patient’s immune status is unknown, ACIP recommends administering the vaccine, as there are no documented harmful effects of doing so in an individual with immunity.

Multiple HepB vaccine products are available for adults. Two are recombinant-based and require 3 doses: Engerix-B (GlaxoSmithKline) and Recombivax HB (Merck). One is recombinant based and requires only 2 doses: Heplisav-B (Dynavax Technologies). A new product recently approved by the FDA, ­PREHEVBRIO (VBI Vaccines), is another recombinant 3-dose option that the ACIP will consider early in 2022. HepB and HepA vaccines can also be co-administered with Twinrix (GlaxoSmithKline).

Pneumococcal vaccines: New PCV vaccines alter prescribing choices

The ACIP recommendations for pneumococcal vaccines in adults have been very confusing, involving 2 vaccines: PCV13 (Prevnar13, Pfizer) and PPSV23 (Pneumovax23, Merck). Both PCV13 and PPSV23 given in series were recommended for immunocompromised patients, but only PPSV23 was recommended for those with chronic medical conditions. For those 65 and older, PPSV23 was recommended for all individuals (including those with no chronic or immunocompromising condition), and PCV13 was recommended for those with immunocompromising conditions. Other adults in this older age group could receive PCV13 based on individual risk and shared clinical decision making.⁸

Continue to: This past year...

This past year, 2 new PCV vaccines were approved by the FDA: PCV15 (Vaxneuvance, Merck) and PCV20 (Prevnar20, Pfizer). While considering these new vaccines, the ACIP re-­assessed its entire approval of pneumococcal vaccines. First, they retained the cutoff for universal pneumococcal vaccination at 65 years. For those younger than 65, they combined chronic medical conditions and immunocompromising conditions into a single at-risk group (TABLE 3⁹). They then issued the same recommendation for older adults and those younger than 65 with risks: to receive a PCV vaccine, either PCV15 or PCV20. If they receive PCV15, it should be followed by PPSV23. PPSV23 is not recommended for those who receive PCV20. Therefore, PPSV23 is no longer routinely recommended for adults unless PCV15 is the PCV of choice.⁹ Clinical guidance on the use of PCV vaccines will be published in early 2022.

Zoster vaccine for younger adults

Recombinant zoster vaccine (RZV) has been licensed and recommended in the United States since 2017 in a 2-dose schedule for adults ages 50 years and older. In the summer of 2021, the FDA expanded the indication for use of RZV to include individuals 18 to 49 years of age who are or will be immunodeficient or immunosuppressed due to known disease or therapy. In October, the ACIP agreed and recommended 2 RZV doses for those 19 years and older in these risk groups (TABLE 4¹⁰).

This recommendation was based on the elevated risk of herpes zoster documented in those with immune-suppressing conditions and therapies. In the conditions studied, the incidence in these younger adults exceeded that for older adults, for whom the vaccine is recommended.¹⁰ There are many immune conditions and immune-suppressing medications. The ACIP Zoster Work Group did not have efficacy and safety information on the use of RZV in each one of them, even though their recommendation includes them all. Many of these patients are under the care of specialists whose specialty societies had been recommending zoster vaccine for their patients, off label, prior to the FDA authorization.

Rabies vaccine is now available in 2-dose schedule

People who should receive rabies pre-exposure prophylaxis (PrEP) with rabies vaccine include laboratory personnel who work with rabies virus, biologists who work with bats, animal care professionals, wildlife biologists, veterinarians, and travelers who may be at risk of encountering rabid dogs. The recommendation has been for 3 doses of rabies vaccine at 0, 7, and 21-28 days. The ACIP voted at its June 2021 meeting to adopt a 2-dose PrEP schedule of 0 and 7 days.¹¹ This will be especially helpful to travelers who want to complete the recommended doses prior to departure. Those who have sustained risk over time can elect to have a third dose after 21 days and before 3 years, or elect to have titers checked. More detailed clinical advice will be published in the CDC’s Morbidity and Mortality Weekly Report in 2022.

Dengue vaccine: New rec for those 9-16 years

In 2019, the FDA approved the first dengue vaccine for use in the United States for children 9 to 16 years old who had laboratory-­confirmed previous dengue virus infection and who were living in an area where dengue is endemic. The CYD-TDV dengue vaccine (Dengvaxia) is a live-attenuated tetravalent vaccine built on a yellow fever vaccine backbone. Its effectiveness is 82% for prevention of symptomatic dengue, 79% for prevention of dengue-associated hospitalizations, and 84% against severe dengue.¹²

Continue to: Dengue viruses...

Dengue viruses (DENV) are transmitted by Aedes mosquitoes. There are 4 serotypes of dengue, and all 4 appear to be circulating in most endemic countries. Clinical disease varies from a mild febrile illness to severe disease. The most common clinical presentation includes sudden onset of fever, headache, retro-orbital pain, myalgia and arthralgia, abdominal pain, and nausea.

The incidence of hepatitis B infection among adults has not declined in recent years and has actually increased in some age groups.

Severe disease includes plasma leakage, shock, respiratory distress, severe bleeding, and organ failure. While severe dengue can occur with a primary infection, a second infection with a different DENV increases the risk of severe dengue. A small increased risk of severe dengue occurs when dengue infection occurs after vaccination in those with no evidence of previous dengue infection. It is felt that the vaccine serves as a primary infection that increases the risk of severe dengue with subsequent infections. This is the reason that the vaccine is recommended only for those with a documented previous dengue infection.

At its June 2021 meeting, the ACIP recommended 3-doses of Dengvaxia, administered at 0, 6, and 12 months, for individuals 9 to 16 years of age who have laboratory confirmation of previous dengue infection and live in endemic areas.¹² These areas include the territories and affiliated states of Puerto Rico, American Samoa, US Virgin Islands, Federated States of Micronesia, Republic of Marshall Islands, and the Republic of Palau. Puerto Rico accounts for 85% of the population of these areas and 95% of reported dengue cases.¹²The reason for the delay between FDA approval and the ACIP recommendation was the need to wait for a readily available, accurate laboratory test to confirm previous dengue infection, which is now available. There are other dengue vaccines in development including 2 live-attenuated, tetravalent vaccine candidates in Phase 3 trials.

In a typical year, the Advisory Committee on Immunization Practices (ACIP) has three 1.5- to 2-day meetings to make recommendations for the use of new and existing vaccines in the US population. However, 2021 was not a typical year. Last year, ACIP held 17 meetings for a total of 127 hours. Most of these were related to vaccines to prevent COVID-19. There are now 3 COVID-19 vaccines authorized for use in the United States: the 2-dose mRNA-based Pfizer-BioNTech/Comirnaty and Moderna COVID-19 vaccines and the single-dose adenovirus, vector-based Janssen (Johnson & Johnson) COVID-19 vaccine.

TABLE 1¹ includes the actions taken by the ACIP from late 2020 through 2021 related to COVID-19 vaccines. All of these recommendations except 1 occurred after the US Food and Drug Administration (FDA) approved the product using an emergency use authorization (EUA). The exception is the recommendation for use of the Pfizer-BioNTech COVID-19 vaccine (BNT162b2) for those ages 16 years and older, which was approved under the normal process 8 months after widespread use under an EUA.

Hepatitis B vaccine now for all nonimmune adults up through 59 years

Since the introduction of hepatitis B (HepB) vaccines in 1980, the incidence of hepatitis B virus (HBV) infections in the United States has been reduced dramatically; there were an estimated 287,000 cases in 1985² and 19,200 in 2014.³ However, the incidence among adults has not declined in recent years and among someage groups has actually increased. Among those ages 40 to 49 years, the rate went from 1.9 per 100,000 in 2011⁴ to 2.7 per 100,000 population in 2019.⁵ In those ages 50 to 59, there was an increase from 1.1 to 1.6 per 100,000 population over the same period of time.^4,5

Recommendations for using HepB vaccine in adults have been based on risk that involves individual behavior, occupation, and medical conditions (TABLE 2⁶). The presence of these risk factors is often unknown to medical professionals, who rarely ask about or document them. And patients can be reluctant to disclose them for fear of being stigmatized. The consequence has been a low rate of vaccination in at-risk adults.

At its November 2021 meeting, ACIP accepted the advice of the Hepatitis Work Group to move to a universal adult recommendation through age 59.⁷ ACIP believed that the incidence of acute infection in those ages 60 and older was too low to merit a universal recommendation. The new recommendation states that all adults through age 59 years who are not immune to HBV through vaccination or prior infection should receive a HepB vaccine series, as should those 60 years and older with a risk factor (TABLE 2⁶). If a patient’s immune status is unknown, ACIP recommends administering the vaccine, as there are no documented harmful effects of doing so in an individual with immunity.

Multiple HepB vaccine products are available for adults. Two are recombinant-based and require 3 doses: Engerix-B (GlaxoSmithKline) and Recombivax HB (Merck). One is recombinant based and requires only 2 doses: Heplisav-B (Dynavax Technologies). A new product recently approved by the FDA, ­PREHEVBRIO (VBI Vaccines), is another recombinant 3-dose option that the ACIP will consider early in 2022. HepB and HepA vaccines can also be co-administered with Twinrix (GlaxoSmithKline).

Pneumococcal vaccines: New PCV vaccines alter prescribing choices

The ACIP recommendations for pneumococcal vaccines in adults have been very confusing, involving 2 vaccines: PCV13 (Prevnar13, Pfizer) and PPSV23 (Pneumovax23, Merck). Both PCV13 and PPSV23 given in series were recommended for immunocompromised patients, but only PPSV23 was recommended for those with chronic medical conditions. For those 65 and older, PPSV23 was recommended for all individuals (including those with no chronic or immunocompromising condition), and PCV13 was recommended for those with immunocompromising conditions. Other adults in this older age group could receive PCV13 based on individual risk and shared clinical decision making.⁸

Continue to: This past year...

This past year, 2 new PCV vaccines were approved by the FDA: PCV15 (Vaxneuvance, Merck) and PCV20 (Prevnar20, Pfizer). While considering these new vaccines, the ACIP re-­assessed its entire approval of pneumococcal vaccines. First, they retained the cutoff for universal pneumococcal vaccination at 65 years. For those younger than 65, they combined chronic medical conditions and immunocompromising conditions into a single at-risk group (TABLE 3⁹). They then issued the same recommendation for older adults and those younger than 65 with risks: to receive a PCV vaccine, either PCV15 or PCV20. If they receive PCV15, it should be followed by PPSV23. PPSV23 is not recommended for those who receive PCV20. Therefore, PPSV23 is no longer routinely recommended for adults unless PCV15 is the PCV of choice.⁹ Clinical guidance on the use of PCV vaccines will be published in early 2022.

Zoster vaccine for younger adults

Recombinant zoster vaccine (RZV) has been licensed and recommended in the United States since 2017 in a 2-dose schedule for adults ages 50 years and older. In the summer of 2021, the FDA expanded the indication for use of RZV to include individuals 18 to 49 years of age who are or will be immunodeficient or immunosuppressed due to known disease or therapy. In October, the ACIP agreed and recommended 2 RZV doses for those 19 years and older in these risk groups (TABLE 4¹⁰).

This recommendation was based on the elevated risk of herpes zoster documented in those with immune-suppressing conditions and therapies. In the conditions studied, the incidence in these younger adults exceeded that for older adults, for whom the vaccine is recommended.¹⁰ There are many immune conditions and immune-suppressing medications. The ACIP Zoster Work Group did not have efficacy and safety information on the use of RZV in each one of them, even though their recommendation includes them all. Many of these patients are under the care of specialists whose specialty societies had been recommending zoster vaccine for their patients, off label, prior to the FDA authorization.

Rabies vaccine is now available in 2-dose schedule

People who should receive rabies pre-exposure prophylaxis (PrEP) with rabies vaccine include laboratory personnel who work with rabies virus, biologists who work with bats, animal care professionals, wildlife biologists, veterinarians, and travelers who may be at risk of encountering rabid dogs. The recommendation has been for 3 doses of rabies vaccine at 0, 7, and 21-28 days. The ACIP voted at its June 2021 meeting to adopt a 2-dose PrEP schedule of 0 and 7 days.¹¹ This will be especially helpful to travelers who want to complete the recommended doses prior to departure. Those who have sustained risk over time can elect to have a third dose after 21 days and before 3 years, or elect to have titers checked. More detailed clinical advice will be published in the CDC’s Morbidity and Mortality Weekly Report in 2022.

Dengue vaccine: New rec for those 9-16 years

In 2019, the FDA approved the first dengue vaccine for use in the United States for children 9 to 16 years old who had laboratory-­confirmed previous dengue virus infection and who were living in an area where dengue is endemic. The CYD-TDV dengue vaccine (Dengvaxia) is a live-attenuated tetravalent vaccine built on a yellow fever vaccine backbone. Its effectiveness is 82% for prevention of symptomatic dengue, 79% for prevention of dengue-associated hospitalizations, and 84% against severe dengue.¹²

Continue to: Dengue viruses...

Dengue viruses (DENV) are transmitted by Aedes mosquitoes. There are 4 serotypes of dengue, and all 4 appear to be circulating in most endemic countries. Clinical disease varies from a mild febrile illness to severe disease. The most common clinical presentation includes sudden onset of fever, headache, retro-orbital pain, myalgia and arthralgia, abdominal pain, and nausea.

The incidence of hepatitis B infection among adults has not declined in recent years and has actually increased in some age groups.

Severe disease includes plasma leakage, shock, respiratory distress, severe bleeding, and organ failure. While severe dengue can occur with a primary infection, a second infection with a different DENV increases the risk of severe dengue. A small increased risk of severe dengue occurs when dengue infection occurs after vaccination in those with no evidence of previous dengue infection. It is felt that the vaccine serves as a primary infection that increases the risk of severe dengue with subsequent infections. This is the reason that the vaccine is recommended only for those with a documented previous dengue infection.

At its June 2021 meeting, the ACIP recommended 3-doses of Dengvaxia, administered at 0, 6, and 12 months, for individuals 9 to 16 years of age who have laboratory confirmation of previous dengue infection and live in endemic areas.¹² These areas include the territories and affiliated states of Puerto Rico, American Samoa, US Virgin Islands, Federated States of Micronesia, Republic of Marshall Islands, and the Republic of Palau. Puerto Rico accounts for 85% of the population of these areas and 95% of reported dengue cases.¹²The reason for the delay between FDA approval and the ACIP recommendation was the need to wait for a readily available, accurate laboratory test to confirm previous dengue infection, which is now available. There are other dengue vaccines in development including 2 live-attenuated, tetravalent vaccine candidates in Phase 3 trials.

The Diagnosis: Cystic Neutrophilic Granulomatous Mastitis

The histopathologic findings in our patient were characteristic of cystic neutrophilic granulomatous mastitis (CNGM), a rare granulomatous mastitis associated with Corynebacterium and suppurative lipogranulomas. Although not seen in our patient, the lipid vacuoles may contain gram-positive bacilli.¹ The surrounding mixed inflammatory infiltrate contains Langerhans giant cells, lymphocytes, and neutrophils. Cystic neutrophilic granulomatous mastitis is seen in parous women of reproductive age. Physical examination demonstrates a palpable painful mass on the breast. Wound cultures frequently are negative, likely due to difficulty culturing Corynebacterium and prophylactic antibiotic treatment. Given the association with Corynebacterium species, early diagnosis of CNGM is essential in offering patients the most appropriate treatment. Prolonged antibiotic therapy specifically directed to corynebacteria is required, sometimes even beyond resolution of clinical symptoms. The diagnosis of CNGM often is missed or delayed due to its rarity and many potential mimickers. Clinically, CNGM may be virtually impossible to discern from invasive carcinoma.¹

Our patient was treated with vancomycin and cefepime with incision and drainage as an inpatient. Upon discharge, she was started on prednisone 1 mg/kg daily tapered by 10 mg every 5 days over 1 month and doxycycline 100 mg twice daily. She was then transitioned to topical hydrocortisone and bacitracin; she reported decreased swelling and pain. No new lesions formed after the initiation of therapy; however, most lesions remained open. Cystic neutrophilic granulomatous mastitis remains a challenging entity to treat, with a variable response rate reported in the literature for antibiotics such as doxycycline and systemic and topical steroids as well as immunosuppressants including methotrexate.^2,3

Cystic neutrophilic granulomatous mastitis can be distinguished from hidradenitis suppurativa clinically because ulcerating lesions can involve the superior portions of the breast in CNGM, whereas hidradenitis suppurativa typically is restricted to the lower intertriginous parts of the breast. Other mimics of CNGM can be distinguished with biopsy. Histology of pyoderma gangrenosum lacks prominent granuloma formation. Although sarcoidosis and mycobacterial infection show prominent granulomas, neither show the characteristic lipogranulomas seen in CNGM. Additionally, the granulomas of sarcoidosis are much larger and deeper than CNGM. Mycobacterial granulomas also typically reveal bacilli with acid-fast bacilli staining or via wound culture.

The Diagnosis: Cystic Neutrophilic Granulomatous Mastitis

The histopathologic findings in our patient were characteristic of cystic neutrophilic granulomatous mastitis (CNGM), a rare granulomatous mastitis associated with Corynebacterium and suppurative lipogranulomas. Although not seen in our patient, the lipid vacuoles may contain gram-positive bacilli.¹ The surrounding mixed inflammatory infiltrate contains Langerhans giant cells, lymphocytes, and neutrophils. Cystic neutrophilic granulomatous mastitis is seen in parous women of reproductive age. Physical examination demonstrates a palpable painful mass on the breast. Wound cultures frequently are negative, likely due to difficulty culturing Corynebacterium and prophylactic antibiotic treatment. Given the association with Corynebacterium species, early diagnosis of CNGM is essential in offering patients the most appropriate treatment. Prolonged antibiotic therapy specifically directed to corynebacteria is required, sometimes even beyond resolution of clinical symptoms. The diagnosis of CNGM often is missed or delayed due to its rarity and many potential mimickers. Clinically, CNGM may be virtually impossible to discern from invasive carcinoma.¹

Our patient was treated with vancomycin and cefepime with incision and drainage as an inpatient. Upon discharge, she was started on prednisone 1 mg/kg daily tapered by 10 mg every 5 days over 1 month and doxycycline 100 mg twice daily. She was then transitioned to topical hydrocortisone and bacitracin; she reported decreased swelling and pain. No new lesions formed after the initiation of therapy; however, most lesions remained open. Cystic neutrophilic granulomatous mastitis remains a challenging entity to treat, with a variable response rate reported in the literature for antibiotics such as doxycycline and systemic and topical steroids as well as immunosuppressants including methotrexate.^2,3

Cystic neutrophilic granulomatous mastitis can be distinguished from hidradenitis suppurativa clinically because ulcerating lesions can involve the superior portions of the breast in CNGM, whereas hidradenitis suppurativa typically is restricted to the lower intertriginous parts of the breast. Other mimics of CNGM can be distinguished with biopsy. Histology of pyoderma gangrenosum lacks prominent granuloma formation. Although sarcoidosis and mycobacterial infection show prominent granulomas, neither show the characteristic lipogranulomas seen in CNGM. Additionally, the granulomas of sarcoidosis are much larger and deeper than CNGM. Mycobacterial granulomas also typically reveal bacilli with acid-fast bacilli staining or via wound culture.

The Diagnosis: Cystic Neutrophilic Granulomatous Mastitis

The histopathologic findings in our patient were characteristic of cystic neutrophilic granulomatous mastitis (CNGM), a rare granulomatous mastitis associated with Corynebacterium and suppurative lipogranulomas. Although not seen in our patient, the lipid vacuoles may contain gram-positive bacilli.¹ The surrounding mixed inflammatory infiltrate contains Langerhans giant cells, lymphocytes, and neutrophils. Cystic neutrophilic granulomatous mastitis is seen in parous women of reproductive age. Physical examination demonstrates a palpable painful mass on the breast. Wound cultures frequently are negative, likely due to difficulty culturing Corynebacterium and prophylactic antibiotic treatment. Given the association with Corynebacterium species, early diagnosis of CNGM is essential in offering patients the most appropriate treatment. Prolonged antibiotic therapy specifically directed to corynebacteria is required, sometimes even beyond resolution of clinical symptoms. The diagnosis of CNGM often is missed or delayed due to its rarity and many potential mimickers. Clinically, CNGM may be virtually impossible to discern from invasive carcinoma.¹

Our patient was treated with vancomycin and cefepime with incision and drainage as an inpatient. Upon discharge, she was started on prednisone 1 mg/kg daily tapered by 10 mg every 5 days over 1 month and doxycycline 100 mg twice daily. She was then transitioned to topical hydrocortisone and bacitracin; she reported decreased swelling and pain. No new lesions formed after the initiation of therapy; however, most lesions remained open. Cystic neutrophilic granulomatous mastitis remains a challenging entity to treat, with a variable response rate reported in the literature for antibiotics such as doxycycline and systemic and topical steroids as well as immunosuppressants including methotrexate.^2,3

Cystic neutrophilic granulomatous mastitis can be distinguished from hidradenitis suppurativa clinically because ulcerating lesions can involve the superior portions of the breast in CNGM, whereas hidradenitis suppurativa typically is restricted to the lower intertriginous parts of the breast. Other mimics of CNGM can be distinguished with biopsy. Histology of pyoderma gangrenosum lacks prominent granuloma formation. Although sarcoidosis and mycobacterial infection show prominent granulomas, neither show the characteristic lipogranulomas seen in CNGM. Additionally, the granulomas of sarcoidosis are much larger and deeper than CNGM. Mycobacterial granulomas also typically reveal bacilli with acid-fast bacilli staining or via wound culture.

Testing is ongoing after more than 4,600 veterans who had received care at the Carl Vinson Veterans Affairs Medical Center in Dublin, Georgia, were alerted that they may have been exposed to HIV, hepatitis B, and hepatitis C. The exposure was due to improperly sterilized equipment. At least some of the patients have tested positive, but the facility has not indicated the number, the diseases, or whether the infections were the result of the exposure.

A mid-January internal review at the hospital found that not all steps were being followed in the procedures for sterilizing equipment between patients. Patients who had dentistry, endoscopy, urology, podiatry, optometry, or surgical procedures in 2021 may have been exposed to blood-borne pathogens.

In response, the VA sent teams from other hospitals to help, including a team from the Augusta Veterans Affairs Medical Center to reprocess all equipment and staff from VA facilities in Atlanta, South Carolina, and Alabama to provide personnel training. All staff at Carl Vinson Veterans Affairs Medical Center have since been retrained on all current guidelines.

The hospital says it’s still testing exposed veterans. Hospital spokesperson James Huckfeldt told a Macon-based newspaper, The Telegraph, that veterans with positive test results will undergo additional testing to determine whether the transmission is new or preexisting. “The findings from the additional testing will be used to accurately diagnose any impacted veterans and ensure that they receive appropriate medical treatment,” he said.

Manuel M. Davila, director of the hospital, sent letters to the patients at risk, alerting them to the exposure. “We sincerely apologize and accept responsibility for this mistake and are taking steps to prevent it from happening in the future,” Davilla wrote. “This event is unacceptable to us as well, and we want to work with you to correct the situation and ensure your safety and well-being. Because your safety is important to us and because we want to honor your trust in us, we want you to know that when concerns are raised over our processes or procedures, we take immediate steps to stop everything and make sure things are.”

Davilla reassured the veterans that “we are confident that the risk of infectious disease is very low.”

The Carl Vinson Medical Center has set up a communication center to answer questions for veterans: (478) 274-5400.

Testing is ongoing after more than 4,600 veterans who had received care at the Carl Vinson Veterans Affairs Medical Center in Dublin, Georgia, were alerted that they may have been exposed to HIV, hepatitis B, and hepatitis C. The exposure was due to improperly sterilized equipment. At least some of the patients have tested positive, but the facility has not indicated the number, the diseases, or whether the infections were the result of the exposure.

A mid-January internal review at the hospital found that not all steps were being followed in the procedures for sterilizing equipment between patients. Patients who had dentistry, endoscopy, urology, podiatry, optometry, or surgical procedures in 2021 may have been exposed to blood-borne pathogens.

In response, the VA sent teams from other hospitals to help, including a team from the Augusta Veterans Affairs Medical Center to reprocess all equipment and staff from VA facilities in Atlanta, South Carolina, and Alabama to provide personnel training. All staff at Carl Vinson Veterans Affairs Medical Center have since been retrained on all current guidelines.

The hospital says it’s still testing exposed veterans. Hospital spokesperson James Huckfeldt told a Macon-based newspaper, The Telegraph, that veterans with positive test results will undergo additional testing to determine whether the transmission is new or preexisting. “The findings from the additional testing will be used to accurately diagnose any impacted veterans and ensure that they receive appropriate medical treatment,” he said.

Manuel M. Davila, director of the hospital, sent letters to the patients at risk, alerting them to the exposure. “We sincerely apologize and accept responsibility for this mistake and are taking steps to prevent it from happening in the future,” Davilla wrote. “This event is unacceptable to us as well, and we want to work with you to correct the situation and ensure your safety and well-being. Because your safety is important to us and because we want to honor your trust in us, we want you to know that when concerns are raised over our processes or procedures, we take immediate steps to stop everything and make sure things are.”

Davilla reassured the veterans that “we are confident that the risk of infectious disease is very low.”

The Carl Vinson Medical Center has set up a communication center to answer questions for veterans: (478) 274-5400.

Testing is ongoing after more than 4,600 veterans who had received care at the Carl Vinson Veterans Affairs Medical Center in Dublin, Georgia, were alerted that they may have been exposed to HIV, hepatitis B, and hepatitis C. The exposure was due to improperly sterilized equipment. At least some of the patients have tested positive, but the facility has not indicated the number, the diseases, or whether the infections were the result of the exposure.

A mid-January internal review at the hospital found that not all steps were being followed in the procedures for sterilizing equipment between patients. Patients who had dentistry, endoscopy, urology, podiatry, optometry, or surgical procedures in 2021 may have been exposed to blood-borne pathogens.

In response, the VA sent teams from other hospitals to help, including a team from the Augusta Veterans Affairs Medical Center to reprocess all equipment and staff from VA facilities in Atlanta, South Carolina, and Alabama to provide personnel training. All staff at Carl Vinson Veterans Affairs Medical Center have since been retrained on all current guidelines.

The hospital says it’s still testing exposed veterans. Hospital spokesperson James Huckfeldt told a Macon-based newspaper, The Telegraph, that veterans with positive test results will undergo additional testing to determine whether the transmission is new or preexisting. “The findings from the additional testing will be used to accurately diagnose any impacted veterans and ensure that they receive appropriate medical treatment,” he said.

Manuel M. Davila, director of the hospital, sent letters to the patients at risk, alerting them to the exposure. “We sincerely apologize and accept responsibility for this mistake and are taking steps to prevent it from happening in the future,” Davilla wrote. “This event is unacceptable to us as well, and we want to work with you to correct the situation and ensure your safety and well-being. Because your safety is important to us and because we want to honor your trust in us, we want you to know that when concerns are raised over our processes or procedures, we take immediate steps to stop everything and make sure things are.”

Davilla reassured the veterans that “we are confident that the risk of infectious disease is very low.”

The Carl Vinson Medical Center has set up a communication center to answer questions for veterans: (478) 274-5400.