Pulmonology

SAN DIEGO — A lifestyle intervention focused on diet and exercise can improve cardiac function and the quality of life for patients with pulmonary arterial hypertension (PAH), results of a randomized clinical trial show.

At 12 weeks of follow-up, patients with PAH who were randomized to undergo a diet and cardiovascular exercise program had improved right ventricular function, better exercise capacity, and improved quality of life compared with patients randomized to the standard of care.

In addition, for those participants in the diet and exercise group who lost weight, right ventricular glucose uptake improved, reported Gustavo A. Heresi, MD, MS of the division of pulmonary medicine at the Cleveland Clinic.

Neil Osterweil/MDedge News

The intervention did not, however, have an effect on insulin sensitivity, suggesting that insulin resistance is not a significant pathological mechanism in PAH, he said in an oral abstract session at the American Thoracic Society’s international conference.

“With these data, in the context of prior studies showing the benefits of exercise interventions, we believe that diet and exercise should be incorporated and thought of as part of the treatment armamentarium for pulmonary arterial hypertension,” he said.

Despite the availability of 14 FDA-approved medications for PAH, the disease is incurable. It is marked by progressive pulmonary vasoconstriction, pulmonary vascular remodeling, fibrosis and inflammation, in situ thrombosis, and right ventricular failure.

Because abnormalities in both glucose and insulin metabolism are prevalent and associated with decreased survival in patients with PAH, Dr. Heresi and colleagues designed a randomized trial to test the hypothesis that a diet and exercise intervention could improve insulin sensitivity and right ventricular function.
 

PHINE details

In the study, dubbed Pulmonary Arterial Hypertension Improvement with Nutrition and Exercise (PHINE), the investigators enrolled adults with group 1 PAH who were stable on PAH medications for at least 2 months. Patients with portopulmonary hypertension, New York Heart Association (NYHA) class IV heart failure, syncope, or on supplemental oxygen greater than 4 liters per minute were excluded.

The patients were screened with a graded exercise test, intravenous glucose tolerance test, and other measures at baseline, and after stratification by NYHA class and tricuspid annular plane systolic excursion (TAPSE) score were randomized to the intervention arm (16 patients) or standard of care control arm (14 patients).

The intervention consisted of supervised exercise training for 50-60 minutes on a treadmill at 80%-85% of the patient’s maximum heart rate 5 days per week, plus weekly counseling on a combination low glycemic index/Mediterranean dietary pattern. The diet portion included olive oil as the primary fat source, three 1-ounce servings of nuts and peanuts weekly, fish and legumes at a minimum of 3 servings weekly, and no sugar-sweetened beverage, commercial bakery products, pastries, white breads, white rice, or white potatoes.
 

Results

At the conclusion of the study at 12 weeks there were no statistically significant differences between the groups in either insulin sensitivity or right ventricular strain.

However, patients in the intervention arm had significant improvements compared with controls in mean RV function as measured by TAPSE, improved exercise capacity as measured by peak oxygen uptake and 6-minute walking distance, quality of life as measured by EmPHasis-10 health-related quality of life score, and NYHA functional class.

As noted, right ventricular glucose uptake was improved among those patients in the intervention group who lost weight over the study period.
 

Worth trying

Ravi Kalhan, MD, MS, of Northwestern University Feinberg School of Medicine in Chicago, who co-moderated the session but was not involved in the study, said in an interview that the study results show promise.

“We’re so centered on what’s the next big pharmacotherapy you can give to fix the disease, but sometimes maybe we should be pushing lifestyle interventions that are impactful, and they have biologic mechanisms — it’s not just that you got in better shape, but right ventricular function also improves. I’m pretty drawn to that sort of thing,” he said.

“That’s a pretty major effect over a 3-month intervention,” agreed co-moderator Nuala J. Meyer, MD, MS, ATSF, of the Hospital of the University of Pennsylvania.

The PHINE trial was supported by National Institute of Health grants. Dr. Heresi, Dr. Kalhan, and Dr. Meyer reported no conflicts of interest.

SAN DIEGO — A lifestyle intervention focused on diet and exercise can improve cardiac function and the quality of life for patients with pulmonary arterial hypertension (PAH), results of a randomized clinical trial show.

At 12 weeks of follow-up, patients with PAH who were randomized to undergo a diet and cardiovascular exercise program had improved right ventricular function, better exercise capacity, and improved quality of life compared with patients randomized to the standard of care.

In addition, for those participants in the diet and exercise group who lost weight, right ventricular glucose uptake improved, reported Gustavo A. Heresi, MD, MS of the division of pulmonary medicine at the Cleveland Clinic.

Neil Osterweil/MDedge News

The intervention did not, however, have an effect on insulin sensitivity, suggesting that insulin resistance is not a significant pathological mechanism in PAH, he said in an oral abstract session at the American Thoracic Society’s international conference.

“With these data, in the context of prior studies showing the benefits of exercise interventions, we believe that diet and exercise should be incorporated and thought of as part of the treatment armamentarium for pulmonary arterial hypertension,” he said.

Despite the availability of 14 FDA-approved medications for PAH, the disease is incurable. It is marked by progressive pulmonary vasoconstriction, pulmonary vascular remodeling, fibrosis and inflammation, in situ thrombosis, and right ventricular failure.

Because abnormalities in both glucose and insulin metabolism are prevalent and associated with decreased survival in patients with PAH, Dr. Heresi and colleagues designed a randomized trial to test the hypothesis that a diet and exercise intervention could improve insulin sensitivity and right ventricular function.
 

PHINE details

In the study, dubbed Pulmonary Arterial Hypertension Improvement with Nutrition and Exercise (PHINE), the investigators enrolled adults with group 1 PAH who were stable on PAH medications for at least 2 months. Patients with portopulmonary hypertension, New York Heart Association (NYHA) class IV heart failure, syncope, or on supplemental oxygen greater than 4 liters per minute were excluded.

The patients were screened with a graded exercise test, intravenous glucose tolerance test, and other measures at baseline, and after stratification by NYHA class and tricuspid annular plane systolic excursion (TAPSE) score were randomized to the intervention arm (16 patients) or standard of care control arm (14 patients).

The intervention consisted of supervised exercise training for 50-60 minutes on a treadmill at 80%-85% of the patient’s maximum heart rate 5 days per week, plus weekly counseling on a combination low glycemic index/Mediterranean dietary pattern. The diet portion included olive oil as the primary fat source, three 1-ounce servings of nuts and peanuts weekly, fish and legumes at a minimum of 3 servings weekly, and no sugar-sweetened beverage, commercial bakery products, pastries, white breads, white rice, or white potatoes.
 

Results

At the conclusion of the study at 12 weeks there were no statistically significant differences between the groups in either insulin sensitivity or right ventricular strain.

However, patients in the intervention arm had significant improvements compared with controls in mean RV function as measured by TAPSE, improved exercise capacity as measured by peak oxygen uptake and 6-minute walking distance, quality of life as measured by EmPHasis-10 health-related quality of life score, and NYHA functional class.

As noted, right ventricular glucose uptake was improved among those patients in the intervention group who lost weight over the study period.
 

Worth trying

Ravi Kalhan, MD, MS, of Northwestern University Feinberg School of Medicine in Chicago, who co-moderated the session but was not involved in the study, said in an interview that the study results show promise.

“We’re so centered on what’s the next big pharmacotherapy you can give to fix the disease, but sometimes maybe we should be pushing lifestyle interventions that are impactful, and they have biologic mechanisms — it’s not just that you got in better shape, but right ventricular function also improves. I’m pretty drawn to that sort of thing,” he said.

“That’s a pretty major effect over a 3-month intervention,” agreed co-moderator Nuala J. Meyer, MD, MS, ATSF, of the Hospital of the University of Pennsylvania.

The PHINE trial was supported by National Institute of Health grants. Dr. Heresi, Dr. Kalhan, and Dr. Meyer reported no conflicts of interest.

SAN DIEGO — A lifestyle intervention focused on diet and exercise can improve cardiac function and the quality of life for patients with pulmonary arterial hypertension (PAH), results of a randomized clinical trial show.

At 12 weeks of follow-up, patients with PAH who were randomized to undergo a diet and cardiovascular exercise program had improved right ventricular function, better exercise capacity, and improved quality of life compared with patients randomized to the standard of care.

In addition, for those participants in the diet and exercise group who lost weight, right ventricular glucose uptake improved, reported Gustavo A. Heresi, MD, MS of the division of pulmonary medicine at the Cleveland Clinic.

Neil Osterweil/MDedge News

The intervention did not, however, have an effect on insulin sensitivity, suggesting that insulin resistance is not a significant pathological mechanism in PAH, he said in an oral abstract session at the American Thoracic Society’s international conference.

“With these data, in the context of prior studies showing the benefits of exercise interventions, we believe that diet and exercise should be incorporated and thought of as part of the treatment armamentarium for pulmonary arterial hypertension,” he said.

Despite the availability of 14 FDA-approved medications for PAH, the disease is incurable. It is marked by progressive pulmonary vasoconstriction, pulmonary vascular remodeling, fibrosis and inflammation, in situ thrombosis, and right ventricular failure.

Because abnormalities in both glucose and insulin metabolism are prevalent and associated with decreased survival in patients with PAH, Dr. Heresi and colleagues designed a randomized trial to test the hypothesis that a diet and exercise intervention could improve insulin sensitivity and right ventricular function.
 

PHINE details

In the study, dubbed Pulmonary Arterial Hypertension Improvement with Nutrition and Exercise (PHINE), the investigators enrolled adults with group 1 PAH who were stable on PAH medications for at least 2 months. Patients with portopulmonary hypertension, New York Heart Association (NYHA) class IV heart failure, syncope, or on supplemental oxygen greater than 4 liters per minute were excluded.

The patients were screened with a graded exercise test, intravenous glucose tolerance test, and other measures at baseline, and after stratification by NYHA class and tricuspid annular plane systolic excursion (TAPSE) score were randomized to the intervention arm (16 patients) or standard of care control arm (14 patients).

The intervention consisted of supervised exercise training for 50-60 minutes on a treadmill at 80%-85% of the patient’s maximum heart rate 5 days per week, plus weekly counseling on a combination low glycemic index/Mediterranean dietary pattern. The diet portion included olive oil as the primary fat source, three 1-ounce servings of nuts and peanuts weekly, fish and legumes at a minimum of 3 servings weekly, and no sugar-sweetened beverage, commercial bakery products, pastries, white breads, white rice, or white potatoes.
 

Results

At the conclusion of the study at 12 weeks there were no statistically significant differences between the groups in either insulin sensitivity or right ventricular strain.

However, patients in the intervention arm had significant improvements compared with controls in mean RV function as measured by TAPSE, improved exercise capacity as measured by peak oxygen uptake and 6-minute walking distance, quality of life as measured by EmPHasis-10 health-related quality of life score, and NYHA functional class.

As noted, right ventricular glucose uptake was improved among those patients in the intervention group who lost weight over the study period.
 

Worth trying

Ravi Kalhan, MD, MS, of Northwestern University Feinberg School of Medicine in Chicago, who co-moderated the session but was not involved in the study, said in an interview that the study results show promise.

“We’re so centered on what’s the next big pharmacotherapy you can give to fix the disease, but sometimes maybe we should be pushing lifestyle interventions that are impactful, and they have biologic mechanisms — it’s not just that you got in better shape, but right ventricular function also improves. I’m pretty drawn to that sort of thing,” he said.

“That’s a pretty major effect over a 3-month intervention,” agreed co-moderator Nuala J. Meyer, MD, MS, ATSF, of the Hospital of the University of Pennsylvania.

The PHINE trial was supported by National Institute of Health grants. Dr. Heresi, Dr. Kalhan, and Dr. Meyer reported no conflicts of interest.

Lung cancer screening with low-dose CT (LDCT) can effectively evaluate a high-risk population for undiagnosed chronic obstructive pulmonary disease (COPD) and airflow obstruction, based on data from a new study of approximately 2000 individuals.

Previous research suggests that approximately 70%-90% of individuals with COPD are undiagnosed, especially low-income and minority populations who may be less likely to undergo screening, said Michaela A. Seigo, DO, of Temple University Hospital, Philadelphia, in a study presented at the American Thoracic Society (ATS) 2024 International Conference.

Although the current guidance from the United States Preventive Services Task Force (USPSTF) recommends against universal COPD screening in asymptomatic adults, the use of LDCT may be an option for evaluating a high-risk population, the researchers noted.

The researchers reviewed data from 2083 adults enrolled in the Temple Healthy Chest Initiative, an urban health system-wide lung cancer screening program, combined with the detection of symptoms and comorbidities.
 

Baseline LDCT for Identification of Comorbidities

Study participants underwent baseline LDCT between October 2021 and October 2022. The images were reviewed by radiologists for pulmonary comorbidities including emphysema, airway disease, bronchiectasis, and interstitial lung disease. In addition, 604 participants (29%) completed a symptom survey, and 624 (30%) underwent spirometry. The mean age of the participants was 65.8 years and 63.9 years for those with and without a history of COPD, respectively.

Approximately half of the participants in both groups were female.

Overall, 66 of 181 (36.5%) individuals previously undiagnosed with COPD had spirometry consistent with airflow obstruction (forced expiratory volume in 1 second/forced vital capacity, < 70%). Individuals with previously undiagnosed COPD were more likely to be younger, male, current smokers, and identified as Hispanic or other race (not Black, White, Hispanic, or Asian/Native American/Pacific Islander).

Individuals without a reported history of COPD had fewer pulmonary comorbidities on LDCT and lower rates of respiratory symptoms than those with COPD. However, nearly 25% of individuals with no reported history of COPD said that breathing issues affected their “ability to do things,” Ms. Seigo said, and a majority of those with no COPD diagnosis exhibited airway disease (76.2% compared with 84% of diagnosed patients with COPD). In addition, 88.1% reported ever experiencing dyspnea and 72.6% reported experiencing cough; both symptoms are compatible with a clinical diagnosis of COPD, the researchers noted.

“We detected pulmonary comorbidities at higher rates than previously published,” Ms. Seigo said in an interview. The increase likely reflects the patient population at Temple, which includes a relatively high percentage of city-dwelling, lower-income individuals, as well as more racial-ethnic minorities and persons of color, she said.

However, “these findings will help clinicians target the most at-risk populations for previously undiagnosed COPD,” Ms. Seigo said.

Looking ahead, Ms. Seigo said she sees a dominant role for artificial intelligence (AI) in COPD screening. “At-risk populations will get LDCT scans, and AI will identify pulmonary and extra-pulmonary comorbidities that may need to be addressed,” she said.

A combination of symptom detection plus strategic and more widely available access to screening offers “a huge opportunity to intervene earlier and potentially save lives,” she told this news organization.
 

Lung Cancer Screening May Promote Earlier COPD Intervention

The current study examines the prevalence of undiagnosed COPD, especially among low-income and minority populations, in an asymptomatic high-risk group. “By integrating lung cancer CT screening with the detection of pulmonary comorbidities on LDCT and respiratory symptoms, the current study aimed to identify individuals with undiagnosed COPD,” said Dharani K. Narendra, MD, of Baylor College of Medicine, Houston, in an interview.

“The study highlighted the feasibility and potential benefits of coupling lung cancer screening tests with COPD detection, which is noteworthy, and hits two targets with one arrow — early detection of lung cancer and COPD — in high-risk groups, Dr. Narendra said.

“Although the USPSTF recommends against screening for COPD in asymptomatic patients, abnormal pulmonary comorbidities observed on CT chest scans could serve as a gateway for clinicians to screen for COPD,” said Dr. Narendra. “This approach allows for early diagnosis, education on smoking cessation, and timely treatment of COPD, potentially preventing lung function deterioration and reducing the risk of exacerbations,” she noted.

The finding that one third of previously undiagnosed and asymptomatic patients with COPD showed significant rates of airflow obstruction on spirometry is consistent with previous research, Dr. Narendra told this news organization.

“Interestingly, in questions about specific symptoms, undiagnosed COPD patients reported higher rates of dyspnea, more cough, and breathing difficulties affecting their daily activities, at 16.1%, 27.4%, and 24.5%, respectively, highlighting a lower perception of symptoms,” she said.

“Barriers to lung cancer screening in urban, high-risk communities include limited healthcare facility access, insufficient awareness of screening programs, financial constraints, and cultural or language barriers,” said Dr. Narendra.

Potential strategies to overcome these barriers include improving access through additional screening centers and providing transportation, implementing community-based education and outreach programs to increase awareness about the benefits of lung cancer screening and early COPD detection, and providing financial assistance in the form of free screening options and collaboration with insurers to cover screening expenses, she said.

“Healthcare providers must recognize the dual benefits of lung cancer screening programs, including the opportunity to screen for undiagnosed COPD,” Dr. Narendra emphasized. “This integrated approach is crucial in identifying high-risk individuals who could benefit from early intervention and effective management of COPD. Clinicians should actively support implementing comprehensive screening programs incorporating assessments for pulmonary comorbidities through LDCT and screening questionnaires for COPD symptoms,” she said.

“Further research is needed to evaluate long-term mortality outcomes and identify best practices to determine the most effective methods and cost-effectiveness for implementing and sustaining combined screening programs in various urban settings,” Dr. Narendra told this news organization.

Other areas to address in future studies include investigating specific barriers to screening among different high-risk groups and tailoring interventions to improve screening uptake and adherence, Narendra said. “By addressing these research gaps, health care providers can optimize screening programs and enhance the overall health of urban, high-risk populations,” she added.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Narendra serves on the editorial board of CHEST Physician.

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

Lung cancer screening with low-dose CT (LDCT) can effectively evaluate a high-risk population for undiagnosed chronic obstructive pulmonary disease (COPD) and airflow obstruction, based on data from a new study of approximately 2000 individuals.

Previous research suggests that approximately 70%-90% of individuals with COPD are undiagnosed, especially low-income and minority populations who may be less likely to undergo screening, said Michaela A. Seigo, DO, of Temple University Hospital, Philadelphia, in a study presented at the American Thoracic Society (ATS) 2024 International Conference.

Although the current guidance from the United States Preventive Services Task Force (USPSTF) recommends against universal COPD screening in asymptomatic adults, the use of LDCT may be an option for evaluating a high-risk population, the researchers noted.

The researchers reviewed data from 2083 adults enrolled in the Temple Healthy Chest Initiative, an urban health system-wide lung cancer screening program, combined with the detection of symptoms and comorbidities.
 

Baseline LDCT for Identification of Comorbidities

Study participants underwent baseline LDCT between October 2021 and October 2022. The images were reviewed by radiologists for pulmonary comorbidities including emphysema, airway disease, bronchiectasis, and interstitial lung disease. In addition, 604 participants (29%) completed a symptom survey, and 624 (30%) underwent spirometry. The mean age of the participants was 65.8 years and 63.9 years for those with and without a history of COPD, respectively.

Approximately half of the participants in both groups were female.

Overall, 66 of 181 (36.5%) individuals previously undiagnosed with COPD had spirometry consistent with airflow obstruction (forced expiratory volume in 1 second/forced vital capacity, < 70%). Individuals with previously undiagnosed COPD were more likely to be younger, male, current smokers, and identified as Hispanic or other race (not Black, White, Hispanic, or Asian/Native American/Pacific Islander).

Individuals without a reported history of COPD had fewer pulmonary comorbidities on LDCT and lower rates of respiratory symptoms than those with COPD. However, nearly 25% of individuals with no reported history of COPD said that breathing issues affected their “ability to do things,” Ms. Seigo said, and a majority of those with no COPD diagnosis exhibited airway disease (76.2% compared with 84% of diagnosed patients with COPD). In addition, 88.1% reported ever experiencing dyspnea and 72.6% reported experiencing cough; both symptoms are compatible with a clinical diagnosis of COPD, the researchers noted.

“We detected pulmonary comorbidities at higher rates than previously published,” Ms. Seigo said in an interview. The increase likely reflects the patient population at Temple, which includes a relatively high percentage of city-dwelling, lower-income individuals, as well as more racial-ethnic minorities and persons of color, she said.

However, “these findings will help clinicians target the most at-risk populations for previously undiagnosed COPD,” Ms. Seigo said.

Looking ahead, Ms. Seigo said she sees a dominant role for artificial intelligence (AI) in COPD screening. “At-risk populations will get LDCT scans, and AI will identify pulmonary and extra-pulmonary comorbidities that may need to be addressed,” she said.

A combination of symptom detection plus strategic and more widely available access to screening offers “a huge opportunity to intervene earlier and potentially save lives,” she told this news organization.
 

Lung Cancer Screening May Promote Earlier COPD Intervention

The current study examines the prevalence of undiagnosed COPD, especially among low-income and minority populations, in an asymptomatic high-risk group. “By integrating lung cancer CT screening with the detection of pulmonary comorbidities on LDCT and respiratory symptoms, the current study aimed to identify individuals with undiagnosed COPD,” said Dharani K. Narendra, MD, of Baylor College of Medicine, Houston, in an interview.

“The study highlighted the feasibility and potential benefits of coupling lung cancer screening tests with COPD detection, which is noteworthy, and hits two targets with one arrow — early detection of lung cancer and COPD — in high-risk groups, Dr. Narendra said.

“Although the USPSTF recommends against screening for COPD in asymptomatic patients, abnormal pulmonary comorbidities observed on CT chest scans could serve as a gateway for clinicians to screen for COPD,” said Dr. Narendra. “This approach allows for early diagnosis, education on smoking cessation, and timely treatment of COPD, potentially preventing lung function deterioration and reducing the risk of exacerbations,” she noted.

The finding that one third of previously undiagnosed and asymptomatic patients with COPD showed significant rates of airflow obstruction on spirometry is consistent with previous research, Dr. Narendra told this news organization.

“Interestingly, in questions about specific symptoms, undiagnosed COPD patients reported higher rates of dyspnea, more cough, and breathing difficulties affecting their daily activities, at 16.1%, 27.4%, and 24.5%, respectively, highlighting a lower perception of symptoms,” she said.

“Barriers to lung cancer screening in urban, high-risk communities include limited healthcare facility access, insufficient awareness of screening programs, financial constraints, and cultural or language barriers,” said Dr. Narendra.

Potential strategies to overcome these barriers include improving access through additional screening centers and providing transportation, implementing community-based education and outreach programs to increase awareness about the benefits of lung cancer screening and early COPD detection, and providing financial assistance in the form of free screening options and collaboration with insurers to cover screening expenses, she said.

“Healthcare providers must recognize the dual benefits of lung cancer screening programs, including the opportunity to screen for undiagnosed COPD,” Dr. Narendra emphasized. “This integrated approach is crucial in identifying high-risk individuals who could benefit from early intervention and effective management of COPD. Clinicians should actively support implementing comprehensive screening programs incorporating assessments for pulmonary comorbidities through LDCT and screening questionnaires for COPD symptoms,” she said.

“Further research is needed to evaluate long-term mortality outcomes and identify best practices to determine the most effective methods and cost-effectiveness for implementing and sustaining combined screening programs in various urban settings,” Dr. Narendra told this news organization.

Other areas to address in future studies include investigating specific barriers to screening among different high-risk groups and tailoring interventions to improve screening uptake and adherence, Narendra said. “By addressing these research gaps, health care providers can optimize screening programs and enhance the overall health of urban, high-risk populations,” she added.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Narendra serves on the editorial board of CHEST Physician.

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

Lung cancer screening with low-dose CT (LDCT) can effectively evaluate a high-risk population for undiagnosed chronic obstructive pulmonary disease (COPD) and airflow obstruction, based on data from a new study of approximately 2000 individuals.

Previous research suggests that approximately 70%-90% of individuals with COPD are undiagnosed, especially low-income and minority populations who may be less likely to undergo screening, said Michaela A. Seigo, DO, of Temple University Hospital, Philadelphia, in a study presented at the American Thoracic Society (ATS) 2024 International Conference.

Although the current guidance from the United States Preventive Services Task Force (USPSTF) recommends against universal COPD screening in asymptomatic adults, the use of LDCT may be an option for evaluating a high-risk population, the researchers noted.

The researchers reviewed data from 2083 adults enrolled in the Temple Healthy Chest Initiative, an urban health system-wide lung cancer screening program, combined with the detection of symptoms and comorbidities.
 

Baseline LDCT for Identification of Comorbidities

Study participants underwent baseline LDCT between October 2021 and October 2022. The images were reviewed by radiologists for pulmonary comorbidities including emphysema, airway disease, bronchiectasis, and interstitial lung disease. In addition, 604 participants (29%) completed a symptom survey, and 624 (30%) underwent spirometry. The mean age of the participants was 65.8 years and 63.9 years for those with and without a history of COPD, respectively.

Approximately half of the participants in both groups were female.

Overall, 66 of 181 (36.5%) individuals previously undiagnosed with COPD had spirometry consistent with airflow obstruction (forced expiratory volume in 1 second/forced vital capacity, < 70%). Individuals with previously undiagnosed COPD were more likely to be younger, male, current smokers, and identified as Hispanic or other race (not Black, White, Hispanic, or Asian/Native American/Pacific Islander).

Individuals without a reported history of COPD had fewer pulmonary comorbidities on LDCT and lower rates of respiratory symptoms than those with COPD. However, nearly 25% of individuals with no reported history of COPD said that breathing issues affected their “ability to do things,” Ms. Seigo said, and a majority of those with no COPD diagnosis exhibited airway disease (76.2% compared with 84% of diagnosed patients with COPD). In addition, 88.1% reported ever experiencing dyspnea and 72.6% reported experiencing cough; both symptoms are compatible with a clinical diagnosis of COPD, the researchers noted.

“We detected pulmonary comorbidities at higher rates than previously published,” Ms. Seigo said in an interview. The increase likely reflects the patient population at Temple, which includes a relatively high percentage of city-dwelling, lower-income individuals, as well as more racial-ethnic minorities and persons of color, she said.

However, “these findings will help clinicians target the most at-risk populations for previously undiagnosed COPD,” Ms. Seigo said.

Looking ahead, Ms. Seigo said she sees a dominant role for artificial intelligence (AI) in COPD screening. “At-risk populations will get LDCT scans, and AI will identify pulmonary and extra-pulmonary comorbidities that may need to be addressed,” she said.

A combination of symptom detection plus strategic and more widely available access to screening offers “a huge opportunity to intervene earlier and potentially save lives,” she told this news organization.
 

Lung Cancer Screening May Promote Earlier COPD Intervention

The current study examines the prevalence of undiagnosed COPD, especially among low-income and minority populations, in an asymptomatic high-risk group. “By integrating lung cancer CT screening with the detection of pulmonary comorbidities on LDCT and respiratory symptoms, the current study aimed to identify individuals with undiagnosed COPD,” said Dharani K. Narendra, MD, of Baylor College of Medicine, Houston, in an interview.

“The study highlighted the feasibility and potential benefits of coupling lung cancer screening tests with COPD detection, which is noteworthy, and hits two targets with one arrow — early detection of lung cancer and COPD — in high-risk groups, Dr. Narendra said.

“Although the USPSTF recommends against screening for COPD in asymptomatic patients, abnormal pulmonary comorbidities observed on CT chest scans could serve as a gateway for clinicians to screen for COPD,” said Dr. Narendra. “This approach allows for early diagnosis, education on smoking cessation, and timely treatment of COPD, potentially preventing lung function deterioration and reducing the risk of exacerbations,” she noted.

The finding that one third of previously undiagnosed and asymptomatic patients with COPD showed significant rates of airflow obstruction on spirometry is consistent with previous research, Dr. Narendra told this news organization.

“Interestingly, in questions about specific symptoms, undiagnosed COPD patients reported higher rates of dyspnea, more cough, and breathing difficulties affecting their daily activities, at 16.1%, 27.4%, and 24.5%, respectively, highlighting a lower perception of symptoms,” she said.

“Barriers to lung cancer screening in urban, high-risk communities include limited healthcare facility access, insufficient awareness of screening programs, financial constraints, and cultural or language barriers,” said Dr. Narendra.

Potential strategies to overcome these barriers include improving access through additional screening centers and providing transportation, implementing community-based education and outreach programs to increase awareness about the benefits of lung cancer screening and early COPD detection, and providing financial assistance in the form of free screening options and collaboration with insurers to cover screening expenses, she said.

“Healthcare providers must recognize the dual benefits of lung cancer screening programs, including the opportunity to screen for undiagnosed COPD,” Dr. Narendra emphasized. “This integrated approach is crucial in identifying high-risk individuals who could benefit from early intervention and effective management of COPD. Clinicians should actively support implementing comprehensive screening programs incorporating assessments for pulmonary comorbidities through LDCT and screening questionnaires for COPD symptoms,” she said.

“Further research is needed to evaluate long-term mortality outcomes and identify best practices to determine the most effective methods and cost-effectiveness for implementing and sustaining combined screening programs in various urban settings,” Dr. Narendra told this news organization.

Other areas to address in future studies include investigating specific barriers to screening among different high-risk groups and tailoring interventions to improve screening uptake and adherence, Narendra said. “By addressing these research gaps, health care providers can optimize screening programs and enhance the overall health of urban, high-risk populations,” she added.

The study received no outside funding. The researchers had no financial conflicts to disclose. Dr. Narendra serves on the editorial board of CHEST Physician.

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

SAN DIEGO – No matter where on earth you live, there’s likely to be an eye in the sky hovering overhead, and that’s a good thing, at least when it comes to satellite monitoring of air quality, said scientists from the National Aeronautics and Space Administration (NASA).

In a special symposium held at the American Thoracic Society’s international conference, NASA health and air quality specialists described the use of space-based systems and earth science applications to improve understanding of respiratory health risks worldwide, and to help enrich pulmonary research with galaxies of data.

“Every day we download over 25 terabytes of data,” said John Haynes, MS, program manager for Health and Air Quality Applications in the Earth Action Program of the NASA Earth Science Division in Washington.

Neil Osterweil/MDedge News

“Many of the observation data sets are critical for healthy air quality applications: observation of land surface temperature, sea surface temperature, precipitation, fires and thermal anomalies, aerosols, just to name a few, and the really awesome news is this offering from our constellation of satellites is free and open access, available to everyone across the globe,” he said.

The mission of NASA’s Earth Action Program is “to enable people and organizations to apply insights from Earth science to benefit the economy, health, quality of life, and environment.”

Program staff work with both industry and nonprofit environmental advocacy and health groups to help inform their decisions and actions with Earth science information.

NASA supports the use of Earth observations to help monitor and manage infectious diseases and environmental health, toxins and pathogens that affect health, air quality standards, and to assess the effects of climate change on air quality and public health.

Mr. Haynes noted that worldwide, six major cities have incorporated NASA data on fine particulate matter smaller than 2.5 microns (PM2.5) into their climate action plans. These cities include Accra, Ghana; Addis Ababa, Ethiopia; Buenos Aires, Argentina; Guadalajara, Mexico; Lima, Peru; and Johannesburg, South Africa.
 

Monitoring pollution with TEMPO

There are more than 30 Earth-monitoring systems currently in orbit or soon to be launched, including NASA’s Tropospheric Emissions: Monitoring of Pollution (TEMPO), launched in April 2023, with first operations in August 2023. The instrument is in a geostationary orbit about 22,236 miles above the equator at longitudes that allow it to survey virtually all of North America — from coast to coast, and from southern Mexico, Cuba, Puerto Rico, and the Bahamas to Northern Canada.

TEMPO is part of a geostationary air quality satellite “constellation” or group that provides daylight observation over the entire Northern Hemisphere, explained Aaron Naeger, PhD, MS, mission applications lead for TEMPO at the NASA Marshall Space Flight Center in Huntsville, Alabama.

Until TEMPO, space-based instruments had relatively low spatial resolution and could only capture one image each day. In contrast, TEMPO can scan east-west each daylight hour across its entire coverage area (known as the Field of Regard), and even more frequently during early morning and late afternoon. This allows researchers to measure volumes of pollution, sources, and how these pollution levels vary over time. The system measures ozone levels, nitrogen dioxide (NO₂,) formaldehyde, and aerosols.

More than 100 federal, state, local and tribal air quality agencies use the data captured by TEMPO to inform public health efforts.

Dr. Naeger gave examples of how the system can help identify public health hazards, including scans that showed high NO₂ levels from cities, traffic corridors, power plants, oil and gas fields, and fires.

Similarly, the system detected unhealthy ozone and PM2.5 levels during prescribed burns in April 2024, as well as notable differences between weekdays and weekends in NO₂ concentrations across California and the Front Range in Colorado. These showed higher levels along traffic corridors during weekdays related to increased traffic volumes and tailpipe emissions.
 

Fire and heat

Other NASA health and air quality initiatives include the FireAQ project, based at the University of Iowa in Iowa City, which provides free online weekly briefings on fire-related air quality concerns using data from TEMPO and other NASA satellite systems. The FireAQ project was described by Jun Wang, PhD, from the University of Iowa in Iowa City.

NASA also fosters collaborations to reduce health disparities in air quality and respiratory health in urban heat islands and other areas affected by extreme temperatures due to climate change, as discussed by Christopher K. Uejio, PhD, from Florida State University in Tallahassee.

Air pollution expert George D. Thurston, ScD, professor of medicine and population health at the NYU Grossman School of Medicine, who attended the session, said that the PM2.5 standard includes nontoxic particulate matter, such as soil, and misses sub-micron sized particles, and asked Mr. Haynes whether smaller particles were being measured in the studies he described.

Mr. Haynes replied that the systems do not directly measure PM2.5 but instead rely on aerosol optical depth, a measure of the extent to which atmospheric particles absorb or scatter sunlight.

Dr. Thurston, who in 1987 was coauthor of groundbreaking study showing the link between PM2.5 levels and mortality, is now an advocate for a tougher standard of measuring ambient ultrafine particles with an aerodynamic diameter less than .1 microns in size (PM1).

NASA health and climate data are available at https://www.earthdata.nasa.gov/.

Mr. Haynes and Dr. Naeger are NASA employees. Dr. Thurston had no relevant disclosures.

SAN DIEGO – No matter where on earth you live, there’s likely to be an eye in the sky hovering overhead, and that’s a good thing, at least when it comes to satellite monitoring of air quality, said scientists from the National Aeronautics and Space Administration (NASA).

In a special symposium held at the American Thoracic Society’s international conference, NASA health and air quality specialists described the use of space-based systems and earth science applications to improve understanding of respiratory health risks worldwide, and to help enrich pulmonary research with galaxies of data.

“Every day we download over 25 terabytes of data,” said John Haynes, MS, program manager for Health and Air Quality Applications in the Earth Action Program of the NASA Earth Science Division in Washington.

Neil Osterweil/MDedge News

“Many of the observation data sets are critical for healthy air quality applications: observation of land surface temperature, sea surface temperature, precipitation, fires and thermal anomalies, aerosols, just to name a few, and the really awesome news is this offering from our constellation of satellites is free and open access, available to everyone across the globe,” he said.

The mission of NASA’s Earth Action Program is “to enable people and organizations to apply insights from Earth science to benefit the economy, health, quality of life, and environment.”

Program staff work with both industry and nonprofit environmental advocacy and health groups to help inform their decisions and actions with Earth science information.

NASA supports the use of Earth observations to help monitor and manage infectious diseases and environmental health, toxins and pathogens that affect health, air quality standards, and to assess the effects of climate change on air quality and public health.

Mr. Haynes noted that worldwide, six major cities have incorporated NASA data on fine particulate matter smaller than 2.5 microns (PM2.5) into their climate action plans. These cities include Accra, Ghana; Addis Ababa, Ethiopia; Buenos Aires, Argentina; Guadalajara, Mexico; Lima, Peru; and Johannesburg, South Africa.
 

Monitoring pollution with TEMPO

There are more than 30 Earth-monitoring systems currently in orbit or soon to be launched, including NASA’s Tropospheric Emissions: Monitoring of Pollution (TEMPO), launched in April 2023, with first operations in August 2023. The instrument is in a geostationary orbit about 22,236 miles above the equator at longitudes that allow it to survey virtually all of North America — from coast to coast, and from southern Mexico, Cuba, Puerto Rico, and the Bahamas to Northern Canada.

TEMPO is part of a geostationary air quality satellite “constellation” or group that provides daylight observation over the entire Northern Hemisphere, explained Aaron Naeger, PhD, MS, mission applications lead for TEMPO at the NASA Marshall Space Flight Center in Huntsville, Alabama.

Until TEMPO, space-based instruments had relatively low spatial resolution and could only capture one image each day. In contrast, TEMPO can scan east-west each daylight hour across its entire coverage area (known as the Field of Regard), and even more frequently during early morning and late afternoon. This allows researchers to measure volumes of pollution, sources, and how these pollution levels vary over time. The system measures ozone levels, nitrogen dioxide (NO₂,) formaldehyde, and aerosols.

More than 100 federal, state, local and tribal air quality agencies use the data captured by TEMPO to inform public health efforts.

Dr. Naeger gave examples of how the system can help identify public health hazards, including scans that showed high NO₂ levels from cities, traffic corridors, power plants, oil and gas fields, and fires.

Similarly, the system detected unhealthy ozone and PM2.5 levels during prescribed burns in April 2024, as well as notable differences between weekdays and weekends in NO₂ concentrations across California and the Front Range in Colorado. These showed higher levels along traffic corridors during weekdays related to increased traffic volumes and tailpipe emissions.
 

Fire and heat

Other NASA health and air quality initiatives include the FireAQ project, based at the University of Iowa in Iowa City, which provides free online weekly briefings on fire-related air quality concerns using data from TEMPO and other NASA satellite systems. The FireAQ project was described by Jun Wang, PhD, from the University of Iowa in Iowa City.

NASA also fosters collaborations to reduce health disparities in air quality and respiratory health in urban heat islands and other areas affected by extreme temperatures due to climate change, as discussed by Christopher K. Uejio, PhD, from Florida State University in Tallahassee.

Air pollution expert George D. Thurston, ScD, professor of medicine and population health at the NYU Grossman School of Medicine, who attended the session, said that the PM2.5 standard includes nontoxic particulate matter, such as soil, and misses sub-micron sized particles, and asked Mr. Haynes whether smaller particles were being measured in the studies he described.

Mr. Haynes replied that the systems do not directly measure PM2.5 but instead rely on aerosol optical depth, a measure of the extent to which atmospheric particles absorb or scatter sunlight.

Dr. Thurston, who in 1987 was coauthor of groundbreaking study showing the link between PM2.5 levels and mortality, is now an advocate for a tougher standard of measuring ambient ultrafine particles with an aerodynamic diameter less than .1 microns in size (PM1).

NASA health and climate data are available at https://www.earthdata.nasa.gov/.

Mr. Haynes and Dr. Naeger are NASA employees. Dr. Thurston had no relevant disclosures.

SAN DIEGO – No matter where on earth you live, there’s likely to be an eye in the sky hovering overhead, and that’s a good thing, at least when it comes to satellite monitoring of air quality, said scientists from the National Aeronautics and Space Administration (NASA).

In a special symposium held at the American Thoracic Society’s international conference, NASA health and air quality specialists described the use of space-based systems and earth science applications to improve understanding of respiratory health risks worldwide, and to help enrich pulmonary research with galaxies of data.

“Every day we download over 25 terabytes of data,” said John Haynes, MS, program manager for Health and Air Quality Applications in the Earth Action Program of the NASA Earth Science Division in Washington.

Neil Osterweil/MDedge News

“Many of the observation data sets are critical for healthy air quality applications: observation of land surface temperature, sea surface temperature, precipitation, fires and thermal anomalies, aerosols, just to name a few, and the really awesome news is this offering from our constellation of satellites is free and open access, available to everyone across the globe,” he said.

The mission of NASA’s Earth Action Program is “to enable people and organizations to apply insights from Earth science to benefit the economy, health, quality of life, and environment.”

Program staff work with both industry and nonprofit environmental advocacy and health groups to help inform their decisions and actions with Earth science information.

NASA supports the use of Earth observations to help monitor and manage infectious diseases and environmental health, toxins and pathogens that affect health, air quality standards, and to assess the effects of climate change on air quality and public health.

Mr. Haynes noted that worldwide, six major cities have incorporated NASA data on fine particulate matter smaller than 2.5 microns (PM2.5) into their climate action plans. These cities include Accra, Ghana; Addis Ababa, Ethiopia; Buenos Aires, Argentina; Guadalajara, Mexico; Lima, Peru; and Johannesburg, South Africa.
 

Monitoring pollution with TEMPO

There are more than 30 Earth-monitoring systems currently in orbit or soon to be launched, including NASA’s Tropospheric Emissions: Monitoring of Pollution (TEMPO), launched in April 2023, with first operations in August 2023. The instrument is in a geostationary orbit about 22,236 miles above the equator at longitudes that allow it to survey virtually all of North America — from coast to coast, and from southern Mexico, Cuba, Puerto Rico, and the Bahamas to Northern Canada.

TEMPO is part of a geostationary air quality satellite “constellation” or group that provides daylight observation over the entire Northern Hemisphere, explained Aaron Naeger, PhD, MS, mission applications lead for TEMPO at the NASA Marshall Space Flight Center in Huntsville, Alabama.

Until TEMPO, space-based instruments had relatively low spatial resolution and could only capture one image each day. In contrast, TEMPO can scan east-west each daylight hour across its entire coverage area (known as the Field of Regard), and even more frequently during early morning and late afternoon. This allows researchers to measure volumes of pollution, sources, and how these pollution levels vary over time. The system measures ozone levels, nitrogen dioxide (NO₂,) formaldehyde, and aerosols.

More than 100 federal, state, local and tribal air quality agencies use the data captured by TEMPO to inform public health efforts.

Dr. Naeger gave examples of how the system can help identify public health hazards, including scans that showed high NO₂ levels from cities, traffic corridors, power plants, oil and gas fields, and fires.

Similarly, the system detected unhealthy ozone and PM2.5 levels during prescribed burns in April 2024, as well as notable differences between weekdays and weekends in NO₂ concentrations across California and the Front Range in Colorado. These showed higher levels along traffic corridors during weekdays related to increased traffic volumes and tailpipe emissions.
 

Fire and heat

Other NASA health and air quality initiatives include the FireAQ project, based at the University of Iowa in Iowa City, which provides free online weekly briefings on fire-related air quality concerns using data from TEMPO and other NASA satellite systems. The FireAQ project was described by Jun Wang, PhD, from the University of Iowa in Iowa City.

NASA also fosters collaborations to reduce health disparities in air quality and respiratory health in urban heat islands and other areas affected by extreme temperatures due to climate change, as discussed by Christopher K. Uejio, PhD, from Florida State University in Tallahassee.

Air pollution expert George D. Thurston, ScD, professor of medicine and population health at the NYU Grossman School of Medicine, who attended the session, said that the PM2.5 standard includes nontoxic particulate matter, such as soil, and misses sub-micron sized particles, and asked Mr. Haynes whether smaller particles were being measured in the studies he described.

Mr. Haynes replied that the systems do not directly measure PM2.5 but instead rely on aerosol optical depth, a measure of the extent to which atmospheric particles absorb or scatter sunlight.

Dr. Thurston, who in 1987 was coauthor of groundbreaking study showing the link between PM2.5 levels and mortality, is now an advocate for a tougher standard of measuring ambient ultrafine particles with an aerodynamic diameter less than .1 microns in size (PM1).

NASA health and climate data are available at https://www.earthdata.nasa.gov/.

Mr. Haynes and Dr. Naeger are NASA employees. Dr. Thurston had no relevant disclosures.

PARIS — While anaphylaxis requires immediate adrenaline administration through autoinjection, the use of this treatment is not optimal. Therefore, the development of new adrenaline formulations (such as for intranasal, sublingual, and transcutaneous routes) aims to facilitate the drug’s use and reduce persistent delays in administration by patients and caregivers. An overview of the research was presented at the 19th French-speaking Congress of Allergology.

Anaphylaxis is a severe and potentially fatal immediate hypersensitivity reaction with highly variable and dynamic clinical presentations. It requires prompt recognition for immediate treatment with intramuscular (IM) adrenaline (at the anterolateral aspect of the mid-thigh).

One might think that this reflex is acquired, but in France, while the number of prescribed adrenaline autoinjection (AAI) devices has been increasing for a decade, reaching 965,944 units in 2022, this first-line treatment is underused. Anapen (150, 300, and 500 µg), EpiPen (150 and 300 µg), Jext (150 µg and 300 µg), and Emerade (150, 300, and 500 µg) are the four products marketed in France in 2024.

“Only 17.3% of individuals presenting to the emergency department in the Lorraine region used it in 2015,” said Catherine Neukirch, MD, a pneumologist at Hôpital Bichat–Claude Bernard in Paris, France, with rates of 11.3% for children and 20.3% for adults.
 

Anaphylaxis Incidence Increasing

Approximately 0.3% (95% CI, 0.1-0.5) of the population will experience an anaphylaxis episode in their lifetime. Incidence in Europe, across all causes, is estimated between 1.5 and 7.9 cases per 100,000 inhabitants per year. Although anaphylaxis is on the rise, its associated mortality remains low, ranging between 0.05 and 0.51 per million per year for drugs, between 0.03 and 0.32 per million per year for foods, and between 0.09 and 0.13 per million per year for hymenopteran venoms.

Data from the European Anaphylaxis Registry indicate that anaphylaxis manifests rapidly after allergen exposure: 55% of cases occur within 10 minutes and 80% within 30 minutes. In addition, a biphasic reaction, which can occur up to 72 hours after exposure, is observed in < 5% of cases.

While a delay in adrenaline use is associated with risk for increased morbidity and mortality, AAI significantly reduces error rates compared with manual treatments involving ampoules, needles, and syringes. It also reduces the associated panic risks. However, there are multiple barriers to adrenaline use. The clinical symptoms of anaphylaxis may be misleading, especially if it occurs without cutaneous and urticarial manifestations but with only acute bronchospasm. It may present as isolated laryngeal edema without digestive involvement, hypotension, or other respiratory problems.

Other limitations to adrenaline use include technical difficulties and the possibility of incorrect administration, the need for appropriate needle sizes for patients with obesity, needle phobia, potential adverse effects of adrenaline injections, failure to carry two autoinjectors, constraints related to storage and bulky transport, as well as the need for training and practice.

“These factors contribute to underuse of adrenaline by patients and caregivers,” said Dr. Neukirch, which results in delays in necessary administration.
 

Adrenaline Treatment Criteria?

An analysis published in 2023 based on pharmacovigilance data from 30 regional French centers from 1984 to 2022 included 42 reported cases (average age, 33 years; 26% children) of reactions to AAI, which probably is an underestimate. About 40% of AAI uses occurred during anaphylaxis. The remaining 60% were triggered outside of reactions. The main reasons were accidental injections, mainly in the fingers, and cases of not triggering the autoinjector, underlining the importance of patient education.

In 2015, the European Medicines Agency required pharmacological studies for injectable adrenaline on healthy volunteers. These studies include ultrasound measurements of bolus injection, pharmacokinetics (ie, absorption, distribution, metabolism, and excretion), and pharmacodynamics (ie, the effect of the drug and the mechanism of action in the body), with precise evaluation of cardiovascular effects (eg, systolic and diastolic blood pressures and heart rate).

Among the information collected with the different products, ultrasound studies have shown a different localization of the adrenaline bolus (ie, in muscle in patients with normal BMI and mostly in adipose tissue in patients with BMI indicating overweight and obesity). The consequences of this finding are still unknown.

In a study with 500 µg Anapen, women with overweight or obesity showed different pharmacokinetic or pharmacodynamic profiles from those in men with normal weight, with an increase in the area under the curve (0-240 min) and marked changes in the heart rate time curve.

IM administration of 0.5 mg produces rapid pharmacokinetic effects in patients with normal weight, overweight, or obesity, with a delay for the second peak in the latter case. This delay perhaps results from initial local vasoconstriction due to adrenaline.

The early peak plasma concentration occurs at 5-10 minutes for AAI, with a faster speed for Anapen and EpiPen.

Moreover, needle size is not the most important factor. Rather, it is the strength and speed of injection, which can vary depending on the AAI.

Also, the optimal plasma concentration of adrenaline to treat anaphylaxis is not known; studies cannot be conducted during anaphylaxis. In terms of pharmacokinetics, a small series discovered that increased skin or muscle thickness delays the absorption of EpiPen AAI.
 

Intranasal Adrenaline

To facilitate rapid adrenaline use and convince reluctant patients to carry and use adrenaline, intranasal, sublingual, or transcutaneous forms are under development.

Three intranasal forms of adrenaline are already well advanced, including Neffy from ARS Pharma, epinephrine sprays from Bryn Pharma and Hikma, and Oxero from Oragoo, which contains dry powder.

A comparison of intranasal adrenaline Neffy and AAI shows that the former has satisfactory pharmacokinetic and pharmacodynamic effects.

In a phase 1 randomized crossover study of 42 healthy adults comparing the pharmacokinetic effects of Neffy adrenaline (2 mg) and EpiPen (0.3 mg), as well as IM epinephrine 0.3 mg, several observations were made. For a single dose, the maximum concentration (Cmax) of Neffy was lower than that of EpiPen.

However, with repeated doses administered 10 minutes apart, the Cmax of Neffy was higher than that of EpiPen. At this stage, pharmacodynamic responses to intranasal products are at least comparable with those of approved injectable products.

A comparison of the pharmacodynamic effects, such as systolic and diastolic blood pressures and heart rate, of Neffy adrenaline and AAI concluded that the profile of Neffy is comparable with that of EpiPen and superior to that of IM epinephrine.

In patients with a history of allergic rhinitis, adrenaline Cmax appears to be increased, while time to peak plasma concentration (Tmax) is reduced. Low blood pressure does not prevent Neffy absorption. Neffy is currently under review by the American and European health authorities.

Intranasal absorption of dry powder adrenaline appears to be faster than that of EpiPen, thus offering a clinical advantage in the short therapeutic window for anaphylaxis treatment.

In an open-label trial conducted on 12 adults with seasonal allergic rhinitis without asthma, the pharmacokinetics, pharmacodynamics, and safety of adrenaline were compared between FMXIN002 (1.6 and 3.2 mg), which was administered intranasally with or without nasal allergen challenge, and IM EpiPen 0.3 mg. Pharmacokinetics varied by patient. Nevertheless, nasal FMXIN002 had a shorter Tmax, a doubled Cmax after the allergen challenge peak, and a higher area under the curve in the 8 hours following administration compared with EpiPen. Pharmacodynamic effects comparable with those of EpiPen were noted at 15 minutes to 4 hours after administration. The tolerance was good, with mild and local side effects. The powder seems to deposit slightly better in the nasal cavity. It remains stable for 6 months at a temperature of 40 °C and relative humidity of 75% and for 2 years at a temperature of 25 °C and relative humidity of 60%.
 

Sublingual Adrenaline Film

AQST-109 is a sublingual film that is intended to allow rapid administration of epinephrine 1, which is a prodrug of adrenaline. The product is the size of a postage stamp, weighs < 30 g, and dissolves on contact with the tongue.

The EPIPHAST II study was a phase 1, multiperiod, crossover study conducted on 24 healthy adults (age, 24-49 years) who were randomly assigned to receive either 12 or 0.3 mg of AQST-109  of manual IM adrenaline in the first two periods. All participants received 0.3 mg of EpiPen in the last period.

EpiPen 0.3 mg resulted in a higher Cmax than AQST-109 12 mg. AQST-109 12 mg had the fastest median Tmax of 12 minutes. The areas under the curve of AQST-109 12 mg fell between those of EpiPen 0.3 mg and manual IM adrenaline 0.3 mg.

Early increases in systolic blood pressure, diastolic blood pressure, and heart rate were observed with AQST-109 12 mg. Changes were more pronounced with AQST-109 12 mg despite a higher Cmax with EpiPen 0.3 mg.

Part 3 of the EPIPHAST study evaluated the impact of food exposure (ie, a peanut butter sandwich) on the pharmacokinetics of AQST-109 12 mg in 24 healthy adults. Oral food residues did not significantly affect pharmacodynamic parameters, and no treatment-related adverse events were reported.

Researchers concluded that AQST-109 12 mg absorption would not be altered by “real” situations if used during meals. “These results suggest that the sublingual adrenaline film could be promising in real situations,” said Dr. Neukirch, especially in cases of food allergy with recent ingestion of the allergenic food.
 

Transcutaneous Adrenaline

A transcutaneous form of adrenaline that uses the Zeneo device developed by Crossject, a company based in Dijon, France, comes in the form of an AAI that requires no needle. This project, funded by the European Union, uses a gas generator to propel the drug at very high speed through the skin in 50 milliseconds. This method allows for extended drug storage.

Dr. Neukirch reported financial relationships with Viatris, Stallergènes, ALK, Astrazeneca, Sanofi, GSK, and Novartis.

This story was translated from the Medscape French edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

PARIS — While anaphylaxis requires immediate adrenaline administration through autoinjection, the use of this treatment is not optimal. Therefore, the development of new adrenaline formulations (such as for intranasal, sublingual, and transcutaneous routes) aims to facilitate the drug’s use and reduce persistent delays in administration by patients and caregivers. An overview of the research was presented at the 19th French-speaking Congress of Allergology.

Anaphylaxis is a severe and potentially fatal immediate hypersensitivity reaction with highly variable and dynamic clinical presentations. It requires prompt recognition for immediate treatment with intramuscular (IM) adrenaline (at the anterolateral aspect of the mid-thigh).

One might think that this reflex is acquired, but in France, while the number of prescribed adrenaline autoinjection (AAI) devices has been increasing for a decade, reaching 965,944 units in 2022, this first-line treatment is underused. Anapen (150, 300, and 500 µg), EpiPen (150 and 300 µg), Jext (150 µg and 300 µg), and Emerade (150, 300, and 500 µg) are the four products marketed in France in 2024.

“Only 17.3% of individuals presenting to the emergency department in the Lorraine region used it in 2015,” said Catherine Neukirch, MD, a pneumologist at Hôpital Bichat–Claude Bernard in Paris, France, with rates of 11.3% for children and 20.3% for adults.
 

Anaphylaxis Incidence Increasing

Approximately 0.3% (95% CI, 0.1-0.5) of the population will experience an anaphylaxis episode in their lifetime. Incidence in Europe, across all causes, is estimated between 1.5 and 7.9 cases per 100,000 inhabitants per year. Although anaphylaxis is on the rise, its associated mortality remains low, ranging between 0.05 and 0.51 per million per year for drugs, between 0.03 and 0.32 per million per year for foods, and between 0.09 and 0.13 per million per year for hymenopteran venoms.

Data from the European Anaphylaxis Registry indicate that anaphylaxis manifests rapidly after allergen exposure: 55% of cases occur within 10 minutes and 80% within 30 minutes. In addition, a biphasic reaction, which can occur up to 72 hours after exposure, is observed in < 5% of cases.

While a delay in adrenaline use is associated with risk for increased morbidity and mortality, AAI significantly reduces error rates compared with manual treatments involving ampoules, needles, and syringes. It also reduces the associated panic risks. However, there are multiple barriers to adrenaline use. The clinical symptoms of anaphylaxis may be misleading, especially if it occurs without cutaneous and urticarial manifestations but with only acute bronchospasm. It may present as isolated laryngeal edema without digestive involvement, hypotension, or other respiratory problems.

Other limitations to adrenaline use include technical difficulties and the possibility of incorrect administration, the need for appropriate needle sizes for patients with obesity, needle phobia, potential adverse effects of adrenaline injections, failure to carry two autoinjectors, constraints related to storage and bulky transport, as well as the need for training and practice.

“These factors contribute to underuse of adrenaline by patients and caregivers,” said Dr. Neukirch, which results in delays in necessary administration.
 

Adrenaline Treatment Criteria?

An analysis published in 2023 based on pharmacovigilance data from 30 regional French centers from 1984 to 2022 included 42 reported cases (average age, 33 years; 26% children) of reactions to AAI, which probably is an underestimate. About 40% of AAI uses occurred during anaphylaxis. The remaining 60% were triggered outside of reactions. The main reasons were accidental injections, mainly in the fingers, and cases of not triggering the autoinjector, underlining the importance of patient education.

In 2015, the European Medicines Agency required pharmacological studies for injectable adrenaline on healthy volunteers. These studies include ultrasound measurements of bolus injection, pharmacokinetics (ie, absorption, distribution, metabolism, and excretion), and pharmacodynamics (ie, the effect of the drug and the mechanism of action in the body), with precise evaluation of cardiovascular effects (eg, systolic and diastolic blood pressures and heart rate).

Among the information collected with the different products, ultrasound studies have shown a different localization of the adrenaline bolus (ie, in muscle in patients with normal BMI and mostly in adipose tissue in patients with BMI indicating overweight and obesity). The consequences of this finding are still unknown.

In a study with 500 µg Anapen, women with overweight or obesity showed different pharmacokinetic or pharmacodynamic profiles from those in men with normal weight, with an increase in the area under the curve (0-240 min) and marked changes in the heart rate time curve.

IM administration of 0.5 mg produces rapid pharmacokinetic effects in patients with normal weight, overweight, or obesity, with a delay for the second peak in the latter case. This delay perhaps results from initial local vasoconstriction due to adrenaline.

The early peak plasma concentration occurs at 5-10 minutes for AAI, with a faster speed for Anapen and EpiPen.

Moreover, needle size is not the most important factor. Rather, it is the strength and speed of injection, which can vary depending on the AAI.

Also, the optimal plasma concentration of adrenaline to treat anaphylaxis is not known; studies cannot be conducted during anaphylaxis. In terms of pharmacokinetics, a small series discovered that increased skin or muscle thickness delays the absorption of EpiPen AAI.
 

Intranasal Adrenaline

To facilitate rapid adrenaline use and convince reluctant patients to carry and use adrenaline, intranasal, sublingual, or transcutaneous forms are under development.

Three intranasal forms of adrenaline are already well advanced, including Neffy from ARS Pharma, epinephrine sprays from Bryn Pharma and Hikma, and Oxero from Oragoo, which contains dry powder.

A comparison of intranasal adrenaline Neffy and AAI shows that the former has satisfactory pharmacokinetic and pharmacodynamic effects.

In a phase 1 randomized crossover study of 42 healthy adults comparing the pharmacokinetic effects of Neffy adrenaline (2 mg) and EpiPen (0.3 mg), as well as IM epinephrine 0.3 mg, several observations were made. For a single dose, the maximum concentration (Cmax) of Neffy was lower than that of EpiPen.

However, with repeated doses administered 10 minutes apart, the Cmax of Neffy was higher than that of EpiPen. At this stage, pharmacodynamic responses to intranasal products are at least comparable with those of approved injectable products.

A comparison of the pharmacodynamic effects, such as systolic and diastolic blood pressures and heart rate, of Neffy adrenaline and AAI concluded that the profile of Neffy is comparable with that of EpiPen and superior to that of IM epinephrine.

In patients with a history of allergic rhinitis, adrenaline Cmax appears to be increased, while time to peak plasma concentration (Tmax) is reduced. Low blood pressure does not prevent Neffy absorption. Neffy is currently under review by the American and European health authorities.

Intranasal absorption of dry powder adrenaline appears to be faster than that of EpiPen, thus offering a clinical advantage in the short therapeutic window for anaphylaxis treatment.

In an open-label trial conducted on 12 adults with seasonal allergic rhinitis without asthma, the pharmacokinetics, pharmacodynamics, and safety of adrenaline were compared between FMXIN002 (1.6 and 3.2 mg), which was administered intranasally with or without nasal allergen challenge, and IM EpiPen 0.3 mg. Pharmacokinetics varied by patient. Nevertheless, nasal FMXIN002 had a shorter Tmax, a doubled Cmax after the allergen challenge peak, and a higher area under the curve in the 8 hours following administration compared with EpiPen. Pharmacodynamic effects comparable with those of EpiPen were noted at 15 minutes to 4 hours after administration. The tolerance was good, with mild and local side effects. The powder seems to deposit slightly better in the nasal cavity. It remains stable for 6 months at a temperature of 40 °C and relative humidity of 75% and for 2 years at a temperature of 25 °C and relative humidity of 60%.
 

Sublingual Adrenaline Film

AQST-109 is a sublingual film that is intended to allow rapid administration of epinephrine 1, which is a prodrug of adrenaline. The product is the size of a postage stamp, weighs < 30 g, and dissolves on contact with the tongue.

The EPIPHAST II study was a phase 1, multiperiod, crossover study conducted on 24 healthy adults (age, 24-49 years) who were randomly assigned to receive either 12 or 0.3 mg of AQST-109  of manual IM adrenaline in the first two periods. All participants received 0.3 mg of EpiPen in the last period.

EpiPen 0.3 mg resulted in a higher Cmax than AQST-109 12 mg. AQST-109 12 mg had the fastest median Tmax of 12 minutes. The areas under the curve of AQST-109 12 mg fell between those of EpiPen 0.3 mg and manual IM adrenaline 0.3 mg.

Early increases in systolic blood pressure, diastolic blood pressure, and heart rate were observed with AQST-109 12 mg. Changes were more pronounced with AQST-109 12 mg despite a higher Cmax with EpiPen 0.3 mg.

Part 3 of the EPIPHAST study evaluated the impact of food exposure (ie, a peanut butter sandwich) on the pharmacokinetics of AQST-109 12 mg in 24 healthy adults. Oral food residues did not significantly affect pharmacodynamic parameters, and no treatment-related adverse events were reported.

Researchers concluded that AQST-109 12 mg absorption would not be altered by “real” situations if used during meals. “These results suggest that the sublingual adrenaline film could be promising in real situations,” said Dr. Neukirch, especially in cases of food allergy with recent ingestion of the allergenic food.
 

Transcutaneous Adrenaline

A transcutaneous form of adrenaline that uses the Zeneo device developed by Crossject, a company based in Dijon, France, comes in the form of an AAI that requires no needle. This project, funded by the European Union, uses a gas generator to propel the drug at very high speed through the skin in 50 milliseconds. This method allows for extended drug storage.

Dr. Neukirch reported financial relationships with Viatris, Stallergènes, ALK, Astrazeneca, Sanofi, GSK, and Novartis.

This story was translated from the Medscape French edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

PARIS — While anaphylaxis requires immediate adrenaline administration through autoinjection, the use of this treatment is not optimal. Therefore, the development of new adrenaline formulations (such as for intranasal, sublingual, and transcutaneous routes) aims to facilitate the drug’s use and reduce persistent delays in administration by patients and caregivers. An overview of the research was presented at the 19th French-speaking Congress of Allergology.

Anaphylaxis is a severe and potentially fatal immediate hypersensitivity reaction with highly variable and dynamic clinical presentations. It requires prompt recognition for immediate treatment with intramuscular (IM) adrenaline (at the anterolateral aspect of the mid-thigh).

One might think that this reflex is acquired, but in France, while the number of prescribed adrenaline autoinjection (AAI) devices has been increasing for a decade, reaching 965,944 units in 2022, this first-line treatment is underused. Anapen (150, 300, and 500 µg), EpiPen (150 and 300 µg), Jext (150 µg and 300 µg), and Emerade (150, 300, and 500 µg) are the four products marketed in France in 2024.

“Only 17.3% of individuals presenting to the emergency department in the Lorraine region used it in 2015,” said Catherine Neukirch, MD, a pneumologist at Hôpital Bichat–Claude Bernard in Paris, France, with rates of 11.3% for children and 20.3% for adults.
 

Anaphylaxis Incidence Increasing

Approximately 0.3% (95% CI, 0.1-0.5) of the population will experience an anaphylaxis episode in their lifetime. Incidence in Europe, across all causes, is estimated between 1.5 and 7.9 cases per 100,000 inhabitants per year. Although anaphylaxis is on the rise, its associated mortality remains low, ranging between 0.05 and 0.51 per million per year for drugs, between 0.03 and 0.32 per million per year for foods, and between 0.09 and 0.13 per million per year for hymenopteran venoms.

Data from the European Anaphylaxis Registry indicate that anaphylaxis manifests rapidly after allergen exposure: 55% of cases occur within 10 minutes and 80% within 30 minutes. In addition, a biphasic reaction, which can occur up to 72 hours after exposure, is observed in < 5% of cases.

While a delay in adrenaline use is associated with risk for increased morbidity and mortality, AAI significantly reduces error rates compared with manual treatments involving ampoules, needles, and syringes. It also reduces the associated panic risks. However, there are multiple barriers to adrenaline use. The clinical symptoms of anaphylaxis may be misleading, especially if it occurs without cutaneous and urticarial manifestations but with only acute bronchospasm. It may present as isolated laryngeal edema without digestive involvement, hypotension, or other respiratory problems.

Other limitations to adrenaline use include technical difficulties and the possibility of incorrect administration, the need for appropriate needle sizes for patients with obesity, needle phobia, potential adverse effects of adrenaline injections, failure to carry two autoinjectors, constraints related to storage and bulky transport, as well as the need for training and practice.

“These factors contribute to underuse of adrenaline by patients and caregivers,” said Dr. Neukirch, which results in delays in necessary administration.
 

Adrenaline Treatment Criteria?

An analysis published in 2023 based on pharmacovigilance data from 30 regional French centers from 1984 to 2022 included 42 reported cases (average age, 33 years; 26% children) of reactions to AAI, which probably is an underestimate. About 40% of AAI uses occurred during anaphylaxis. The remaining 60% were triggered outside of reactions. The main reasons were accidental injections, mainly in the fingers, and cases of not triggering the autoinjector, underlining the importance of patient education.

In 2015, the European Medicines Agency required pharmacological studies for injectable adrenaline on healthy volunteers. These studies include ultrasound measurements of bolus injection, pharmacokinetics (ie, absorption, distribution, metabolism, and excretion), and pharmacodynamics (ie, the effect of the drug and the mechanism of action in the body), with precise evaluation of cardiovascular effects (eg, systolic and diastolic blood pressures and heart rate).

Among the information collected with the different products, ultrasound studies have shown a different localization of the adrenaline bolus (ie, in muscle in patients with normal BMI and mostly in adipose tissue in patients with BMI indicating overweight and obesity). The consequences of this finding are still unknown.

In a study with 500 µg Anapen, women with overweight or obesity showed different pharmacokinetic or pharmacodynamic profiles from those in men with normal weight, with an increase in the area under the curve (0-240 min) and marked changes in the heart rate time curve.

IM administration of 0.5 mg produces rapid pharmacokinetic effects in patients with normal weight, overweight, or obesity, with a delay for the second peak in the latter case. This delay perhaps results from initial local vasoconstriction due to adrenaline.

The early peak plasma concentration occurs at 5-10 minutes for AAI, with a faster speed for Anapen and EpiPen.

Moreover, needle size is not the most important factor. Rather, it is the strength and speed of injection, which can vary depending on the AAI.

Also, the optimal plasma concentration of adrenaline to treat anaphylaxis is not known; studies cannot be conducted during anaphylaxis. In terms of pharmacokinetics, a small series discovered that increased skin or muscle thickness delays the absorption of EpiPen AAI.
 

Intranasal Adrenaline

To facilitate rapid adrenaline use and convince reluctant patients to carry and use adrenaline, intranasal, sublingual, or transcutaneous forms are under development.

Three intranasal forms of adrenaline are already well advanced, including Neffy from ARS Pharma, epinephrine sprays from Bryn Pharma and Hikma, and Oxero from Oragoo, which contains dry powder.

A comparison of intranasal adrenaline Neffy and AAI shows that the former has satisfactory pharmacokinetic and pharmacodynamic effects.

In a phase 1 randomized crossover study of 42 healthy adults comparing the pharmacokinetic effects of Neffy adrenaline (2 mg) and EpiPen (0.3 mg), as well as IM epinephrine 0.3 mg, several observations were made. For a single dose, the maximum concentration (Cmax) of Neffy was lower than that of EpiPen.

However, with repeated doses administered 10 minutes apart, the Cmax of Neffy was higher than that of EpiPen. At this stage, pharmacodynamic responses to intranasal products are at least comparable with those of approved injectable products.

A comparison of the pharmacodynamic effects, such as systolic and diastolic blood pressures and heart rate, of Neffy adrenaline and AAI concluded that the profile of Neffy is comparable with that of EpiPen and superior to that of IM epinephrine.

In patients with a history of allergic rhinitis, adrenaline Cmax appears to be increased, while time to peak plasma concentration (Tmax) is reduced. Low blood pressure does not prevent Neffy absorption. Neffy is currently under review by the American and European health authorities.

Intranasal absorption of dry powder adrenaline appears to be faster than that of EpiPen, thus offering a clinical advantage in the short therapeutic window for anaphylaxis treatment.

In an open-label trial conducted on 12 adults with seasonal allergic rhinitis without asthma, the pharmacokinetics, pharmacodynamics, and safety of adrenaline were compared between FMXIN002 (1.6 and 3.2 mg), which was administered intranasally with or without nasal allergen challenge, and IM EpiPen 0.3 mg. Pharmacokinetics varied by patient. Nevertheless, nasal FMXIN002 had a shorter Tmax, a doubled Cmax after the allergen challenge peak, and a higher area under the curve in the 8 hours following administration compared with EpiPen. Pharmacodynamic effects comparable with those of EpiPen were noted at 15 minutes to 4 hours after administration. The tolerance was good, with mild and local side effects. The powder seems to deposit slightly better in the nasal cavity. It remains stable for 6 months at a temperature of 40 °C and relative humidity of 75% and for 2 years at a temperature of 25 °C and relative humidity of 60%.
 

Sublingual Adrenaline Film

AQST-109 is a sublingual film that is intended to allow rapid administration of epinephrine 1, which is a prodrug of adrenaline. The product is the size of a postage stamp, weighs < 30 g, and dissolves on contact with the tongue.

The EPIPHAST II study was a phase 1, multiperiod, crossover study conducted on 24 healthy adults (age, 24-49 years) who were randomly assigned to receive either 12 or 0.3 mg of AQST-109  of manual IM adrenaline in the first two periods. All participants received 0.3 mg of EpiPen in the last period.

EpiPen 0.3 mg resulted in a higher Cmax than AQST-109 12 mg. AQST-109 12 mg had the fastest median Tmax of 12 minutes. The areas under the curve of AQST-109 12 mg fell between those of EpiPen 0.3 mg and manual IM adrenaline 0.3 mg.

Early increases in systolic blood pressure, diastolic blood pressure, and heart rate were observed with AQST-109 12 mg. Changes were more pronounced with AQST-109 12 mg despite a higher Cmax with EpiPen 0.3 mg.

Part 3 of the EPIPHAST study evaluated the impact of food exposure (ie, a peanut butter sandwich) on the pharmacokinetics of AQST-109 12 mg in 24 healthy adults. Oral food residues did not significantly affect pharmacodynamic parameters, and no treatment-related adverse events were reported.

Researchers concluded that AQST-109 12 mg absorption would not be altered by “real” situations if used during meals. “These results suggest that the sublingual adrenaline film could be promising in real situations,” said Dr. Neukirch, especially in cases of food allergy with recent ingestion of the allergenic food.
 

Transcutaneous Adrenaline

A transcutaneous form of adrenaline that uses the Zeneo device developed by Crossject, a company based in Dijon, France, comes in the form of an AAI that requires no needle. This project, funded by the European Union, uses a gas generator to propel the drug at very high speed through the skin in 50 milliseconds. This method allows for extended drug storage.

Dr. Neukirch reported financial relationships with Viatris, Stallergènes, ALK, Astrazeneca, Sanofi, GSK, and Novartis.

This story was translated from the Medscape French edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

SAN DIEGO — While there is currently no smoking gun definitively showing that indoor nitrogen dioxide (NO₂) concentrations from gas appliances are a cause of pulmonary diseases, the circumstantial evidence of the baleful effects of gas stoves on lung function is pretty compelling, said participants in a pro-con debate.

In what the moderator called “one of the most agreeable debates yet,” experts presented their views on the risks that cooking with natural gas pose on pulmonary health, and discussed ways for mitigating that harm. The debate was held at the American Thoracic Society’s international conference.
 

PRO: Gas stoves cause lung disease

Arguing for the “pro” side, John R. Balmes, MD of the University of California, San Francisco, and a physician member of the California Air Resources Board, began by admitting that “I would never have said gas stoves cause lung disease, but that’s what they assigned me.”

Gamely proceeding anyway, Dr. Balmes noted that natural gas — methane — is a potent greenhouse gas, and that cooking with natural gas leads to generation of NO₂ with high peak concentrations in the home, especially in the kitchen, but in other rooms as well.

Neil Osterweil/MDedge News

Con: More evidence needed

Arguing for the “con” side of the question, Meredith C. McCormack, MD, MHS, professor of medicine in the pulmonary and critical care division at Johns Hopkins University in Baltimore, said that “more definitive evidence is needed to define whether gas stoves cause lung disease.”

But Dr. McCormack didn’t let the natural gas industry off the hook, noting that a systematic review and meta-analysis of cooking with gas in high-, middle-, and low-income countries showed that domestic use of gas fuels vs. electric was associated with increased risk of asthma (1.11 overall), COPD (1.15), and pneumonia (1.26).

Neil Osterweil/MDedge News

On common ground

Environmental interventions that can benefit all members of a household — not just those with obstructive pulmonary disease — include smoking cessation, charcoal filter-equipped air cleaners, stove hoods that vent outdoors, integrated pest management, hypoallergenic pillow and mattress covers, high efficiency particulate air (HEPA) vacuums, and mold and radon abatement.

Both Dr. Balmes and Dr. McCormack agreed in the end that gas stoves contribute to respiratory morbidity, and that both state and national policy changes are needed to support transition to cleaner indoor air, with financial incentives available for households with more modest incomes.

“For everyone, there is a climate-change mitigation imperative to transition away from gas appliances if we want to tackle the climate emergency,” Dr. Balmes said.
 

End indoor combustion

George D. Thurston, ScD, professor of medicine and population health at the NYU Grossman School of Medicine, who attended the debate, told Chest Physician that the participants talked about NO₂ but didn’t touch on particulate pollution generated by gas stoves.

Burning natural gas produces particles that are very similar in composition to those produced by burning coal, oil, or diesel fuel, Dr. Thurston said, and he pointed out that interventions such as range hoods work only if they actually vent outdoors, and aren’t simply fans that recirculate the air within the home. And even when ventilation works as it should to move air out of the house, it only pumps it back into the atmosphere, where it contributes to climate change.

“We need combustion-free homes. That’s the unifying principle. We have to keep our eyes on that prize,” he said.

Dr. Balmes, Dr. McCormack, and Dr. Thurston all reported having no relevant disclosures.

SAN DIEGO — While there is currently no smoking gun definitively showing that indoor nitrogen dioxide (NO₂) concentrations from gas appliances are a cause of pulmonary diseases, the circumstantial evidence of the baleful effects of gas stoves on lung function is pretty compelling, said participants in a pro-con debate.

In what the moderator called “one of the most agreeable debates yet,” experts presented their views on the risks that cooking with natural gas pose on pulmonary health, and discussed ways for mitigating that harm. The debate was held at the American Thoracic Society’s international conference.
 

PRO: Gas stoves cause lung disease

Arguing for the “pro” side, John R. Balmes, MD of the University of California, San Francisco, and a physician member of the California Air Resources Board, began by admitting that “I would never have said gas stoves cause lung disease, but that’s what they assigned me.”

Gamely proceeding anyway, Dr. Balmes noted that natural gas — methane — is a potent greenhouse gas, and that cooking with natural gas leads to generation of NO₂ with high peak concentrations in the home, especially in the kitchen, but in other rooms as well.

Neil Osterweil/MDedge News

Con: More evidence needed

Arguing for the “con” side of the question, Meredith C. McCormack, MD, MHS, professor of medicine in the pulmonary and critical care division at Johns Hopkins University in Baltimore, said that “more definitive evidence is needed to define whether gas stoves cause lung disease.”

But Dr. McCormack didn’t let the natural gas industry off the hook, noting that a systematic review and meta-analysis of cooking with gas in high-, middle-, and low-income countries showed that domestic use of gas fuels vs. electric was associated with increased risk of asthma (1.11 overall), COPD (1.15), and pneumonia (1.26).

Neil Osterweil/MDedge News

On common ground

Environmental interventions that can benefit all members of a household — not just those with obstructive pulmonary disease — include smoking cessation, charcoal filter-equipped air cleaners, stove hoods that vent outdoors, integrated pest management, hypoallergenic pillow and mattress covers, high efficiency particulate air (HEPA) vacuums, and mold and radon abatement.

Both Dr. Balmes and Dr. McCormack agreed in the end that gas stoves contribute to respiratory morbidity, and that both state and national policy changes are needed to support transition to cleaner indoor air, with financial incentives available for households with more modest incomes.

“For everyone, there is a climate-change mitigation imperative to transition away from gas appliances if we want to tackle the climate emergency,” Dr. Balmes said.
 

End indoor combustion

George D. Thurston, ScD, professor of medicine and population health at the NYU Grossman School of Medicine, who attended the debate, told Chest Physician that the participants talked about NO₂ but didn’t touch on particulate pollution generated by gas stoves.

Burning natural gas produces particles that are very similar in composition to those produced by burning coal, oil, or diesel fuel, Dr. Thurston said, and he pointed out that interventions such as range hoods work only if they actually vent outdoors, and aren’t simply fans that recirculate the air within the home. And even when ventilation works as it should to move air out of the house, it only pumps it back into the atmosphere, where it contributes to climate change.

“We need combustion-free homes. That’s the unifying principle. We have to keep our eyes on that prize,” he said.

Dr. Balmes, Dr. McCormack, and Dr. Thurston all reported having no relevant disclosures.

SAN DIEGO — While there is currently no smoking gun definitively showing that indoor nitrogen dioxide (NO₂) concentrations from gas appliances are a cause of pulmonary diseases, the circumstantial evidence of the baleful effects of gas stoves on lung function is pretty compelling, said participants in a pro-con debate.

In what the moderator called “one of the most agreeable debates yet,” experts presented their views on the risks that cooking with natural gas pose on pulmonary health, and discussed ways for mitigating that harm. The debate was held at the American Thoracic Society’s international conference.
 

PRO: Gas stoves cause lung disease

Arguing for the “pro” side, John R. Balmes, MD of the University of California, San Francisco, and a physician member of the California Air Resources Board, began by admitting that “I would never have said gas stoves cause lung disease, but that’s what they assigned me.”

Gamely proceeding anyway, Dr. Balmes noted that natural gas — methane — is a potent greenhouse gas, and that cooking with natural gas leads to generation of NO₂ with high peak concentrations in the home, especially in the kitchen, but in other rooms as well.

Neil Osterweil/MDedge News

Con: More evidence needed

Arguing for the “con” side of the question, Meredith C. McCormack, MD, MHS, professor of medicine in the pulmonary and critical care division at Johns Hopkins University in Baltimore, said that “more definitive evidence is needed to define whether gas stoves cause lung disease.”

But Dr. McCormack didn’t let the natural gas industry off the hook, noting that a systematic review and meta-analysis of cooking with gas in high-, middle-, and low-income countries showed that domestic use of gas fuels vs. electric was associated with increased risk of asthma (1.11 overall), COPD (1.15), and pneumonia (1.26).

Neil Osterweil/MDedge News

On common ground

Environmental interventions that can benefit all members of a household — not just those with obstructive pulmonary disease — include smoking cessation, charcoal filter-equipped air cleaners, stove hoods that vent outdoors, integrated pest management, hypoallergenic pillow and mattress covers, high efficiency particulate air (HEPA) vacuums, and mold and radon abatement.

Both Dr. Balmes and Dr. McCormack agreed in the end that gas stoves contribute to respiratory morbidity, and that both state and national policy changes are needed to support transition to cleaner indoor air, with financial incentives available for households with more modest incomes.

“For everyone, there is a climate-change mitigation imperative to transition away from gas appliances if we want to tackle the climate emergency,” Dr. Balmes said.
 

End indoor combustion

George D. Thurston, ScD, professor of medicine and population health at the NYU Grossman School of Medicine, who attended the debate, told Chest Physician that the participants talked about NO₂ but didn’t touch on particulate pollution generated by gas stoves.

Burning natural gas produces particles that are very similar in composition to those produced by burning coal, oil, or diesel fuel, Dr. Thurston said, and he pointed out that interventions such as range hoods work only if they actually vent outdoors, and aren’t simply fans that recirculate the air within the home. And even when ventilation works as it should to move air out of the house, it only pumps it back into the atmosphere, where it contributes to climate change.

“We need combustion-free homes. That’s the unifying principle. We have to keep our eyes on that prize,” he said.

Dr. Balmes, Dr. McCormack, and Dr. Thurston all reported having no relevant disclosures.

SAN DIEGO — Patients with idiopathic pulmonary fibrosis (IPF) had significant improvements in lung function and reversal of lung fibrosis measures after 12 weeks of therapy with an investigational inhibitor of the Hedgehog signaling pathway.

Early efficacy data from a phase 2a safety trial suggest that the novel oral agent, dubbed ENV-101, is associated with improvements in forced vital capacity (FVC) and other measures of lung function, and may be a disease-modifying therapy for IPF, according to Toby M. Maher, MD, PhD, director of the interstitial lung disease program at Keck School of Medicine, University of Southern California, Los Angeles. Dr. Maher presented the results at the American Thoracic Society’s international conference.

“Historically we’ve not been seeing improvements in FVC, which is what we’ve been seeing [with ENV-101], and I think it’s conceivable that you can get remodeling of early areas of fibrosis in the lung,” Dr. Maher said in an interview with Chest Physician.

“We know from histology studies that if you look at IPF lungs you’ll see areas of end-stage fibrosis, but even in advanced disease you’ll see areas where the lung is relatively well preserved and there’s early fibrosis, so I think it’s conceivable that there is remodeling of some of those early areas of fibrosis,” he said.
 

Vital pathway

The Hedgehog pathway is highly conserved in evolution. The cell-signaling pathway is active embryogenesis, tissue proliferation, and organ development. There is also evidence to suggest that in adult the pathway becomes reactivated following tissue injury, as can occur in lung epithelia, Dr. Maher explained.

Although as the word “idiopathic” in IPF indicates the etiology of the disease is unknown, investigators have found that in IPF repetitive epithelial injury to lung tissue leads to activation of the Hedgehog pathway. Hedgehog signaling in turn induces formation and activation of myofibroblasts that lay down fibrotic matrix and contract lung tissue, leading to significant impairments in gas exchange, Dr. Maher said.

ENV-101 blocks Hedgehog from binding to the PTCH1 receptor, preventing release of the zinc-finger protein GLI1 from the kinase complex into the cell cytoplasm. With signaling blocked, myofibroblasts undergo apoptosis instead of initiating wound repair as they normally would, thereby eliminating an evident mechanism of IPF pathology, he explained.
 

Study details

In the phase 2a trial, investigators enrolled patients with IPF who were not taking antifibrotic agents and who had a percent predicted FVC greater than 50%, percent predicted diffusing capacity for carbon monoxide (DLCO) of at least 35%, and life expectancy of more than 1 year.

The patients were randomized to receive 200 mg oral ENV-101 daily (18 patients) or placebo (15 patients) for 12 weeks.

The primary endpoint of the trial was safety of the experimental agent. A previous phase 1b study of a different Hedgehog inhibitor — vismodegib (Erivedge), in combination with the antifibrotic agent pirfenidone (Pirespa) — in patients with IPF was discontinued because of poor tolerability.

In the current study, the most common treatment-related adverse events were dysgeusia in 57% of patients who received the drug, alopecia in 52%, and muscle spasms in 43%. The spasms were generally less severe than those seen in the vismodegib/pirfenidone trial mentioned above.

Seven patients (33%) had treatment-emergent events leading to dose interruption. Five patients discontinued treatment: one who withdrew because of taste alterations, one who was lost to follow-up after an IPF exacerbation, and three who withdrew consent.

There were no treatment-related deaths, and no clinically significant findings on labs, vital signs, electrocardiograms, or physical exam.
 

Efficacy endpoints

An analysis of the secondary efficacy endpoints showed a 1.9% mean improvement in FVC from baseline among patients assigned to ENV-101, compared with a mean decline of 1.3% of patients assigned to placebo (P = .035).

Patients on the active drug also had a 200-mL mean increase in total lung capacity, compared with a mean decline of 56 mL for patients on placebo (P = .005).

In addition, high-resolution CR studies showed a 9.4% absolute decrease from baseline in quantitative interstitial lung disease with ENV-101, vs. a 1.1% increase among controls, a 2% absolute decline from baseline in quantitative lung fibrosis compared with a 0.87% increase with placebo, and a 4.6% absolute decrease from baseline in quantitative ground glass, compared with an increase of 0.29% with placebo.
 

Bad taste a good sign?

Reinoud Gosens PhD, University of Groningen, the Netherlands, who co-moderated the session but was not involved in the study, questioned whether the dysgeusia seen in patients who received ENV-101 might be related to the dysgeusia seen in clinical trials of P2X3 receptor antagonists for cough.

“I was wondering if there would be a mechanistic overlap between Hedgehog inhibition and cough, which would be quite relevant for IPF,” he said in an interview.

The increase in FVC seen with ENV-101 and with the investigational agent buloxibutid, a novel angiotensin II type 2 receptor agonist described in a separate presentation by Dr. Maher, suggests that these drugs may have the ability to help remodel damaged lungs, Dr. Gosens said.

Investigators are currently planning a phase 2 dose-ranging trial (WHISTLE-PF) in patients with IPF or progressive pulmonary fibrosis.

The phase 2a trial was supported by Endeavor BioMedicines. Dr. Maher disclosed consultancy or speaker fees from Endeavor and others. Dr. Gosens had no relevant disclosures.

SAN DIEGO — Patients with idiopathic pulmonary fibrosis (IPF) had significant improvements in lung function and reversal of lung fibrosis measures after 12 weeks of therapy with an investigational inhibitor of the Hedgehog signaling pathway.

Early efficacy data from a phase 2a safety trial suggest that the novel oral agent, dubbed ENV-101, is associated with improvements in forced vital capacity (FVC) and other measures of lung function, and may be a disease-modifying therapy for IPF, according to Toby M. Maher, MD, PhD, director of the interstitial lung disease program at Keck School of Medicine, University of Southern California, Los Angeles. Dr. Maher presented the results at the American Thoracic Society’s international conference.

“Historically we’ve not been seeing improvements in FVC, which is what we’ve been seeing [with ENV-101], and I think it’s conceivable that you can get remodeling of early areas of fibrosis in the lung,” Dr. Maher said in an interview with Chest Physician.

“We know from histology studies that if you look at IPF lungs you’ll see areas of end-stage fibrosis, but even in advanced disease you’ll see areas where the lung is relatively well preserved and there’s early fibrosis, so I think it’s conceivable that there is remodeling of some of those early areas of fibrosis,” he said.
 

Vital pathway

The Hedgehog pathway is highly conserved in evolution. The cell-signaling pathway is active embryogenesis, tissue proliferation, and organ development. There is also evidence to suggest that in adult the pathway becomes reactivated following tissue injury, as can occur in lung epithelia, Dr. Maher explained.

Although as the word “idiopathic” in IPF indicates the etiology of the disease is unknown, investigators have found that in IPF repetitive epithelial injury to lung tissue leads to activation of the Hedgehog pathway. Hedgehog signaling in turn induces formation and activation of myofibroblasts that lay down fibrotic matrix and contract lung tissue, leading to significant impairments in gas exchange, Dr. Maher said.

ENV-101 blocks Hedgehog from binding to the PTCH1 receptor, preventing release of the zinc-finger protein GLI1 from the kinase complex into the cell cytoplasm. With signaling blocked, myofibroblasts undergo apoptosis instead of initiating wound repair as they normally would, thereby eliminating an evident mechanism of IPF pathology, he explained.
 

Study details

In the phase 2a trial, investigators enrolled patients with IPF who were not taking antifibrotic agents and who had a percent predicted FVC greater than 50%, percent predicted diffusing capacity for carbon monoxide (DLCO) of at least 35%, and life expectancy of more than 1 year.

The patients were randomized to receive 200 mg oral ENV-101 daily (18 patients) or placebo (15 patients) for 12 weeks.

The primary endpoint of the trial was safety of the experimental agent. A previous phase 1b study of a different Hedgehog inhibitor — vismodegib (Erivedge), in combination with the antifibrotic agent pirfenidone (Pirespa) — in patients with IPF was discontinued because of poor tolerability.

In the current study, the most common treatment-related adverse events were dysgeusia in 57% of patients who received the drug, alopecia in 52%, and muscle spasms in 43%. The spasms were generally less severe than those seen in the vismodegib/pirfenidone trial mentioned above.

Seven patients (33%) had treatment-emergent events leading to dose interruption. Five patients discontinued treatment: one who withdrew because of taste alterations, one who was lost to follow-up after an IPF exacerbation, and three who withdrew consent.

There were no treatment-related deaths, and no clinically significant findings on labs, vital signs, electrocardiograms, or physical exam.
 

Efficacy endpoints

An analysis of the secondary efficacy endpoints showed a 1.9% mean improvement in FVC from baseline among patients assigned to ENV-101, compared with a mean decline of 1.3% of patients assigned to placebo (P = .035).

Patients on the active drug also had a 200-mL mean increase in total lung capacity, compared with a mean decline of 56 mL for patients on placebo (P = .005).

In addition, high-resolution CR studies showed a 9.4% absolute decrease from baseline in quantitative interstitial lung disease with ENV-101, vs. a 1.1% increase among controls, a 2% absolute decline from baseline in quantitative lung fibrosis compared with a 0.87% increase with placebo, and a 4.6% absolute decrease from baseline in quantitative ground glass, compared with an increase of 0.29% with placebo.
 

Bad taste a good sign?

Reinoud Gosens PhD, University of Groningen, the Netherlands, who co-moderated the session but was not involved in the study, questioned whether the dysgeusia seen in patients who received ENV-101 might be related to the dysgeusia seen in clinical trials of P2X3 receptor antagonists for cough.

“I was wondering if there would be a mechanistic overlap between Hedgehog inhibition and cough, which would be quite relevant for IPF,” he said in an interview.

The increase in FVC seen with ENV-101 and with the investigational agent buloxibutid, a novel angiotensin II type 2 receptor agonist described in a separate presentation by Dr. Maher, suggests that these drugs may have the ability to help remodel damaged lungs, Dr. Gosens said.

Investigators are currently planning a phase 2 dose-ranging trial (WHISTLE-PF) in patients with IPF or progressive pulmonary fibrosis.

The phase 2a trial was supported by Endeavor BioMedicines. Dr. Maher disclosed consultancy or speaker fees from Endeavor and others. Dr. Gosens had no relevant disclosures.

SAN DIEGO — Patients with idiopathic pulmonary fibrosis (IPF) had significant improvements in lung function and reversal of lung fibrosis measures after 12 weeks of therapy with an investigational inhibitor of the Hedgehog signaling pathway.

Early efficacy data from a phase 2a safety trial suggest that the novel oral agent, dubbed ENV-101, is associated with improvements in forced vital capacity (FVC) and other measures of lung function, and may be a disease-modifying therapy for IPF, according to Toby M. Maher, MD, PhD, director of the interstitial lung disease program at Keck School of Medicine, University of Southern California, Los Angeles. Dr. Maher presented the results at the American Thoracic Society’s international conference.

“Historically we’ve not been seeing improvements in FVC, which is what we’ve been seeing [with ENV-101], and I think it’s conceivable that you can get remodeling of early areas of fibrosis in the lung,” Dr. Maher said in an interview with Chest Physician.

“We know from histology studies that if you look at IPF lungs you’ll see areas of end-stage fibrosis, but even in advanced disease you’ll see areas where the lung is relatively well preserved and there’s early fibrosis, so I think it’s conceivable that there is remodeling of some of those early areas of fibrosis,” he said.
 

Vital pathway

The Hedgehog pathway is highly conserved in evolution. The cell-signaling pathway is active embryogenesis, tissue proliferation, and organ development. There is also evidence to suggest that in adult the pathway becomes reactivated following tissue injury, as can occur in lung epithelia, Dr. Maher explained.

Although as the word “idiopathic” in IPF indicates the etiology of the disease is unknown, investigators have found that in IPF repetitive epithelial injury to lung tissue leads to activation of the Hedgehog pathway. Hedgehog signaling in turn induces formation and activation of myofibroblasts that lay down fibrotic matrix and contract lung tissue, leading to significant impairments in gas exchange, Dr. Maher said.

ENV-101 blocks Hedgehog from binding to the PTCH1 receptor, preventing release of the zinc-finger protein GLI1 from the kinase complex into the cell cytoplasm. With signaling blocked, myofibroblasts undergo apoptosis instead of initiating wound repair as they normally would, thereby eliminating an evident mechanism of IPF pathology, he explained.
 

Study details

In the phase 2a trial, investigators enrolled patients with IPF who were not taking antifibrotic agents and who had a percent predicted FVC greater than 50%, percent predicted diffusing capacity for carbon monoxide (DLCO) of at least 35%, and life expectancy of more than 1 year.

The patients were randomized to receive 200 mg oral ENV-101 daily (18 patients) or placebo (15 patients) for 12 weeks.

The primary endpoint of the trial was safety of the experimental agent. A previous phase 1b study of a different Hedgehog inhibitor — vismodegib (Erivedge), in combination with the antifibrotic agent pirfenidone (Pirespa) — in patients with IPF was discontinued because of poor tolerability.

In the current study, the most common treatment-related adverse events were dysgeusia in 57% of patients who received the drug, alopecia in 52%, and muscle spasms in 43%. The spasms were generally less severe than those seen in the vismodegib/pirfenidone trial mentioned above.

Seven patients (33%) had treatment-emergent events leading to dose interruption. Five patients discontinued treatment: one who withdrew because of taste alterations, one who was lost to follow-up after an IPF exacerbation, and three who withdrew consent.

There were no treatment-related deaths, and no clinically significant findings on labs, vital signs, electrocardiograms, or physical exam.
 

Efficacy endpoints

An analysis of the secondary efficacy endpoints showed a 1.9% mean improvement in FVC from baseline among patients assigned to ENV-101, compared with a mean decline of 1.3% of patients assigned to placebo (P = .035).

Patients on the active drug also had a 200-mL mean increase in total lung capacity, compared with a mean decline of 56 mL for patients on placebo (P = .005).

In addition, high-resolution CR studies showed a 9.4% absolute decrease from baseline in quantitative interstitial lung disease with ENV-101, vs. a 1.1% increase among controls, a 2% absolute decline from baseline in quantitative lung fibrosis compared with a 0.87% increase with placebo, and a 4.6% absolute decrease from baseline in quantitative ground glass, compared with an increase of 0.29% with placebo.
 

Bad taste a good sign?

Reinoud Gosens PhD, University of Groningen, the Netherlands, who co-moderated the session but was not involved in the study, questioned whether the dysgeusia seen in patients who received ENV-101 might be related to the dysgeusia seen in clinical trials of P2X3 receptor antagonists for cough.

“I was wondering if there would be a mechanistic overlap between Hedgehog inhibition and cough, which would be quite relevant for IPF,” he said in an interview.

The increase in FVC seen with ENV-101 and with the investigational agent buloxibutid, a novel angiotensin II type 2 receptor agonist described in a separate presentation by Dr. Maher, suggests that these drugs may have the ability to help remodel damaged lungs, Dr. Gosens said.

Investigators are currently planning a phase 2 dose-ranging trial (WHISTLE-PF) in patients with IPF or progressive pulmonary fibrosis.

The phase 2a trial was supported by Endeavor BioMedicines. Dr. Maher disclosed consultancy or speaker fees from Endeavor and others. Dr. Gosens had no relevant disclosures.

The US Food and Drug Administration has granted accelerated approval to tarlatamab-dlle (Imdelltra) for extensive-stage small cell lung cancer (SCLC) with disease progression on or after platinum-based chemotherapy.

Tarlatamab is a first-in-class bispecific T-cell engager (BiTE) that binds delta-like ligand 3 on the surface of cells, including tumor cells, and CD3 expressed on the surface of T cells. It causes T-cell activation, release of inflammatory cytokines, and lysis of DLL3-expressing cells, according to labeling. 

Approval was based on data from 99 patients in the DeLLphi-301 trial with relapsed/refractory extensive-stage SCLC who had progressed after platinum-based chemotherapy. Patients with symptomatic brain metastases, interstitial lung disease, noninfectious pneumonitis, and active immunodeficiency were excluded. 

The overall response rate was 40%, and median duration of response 9.7 months. The overall response rate was 52% in 27 patients with platinum-resistant SCLC and 31% in 42 with platinum-sensitive disease. 

Continued approval may depend on verification of clinical benefit in a confirmatory trial.

Labeling includes a box warning of serious or life-threatening cytokine release syndrome and neurologic toxicity, including immune effector cell–associated neurotoxicity syndrome. 

The most common adverse events, occurring in 20% or more of patients, were cytokine release syndrome, fatigue, pyrexia, dysgeusia, decreased appetite, musculoskeletal pain, constipation, anemia, and nausea. 

The most common grade 3 or 4 laboratory abnormalities included decreased lymphocytes, decreased sodium, increased uric acid, decreased total neutrophils, decreased hemoglobin, increased activated partial thromboplastin time, and decreased potassium.

The starting dose is 1 mg given intravenously over 1 hour on the first day of the first cycle followed by 10 mg on day 8 and day 15 of the first cycle, then every 2 weeks until disease progression or unacceptable toxicity.

M. Alexander Otto is a physician assistant with a master’s degree in medical science and a journalism degree from Newhouse. He is an award-winning medical journalist who worked for several major news outlets before joining Medscape. Alex is also an MIT Knight Science Journalism fellow. Email: aotto@mdedge.com

A version of this article appeared on Medscape.com.

The US Food and Drug Administration has granted accelerated approval to tarlatamab-dlle (Imdelltra) for extensive-stage small cell lung cancer (SCLC) with disease progression on or after platinum-based chemotherapy.

Tarlatamab is a first-in-class bispecific T-cell engager (BiTE) that binds delta-like ligand 3 on the surface of cells, including tumor cells, and CD3 expressed on the surface of T cells. It causes T-cell activation, release of inflammatory cytokines, and lysis of DLL3-expressing cells, according to labeling. 

Approval was based on data from 99 patients in the DeLLphi-301 trial with relapsed/refractory extensive-stage SCLC who had progressed after platinum-based chemotherapy. Patients with symptomatic brain metastases, interstitial lung disease, noninfectious pneumonitis, and active immunodeficiency were excluded. 

The overall response rate was 40%, and median duration of response 9.7 months. The overall response rate was 52% in 27 patients with platinum-resistant SCLC and 31% in 42 with platinum-sensitive disease. 

Continued approval may depend on verification of clinical benefit in a confirmatory trial.

Labeling includes a box warning of serious or life-threatening cytokine release syndrome and neurologic toxicity, including immune effector cell–associated neurotoxicity syndrome. 

The most common adverse events, occurring in 20% or more of patients, were cytokine release syndrome, fatigue, pyrexia, dysgeusia, decreased appetite, musculoskeletal pain, constipation, anemia, and nausea. 

The most common grade 3 or 4 laboratory abnormalities included decreased lymphocytes, decreased sodium, increased uric acid, decreased total neutrophils, decreased hemoglobin, increased activated partial thromboplastin time, and decreased potassium.

The starting dose is 1 mg given intravenously over 1 hour on the first day of the first cycle followed by 10 mg on day 8 and day 15 of the first cycle, then every 2 weeks until disease progression or unacceptable toxicity.

M. Alexander Otto is a physician assistant with a master’s degree in medical science and a journalism degree from Newhouse. He is an award-winning medical journalist who worked for several major news outlets before joining Medscape. Alex is also an MIT Knight Science Journalism fellow. Email: aotto@mdedge.com

A version of this article appeared on Medscape.com.

The US Food and Drug Administration has granted accelerated approval to tarlatamab-dlle (Imdelltra) for extensive-stage small cell lung cancer (SCLC) with disease progression on or after platinum-based chemotherapy.

Tarlatamab is a first-in-class bispecific T-cell engager (BiTE) that binds delta-like ligand 3 on the surface of cells, including tumor cells, and CD3 expressed on the surface of T cells. It causes T-cell activation, release of inflammatory cytokines, and lysis of DLL3-expressing cells, according to labeling. 

Approval was based on data from 99 patients in the DeLLphi-301 trial with relapsed/refractory extensive-stage SCLC who had progressed after platinum-based chemotherapy. Patients with symptomatic brain metastases, interstitial lung disease, noninfectious pneumonitis, and active immunodeficiency were excluded. 

The overall response rate was 40%, and median duration of response 9.7 months. The overall response rate was 52% in 27 patients with platinum-resistant SCLC and 31% in 42 with platinum-sensitive disease. 

Continued approval may depend on verification of clinical benefit in a confirmatory trial.

Labeling includes a box warning of serious or life-threatening cytokine release syndrome and neurologic toxicity, including immune effector cell–associated neurotoxicity syndrome. 

The most common adverse events, occurring in 20% or more of patients, were cytokine release syndrome, fatigue, pyrexia, dysgeusia, decreased appetite, musculoskeletal pain, constipation, anemia, and nausea. 

The most common grade 3 or 4 laboratory abnormalities included decreased lymphocytes, decreased sodium, increased uric acid, decreased total neutrophils, decreased hemoglobin, increased activated partial thromboplastin time, and decreased potassium.

The starting dose is 1 mg given intravenously over 1 hour on the first day of the first cycle followed by 10 mg on day 8 and day 15 of the first cycle, then every 2 weeks until disease progression or unacceptable toxicity.

M. Alexander Otto is a physician assistant with a master’s degree in medical science and a journalism degree from Newhouse. He is an award-winning medical journalist who worked for several major news outlets before joining Medscape. Alex is also an MIT Knight Science Journalism fellow. Email: aotto@mdedge.com

A version of this article appeared on Medscape.com.

TOPLINE:

Cutaneous manifestations of cystic fibrosis (CF) include palmar wrinkling, nutrient deficiency dermatitis, vascular disorders, and reactions to CF treatments.

METHODOLOGY:

• Patients with CF, caused by a mutation in the CF Transmembrane Conductance Regulator (CFTR) gene, can develop diverse dermatologic manifestations.
• Researchers reviewed the literature and provided their own clinical experience regarding dermatologic manifestations of CF.
• They also reviewed the cutaneous side effects of CFTR modulators and antibiotics used to treat CF.

TAKEAWAY:

• Aquagenic wrinkling of the palm is common in individuals with CF, affecting up to 80% of patients (and 25% of CF gene carriers), and can be an early manifestation of CF. Treatments include topical medications (such as aluminum chloride, corticosteroids, and salicylic acid), botulinum toxin injections, and recently, CFTR-modulating treatments.
• CF nutrient deficiency dermatitis, often in a diaper distribution, usually appears in infancy and, before newborn screening was available, was sometimes the first sign of CF in some cases. It usually resolves with an adequate diet, pancreatic enzymes, and/or nutritional supplements. Zinc and essential fatty acid deficiencies can lead to acrodermatitis enteropathica–like symptoms and psoriasiform rashes, respectively.
• CF is also associated with vascular disorders, including cutaneous and, rarely, systemic vasculitis. Treatment includes topical and oral steroids and immune-modulating therapies.
• CFTR modulators, now the most common and highly effective treatment for CF, are associated with several skin reactions, which can be managed with treatments that include topical steroids and oral antihistamines. Frequent antibiotic treatment can also trigger skin reactions.

IN PRACTICE:

“Recognition and familiarity with dermatologic clinical manifestations of CF are important for multidisciplinary care” for patients with CF, the authors wrote, adding that “dermatology providers may play a significant role in the diagnosis and management of CF cutaneous comorbidities.”

SOURCE:

Aaron D. Smith, BS, from the University of Virginia (UVA) School of Medicine, Charlottesville, and coauthors were from the departments of dermatology and pulmonology/critical care medicine at UVA. The study was published online in the Journal of the American Academy of Dermatology.

LIMITATIONS:

The authors did not make a comment about the limitations of their review.

DISCLOSURES:

No funding was received for the review. The authors had no disclosures.

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

TOPLINE:

Cutaneous manifestations of cystic fibrosis (CF) include palmar wrinkling, nutrient deficiency dermatitis, vascular disorders, and reactions to CF treatments.

METHODOLOGY:

• Patients with CF, caused by a mutation in the CF Transmembrane Conductance Regulator (CFTR) gene, can develop diverse dermatologic manifestations.
• Researchers reviewed the literature and provided their own clinical experience regarding dermatologic manifestations of CF.
• They also reviewed the cutaneous side effects of CFTR modulators and antibiotics used to treat CF.

TAKEAWAY:

• Aquagenic wrinkling of the palm is common in individuals with CF, affecting up to 80% of patients (and 25% of CF gene carriers), and can be an early manifestation of CF. Treatments include topical medications (such as aluminum chloride, corticosteroids, and salicylic acid), botulinum toxin injections, and recently, CFTR-modulating treatments.
• CF nutrient deficiency dermatitis, often in a diaper distribution, usually appears in infancy and, before newborn screening was available, was sometimes the first sign of CF in some cases. It usually resolves with an adequate diet, pancreatic enzymes, and/or nutritional supplements. Zinc and essential fatty acid deficiencies can lead to acrodermatitis enteropathica–like symptoms and psoriasiform rashes, respectively.
• CF is also associated with vascular disorders, including cutaneous and, rarely, systemic vasculitis. Treatment includes topical and oral steroids and immune-modulating therapies.
• CFTR modulators, now the most common and highly effective treatment for CF, are associated with several skin reactions, which can be managed with treatments that include topical steroids and oral antihistamines. Frequent antibiotic treatment can also trigger skin reactions.

IN PRACTICE:

“Recognition and familiarity with dermatologic clinical manifestations of CF are important for multidisciplinary care” for patients with CF, the authors wrote, adding that “dermatology providers may play a significant role in the diagnosis and management of CF cutaneous comorbidities.”

SOURCE:

Aaron D. Smith, BS, from the University of Virginia (UVA) School of Medicine, Charlottesville, and coauthors were from the departments of dermatology and pulmonology/critical care medicine at UVA. The study was published online in the Journal of the American Academy of Dermatology.

LIMITATIONS:

The authors did not make a comment about the limitations of their review.

DISCLOSURES:

No funding was received for the review. The authors had no disclosures.

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

TOPLINE:

Cutaneous manifestations of cystic fibrosis (CF) include palmar wrinkling, nutrient deficiency dermatitis, vascular disorders, and reactions to CF treatments.

METHODOLOGY:

• Patients with CF, caused by a mutation in the CF Transmembrane Conductance Regulator (CFTR) gene, can develop diverse dermatologic manifestations.
• Researchers reviewed the literature and provided their own clinical experience regarding dermatologic manifestations of CF.
• They also reviewed the cutaneous side effects of CFTR modulators and antibiotics used to treat CF.

TAKEAWAY:

• Aquagenic wrinkling of the palm is common in individuals with CF, affecting up to 80% of patients (and 25% of CF gene carriers), and can be an early manifestation of CF. Treatments include topical medications (such as aluminum chloride, corticosteroids, and salicylic acid), botulinum toxin injections, and recently, CFTR-modulating treatments.
• CF nutrient deficiency dermatitis, often in a diaper distribution, usually appears in infancy and, before newborn screening was available, was sometimes the first sign of CF in some cases. It usually resolves with an adequate diet, pancreatic enzymes, and/or nutritional supplements. Zinc and essential fatty acid deficiencies can lead to acrodermatitis enteropathica–like symptoms and psoriasiform rashes, respectively.
• CF is also associated with vascular disorders, including cutaneous and, rarely, systemic vasculitis. Treatment includes topical and oral steroids and immune-modulating therapies.
• CFTR modulators, now the most common and highly effective treatment for CF, are associated with several skin reactions, which can be managed with treatments that include topical steroids and oral antihistamines. Frequent antibiotic treatment can also trigger skin reactions.

IN PRACTICE:

“Recognition and familiarity with dermatologic clinical manifestations of CF are important for multidisciplinary care” for patients with CF, the authors wrote, adding that “dermatology providers may play a significant role in the diagnosis and management of CF cutaneous comorbidities.”

SOURCE:

Aaron D. Smith, BS, from the University of Virginia (UVA) School of Medicine, Charlottesville, and coauthors were from the departments of dermatology and pulmonology/critical care medicine at UVA. The study was published online in the Journal of the American Academy of Dermatology.

LIMITATIONS:

The authors did not make a comment about the limitations of their review.

DISCLOSURES:

No funding was received for the review. The authors had no disclosures.

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

BERLIN — To date, mRNA vaccines have had their largest global presence in combating the COVID-19 pandemic. Intensive research is underway on many other potential applications for this vaccine technology, which suggests a promising future. Martina Prelog, MD, a pediatric and adolescent medicine specialist at the University Hospital of Würzburg in Germany, reported on the principles, research status, and perspectives for these vaccines at the 25th Travel and Health Forum of the Center for Travel Medicine in Berlin.

To understand the future, the immunologist first examined the past. “The induction of cellular and humoral immune responses by externally injected mRNA was discovered in the 1990s,” she said.
 

Instability Challenge

Significant hurdles in mRNA vaccinations included the instability of mRNA and the immune system’s ability to identify foreign mRNA as a threat and destroy mRNA fragments. “The breakthrough toward vaccination came through Dr. Katalin Karikó, who, along with Dr. Drew Weissman, both of the University of Pennsylvania School of Medicine, discovered in 2005 that modifications of mRNA (replacing the nucleoside uridine with pseudouridine) enable better stability of mRNA, reduced immunogenicity, and higher translational capacity at the ribosomes,” said Dr. Prelog.

With this discovery, the two researchers paved the way for the development of mRNA vaccines against COVID-19 and other diseases. They were awarded the Nobel Prize in medicine for their discovery last year.
 

Improved Scalability

“Since 2009, mRNA vaccines have been studied as a treatment option for cancer,” said Dr. Prelog. “Since 2012, they have been studied for the influenza virus and respiratory syncytial virus [RSV].” Consequently, several mRNA vaccines are currently in development or in approval studies. “The mRNA technology offers the advantage of quickly and flexibly responding to new variants of pathogens and the ability to scale up production when there is high demand for a particular vaccine.”

Different forms and designations of mRNA vaccines are used, depending on the application and desired effect, said Dr. Prelog.

In nucleoside-modified mRNA vaccines, modifications in the mRNA sequence enable the mRNA to remain in the body longer and to induce protein synthesis more effectively.

Lipid nanoparticle (LNP)–encapsulated mRNA vaccines protect the coding mRNA sequences against degradation by the body’s enzymes and facilitate the uptake of mRNA into cells, where it then triggers the production of the desired protein. In addition, LNPs are involved in cell stimulation and support the self-adjuvant effect of mRNA vaccines, thus eliminating the need for adjuvants.

Self-amplifying mRNA vaccines include a special mRNA that replicates itself in the cell and contains a sequence for RNA replicase, in addition to the coding sequence for the protein. This composition enables increased production of the target protein without the need for a high amount of external mRNA administration. Such vaccines could trigger a longer and stronger immune response because the immune system has more time to interact with the protein.
 

Cancer Immunotherapy

Dr. Prelog also discussed personalized vaccines for cancer immunotherapy. Personalized mRNA vaccines are tailored to the patient’s genetic characteristics and antigens. They could be used in cancer immunotherapy to activate the immune system selectively against tumor cells.

Multivalent mRNA vaccines contain mRNA that codes for multiple antigens rather than just one protein to generate an immune response. These vaccines could be particularly useful in fighting pathogens with variable or changing surface structures or in eliciting protection against multiple pathogens simultaneously.

The technology of mRNA-encoded antibodies involves introducing mRNA into the cell, which creates light and heavy chains of antibodies. This step leads to the formation of antibodies targeted against toxins (eg, diphtheria and tetanus), animal venoms, infectious agents, or tumor cells.
 

Genetic Engineering

Dr. Prelog also reviewed genetic engineering techniques. In regenerative therapy or protein replacement therapy, skin fibroblasts or other cells are transfected with mRNA to enable conversion into induced pluripotent stem cells. This approach avoids the risk for DNA integration into the genome and associated mutation risks.

Another approach is making post-transcriptional modifications through RNA interference. For example, RNA structures can be used to inhibit the translation of disease-causing proteins. This technique is currently being tested against HIV and tumors such as melanoma.

In addition, mRNA technologies can be combined with CRISPR/Cas9 technology (“gene scissors”) to influence the creation of gene products even more precisely. The advantage of this technique is that mRNA is only transiently expressed, thus preventing unwanted side effects. Furthermore, mRNA is translated directly in the cytoplasm, leading to a faster initiation of gene editing.

Of the numerous ongoing clinical mRNA vaccine studies, around 70% focus on infections, about 12% on cancer, and the rest on autoimmune diseases and neurodegenerative disorders, said Dr. Prelog.
 

Research in Infections

Research in the fields of infectious diseases and oncology is the most advanced: mRNA vaccines against influenza and RSV are already in advanced clinical trials, Dr. Prelog told this news organization.

“Conventional influenza vaccines contain immunogenic surface molecules against hemagglutinin and neuraminidase in various combinations of influenza strains A and B and are produced in egg or cell cultures,” she said. “This is a time-consuming manufacturing process that takes months and, particularly with the egg-based process, bears the risk of changing the vaccine strain.”

“Additionally, influenza viruses undergo antigenic shift and drift through recombination, thus requiring annual adjustments to the vaccines. Thus, these influenza vaccines often lose accuracy in targeting circulating seasonal influenza strains.”

Several mRNA vaccines being tested contain not only coding sequences against hemagglutinin and neuraminidase but also for structural proteins of influenza viruses. “These are more conserved and mutate less easily, meaning they could serve as the basis for universal pandemic influenza vaccines,” said Dr. Prelog.

An advantage of mRNA vaccines, she added, is the strong cellular immune response that they elicit. This response is intended to provide additional protection alongside specific antibodies. An mRNA vaccine with coding sequences for the pre-fusion protein of RSV is in phase 3 trials for approval for vaccination in patients aged 60 years and older. It shows high effectiveness even in older patients and those with comorbidities.
 

Elaborate Purification Process

Bacterial origin plasmid DNA is used to produce mRNA vaccines. The mRNA vaccines for COVID-19 raised concerns that production-related DNA residues could pose a safety risk and cause autoimmune diseases.

These vaccines “typically undergo a very elaborate purification process,” said Dr. Prelog. “This involves enzymatic digestion with DNase to fragment and deplete plasmid DNA, followed by purification using chromatography columns, so that no safety-relevant DNA fragments should remain afterward.”

Thus, the Paul-Ehrlich-Institut also pointed out the very small, fragmented plasmid DNA residues of bacterial origin in mRNA COVID-19 vaccines pose no risk, unlike residual DNA from animal cell culture might pose in other vaccines.
 

Prevention and Therapy

In addition to the numerous advantages of mRNA vaccines (such as rapid adaptability to new or mutated pathogens, scalability, rapid production capability, self-adjuvant effect, strong induction of cellular immune responses, and safety), there are also challenges in RNA technology as a preventive and therapeutic measure, according to Dr. Prelog.

“Stability and storability, as well as the costs of new vaccine developments, play a role, as do the long-term effects regarding the persistence of antibody and cellular responses,” she said. The COVID-19 mRNA vaccines, for example, showed a well-maintained cellular immune response despite a tendency toward a rapid decline in humoral immune response.

“The experience with COVID-19 mRNA vaccines and the new vaccine developments based on mRNA technology give hope for an efficient and safe preventive and therapeutic use, particularly in the fields of infectious diseases and oncology,” Dr. Prelog concluded.

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

BERLIN — To date, mRNA vaccines have had their largest global presence in combating the COVID-19 pandemic. Intensive research is underway on many other potential applications for this vaccine technology, which suggests a promising future. Martina Prelog, MD, a pediatric and adolescent medicine specialist at the University Hospital of Würzburg in Germany, reported on the principles, research status, and perspectives for these vaccines at the 25th Travel and Health Forum of the Center for Travel Medicine in Berlin.

To understand the future, the immunologist first examined the past. “The induction of cellular and humoral immune responses by externally injected mRNA was discovered in the 1990s,” she said.
 

Instability Challenge

Significant hurdles in mRNA vaccinations included the instability of mRNA and the immune system’s ability to identify foreign mRNA as a threat and destroy mRNA fragments. “The breakthrough toward vaccination came through Dr. Katalin Karikó, who, along with Dr. Drew Weissman, both of the University of Pennsylvania School of Medicine, discovered in 2005 that modifications of mRNA (replacing the nucleoside uridine with pseudouridine) enable better stability of mRNA, reduced immunogenicity, and higher translational capacity at the ribosomes,” said Dr. Prelog.

With this discovery, the two researchers paved the way for the development of mRNA vaccines against COVID-19 and other diseases. They were awarded the Nobel Prize in medicine for their discovery last year.
 

Improved Scalability

“Since 2009, mRNA vaccines have been studied as a treatment option for cancer,” said Dr. Prelog. “Since 2012, they have been studied for the influenza virus and respiratory syncytial virus [RSV].” Consequently, several mRNA vaccines are currently in development or in approval studies. “The mRNA technology offers the advantage of quickly and flexibly responding to new variants of pathogens and the ability to scale up production when there is high demand for a particular vaccine.”

Different forms and designations of mRNA vaccines are used, depending on the application and desired effect, said Dr. Prelog.

In nucleoside-modified mRNA vaccines, modifications in the mRNA sequence enable the mRNA to remain in the body longer and to induce protein synthesis more effectively.

Lipid nanoparticle (LNP)–encapsulated mRNA vaccines protect the coding mRNA sequences against degradation by the body’s enzymes and facilitate the uptake of mRNA into cells, where it then triggers the production of the desired protein. In addition, LNPs are involved in cell stimulation and support the self-adjuvant effect of mRNA vaccines, thus eliminating the need for adjuvants.

Self-amplifying mRNA vaccines include a special mRNA that replicates itself in the cell and contains a sequence for RNA replicase, in addition to the coding sequence for the protein. This composition enables increased production of the target protein without the need for a high amount of external mRNA administration. Such vaccines could trigger a longer and stronger immune response because the immune system has more time to interact with the protein.
 

Cancer Immunotherapy

Dr. Prelog also discussed personalized vaccines for cancer immunotherapy. Personalized mRNA vaccines are tailored to the patient’s genetic characteristics and antigens. They could be used in cancer immunotherapy to activate the immune system selectively against tumor cells.

Multivalent mRNA vaccines contain mRNA that codes for multiple antigens rather than just one protein to generate an immune response. These vaccines could be particularly useful in fighting pathogens with variable or changing surface structures or in eliciting protection against multiple pathogens simultaneously.

The technology of mRNA-encoded antibodies involves introducing mRNA into the cell, which creates light and heavy chains of antibodies. This step leads to the formation of antibodies targeted against toxins (eg, diphtheria and tetanus), animal venoms, infectious agents, or tumor cells.
 

Genetic Engineering

Dr. Prelog also reviewed genetic engineering techniques. In regenerative therapy or protein replacement therapy, skin fibroblasts or other cells are transfected with mRNA to enable conversion into induced pluripotent stem cells. This approach avoids the risk for DNA integration into the genome and associated mutation risks.

Another approach is making post-transcriptional modifications through RNA interference. For example, RNA structures can be used to inhibit the translation of disease-causing proteins. This technique is currently being tested against HIV and tumors such as melanoma.

In addition, mRNA technologies can be combined with CRISPR/Cas9 technology (“gene scissors”) to influence the creation of gene products even more precisely. The advantage of this technique is that mRNA is only transiently expressed, thus preventing unwanted side effects. Furthermore, mRNA is translated directly in the cytoplasm, leading to a faster initiation of gene editing.

Of the numerous ongoing clinical mRNA vaccine studies, around 70% focus on infections, about 12% on cancer, and the rest on autoimmune diseases and neurodegenerative disorders, said Dr. Prelog.
 

Research in Infections

Research in the fields of infectious diseases and oncology is the most advanced: mRNA vaccines against influenza and RSV are already in advanced clinical trials, Dr. Prelog told this news organization.

“Conventional influenza vaccines contain immunogenic surface molecules against hemagglutinin and neuraminidase in various combinations of influenza strains A and B and are produced in egg or cell cultures,” she said. “This is a time-consuming manufacturing process that takes months and, particularly with the egg-based process, bears the risk of changing the vaccine strain.”

“Additionally, influenza viruses undergo antigenic shift and drift through recombination, thus requiring annual adjustments to the vaccines. Thus, these influenza vaccines often lose accuracy in targeting circulating seasonal influenza strains.”

Several mRNA vaccines being tested contain not only coding sequences against hemagglutinin and neuraminidase but also for structural proteins of influenza viruses. “These are more conserved and mutate less easily, meaning they could serve as the basis for universal pandemic influenza vaccines,” said Dr. Prelog.

An advantage of mRNA vaccines, she added, is the strong cellular immune response that they elicit. This response is intended to provide additional protection alongside specific antibodies. An mRNA vaccine with coding sequences for the pre-fusion protein of RSV is in phase 3 trials for approval for vaccination in patients aged 60 years and older. It shows high effectiveness even in older patients and those with comorbidities.
 

Elaborate Purification Process

Bacterial origin plasmid DNA is used to produce mRNA vaccines. The mRNA vaccines for COVID-19 raised concerns that production-related DNA residues could pose a safety risk and cause autoimmune diseases.

These vaccines “typically undergo a very elaborate purification process,” said Dr. Prelog. “This involves enzymatic digestion with DNase to fragment and deplete plasmid DNA, followed by purification using chromatography columns, so that no safety-relevant DNA fragments should remain afterward.”

Thus, the Paul-Ehrlich-Institut also pointed out the very small, fragmented plasmid DNA residues of bacterial origin in mRNA COVID-19 vaccines pose no risk, unlike residual DNA from animal cell culture might pose in other vaccines.
 

Prevention and Therapy

In addition to the numerous advantages of mRNA vaccines (such as rapid adaptability to new or mutated pathogens, scalability, rapid production capability, self-adjuvant effect, strong induction of cellular immune responses, and safety), there are also challenges in RNA technology as a preventive and therapeutic measure, according to Dr. Prelog.

“Stability and storability, as well as the costs of new vaccine developments, play a role, as do the long-term effects regarding the persistence of antibody and cellular responses,” she said. The COVID-19 mRNA vaccines, for example, showed a well-maintained cellular immune response despite a tendency toward a rapid decline in humoral immune response.

“The experience with COVID-19 mRNA vaccines and the new vaccine developments based on mRNA technology give hope for an efficient and safe preventive and therapeutic use, particularly in the fields of infectious diseases and oncology,” Dr. Prelog concluded.

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

BERLIN — To date, mRNA vaccines have had their largest global presence in combating the COVID-19 pandemic. Intensive research is underway on many other potential applications for this vaccine technology, which suggests a promising future. Martina Prelog, MD, a pediatric and adolescent medicine specialist at the University Hospital of Würzburg in Germany, reported on the principles, research status, and perspectives for these vaccines at the 25th Travel and Health Forum of the Center for Travel Medicine in Berlin.

To understand the future, the immunologist first examined the past. “The induction of cellular and humoral immune responses by externally injected mRNA was discovered in the 1990s,” she said.
 

Instability Challenge

Significant hurdles in mRNA vaccinations included the instability of mRNA and the immune system’s ability to identify foreign mRNA as a threat and destroy mRNA fragments. “The breakthrough toward vaccination came through Dr. Katalin Karikó, who, along with Dr. Drew Weissman, both of the University of Pennsylvania School of Medicine, discovered in 2005 that modifications of mRNA (replacing the nucleoside uridine with pseudouridine) enable better stability of mRNA, reduced immunogenicity, and higher translational capacity at the ribosomes,” said Dr. Prelog.

With this discovery, the two researchers paved the way for the development of mRNA vaccines against COVID-19 and other diseases. They were awarded the Nobel Prize in medicine for their discovery last year.
 

Improved Scalability

“Since 2009, mRNA vaccines have been studied as a treatment option for cancer,” said Dr. Prelog. “Since 2012, they have been studied for the influenza virus and respiratory syncytial virus [RSV].” Consequently, several mRNA vaccines are currently in development or in approval studies. “The mRNA technology offers the advantage of quickly and flexibly responding to new variants of pathogens and the ability to scale up production when there is high demand for a particular vaccine.”

Different forms and designations of mRNA vaccines are used, depending on the application and desired effect, said Dr. Prelog.

In nucleoside-modified mRNA vaccines, modifications in the mRNA sequence enable the mRNA to remain in the body longer and to induce protein synthesis more effectively.

Lipid nanoparticle (LNP)–encapsulated mRNA vaccines protect the coding mRNA sequences against degradation by the body’s enzymes and facilitate the uptake of mRNA into cells, where it then triggers the production of the desired protein. In addition, LNPs are involved in cell stimulation and support the self-adjuvant effect of mRNA vaccines, thus eliminating the need for adjuvants.

Self-amplifying mRNA vaccines include a special mRNA that replicates itself in the cell and contains a sequence for RNA replicase, in addition to the coding sequence for the protein. This composition enables increased production of the target protein without the need for a high amount of external mRNA administration. Such vaccines could trigger a longer and stronger immune response because the immune system has more time to interact with the protein.
 

Cancer Immunotherapy

Dr. Prelog also discussed personalized vaccines for cancer immunotherapy. Personalized mRNA vaccines are tailored to the patient’s genetic characteristics and antigens. They could be used in cancer immunotherapy to activate the immune system selectively against tumor cells.

Multivalent mRNA vaccines contain mRNA that codes for multiple antigens rather than just one protein to generate an immune response. These vaccines could be particularly useful in fighting pathogens with variable or changing surface structures or in eliciting protection against multiple pathogens simultaneously.

The technology of mRNA-encoded antibodies involves introducing mRNA into the cell, which creates light and heavy chains of antibodies. This step leads to the formation of antibodies targeted against toxins (eg, diphtheria and tetanus), animal venoms, infectious agents, or tumor cells.
 

Genetic Engineering

Dr. Prelog also reviewed genetic engineering techniques. In regenerative therapy or protein replacement therapy, skin fibroblasts or other cells are transfected with mRNA to enable conversion into induced pluripotent stem cells. This approach avoids the risk for DNA integration into the genome and associated mutation risks.

Another approach is making post-transcriptional modifications through RNA interference. For example, RNA structures can be used to inhibit the translation of disease-causing proteins. This technique is currently being tested against HIV and tumors such as melanoma.

In addition, mRNA technologies can be combined with CRISPR/Cas9 technology (“gene scissors”) to influence the creation of gene products even more precisely. The advantage of this technique is that mRNA is only transiently expressed, thus preventing unwanted side effects. Furthermore, mRNA is translated directly in the cytoplasm, leading to a faster initiation of gene editing.

Of the numerous ongoing clinical mRNA vaccine studies, around 70% focus on infections, about 12% on cancer, and the rest on autoimmune diseases and neurodegenerative disorders, said Dr. Prelog.
 

Research in Infections

Research in the fields of infectious diseases and oncology is the most advanced: mRNA vaccines against influenza and RSV are already in advanced clinical trials, Dr. Prelog told this news organization.

“Conventional influenza vaccines contain immunogenic surface molecules against hemagglutinin and neuraminidase in various combinations of influenza strains A and B and are produced in egg or cell cultures,” she said. “This is a time-consuming manufacturing process that takes months and, particularly with the egg-based process, bears the risk of changing the vaccine strain.”

“Additionally, influenza viruses undergo antigenic shift and drift through recombination, thus requiring annual adjustments to the vaccines. Thus, these influenza vaccines often lose accuracy in targeting circulating seasonal influenza strains.”

Several mRNA vaccines being tested contain not only coding sequences against hemagglutinin and neuraminidase but also for structural proteins of influenza viruses. “These are more conserved and mutate less easily, meaning they could serve as the basis for universal pandemic influenza vaccines,” said Dr. Prelog.

An advantage of mRNA vaccines, she added, is the strong cellular immune response that they elicit. This response is intended to provide additional protection alongside specific antibodies. An mRNA vaccine with coding sequences for the pre-fusion protein of RSV is in phase 3 trials for approval for vaccination in patients aged 60 years and older. It shows high effectiveness even in older patients and those with comorbidities.
 

Elaborate Purification Process

Bacterial origin plasmid DNA is used to produce mRNA vaccines. The mRNA vaccines for COVID-19 raised concerns that production-related DNA residues could pose a safety risk and cause autoimmune diseases.

These vaccines “typically undergo a very elaborate purification process,” said Dr. Prelog. “This involves enzymatic digestion with DNase to fragment and deplete plasmid DNA, followed by purification using chromatography columns, so that no safety-relevant DNA fragments should remain afterward.”

Thus, the Paul-Ehrlich-Institut also pointed out the very small, fragmented plasmid DNA residues of bacterial origin in mRNA COVID-19 vaccines pose no risk, unlike residual DNA from animal cell culture might pose in other vaccines.
 

Prevention and Therapy

In addition to the numerous advantages of mRNA vaccines (such as rapid adaptability to new or mutated pathogens, scalability, rapid production capability, self-adjuvant effect, strong induction of cellular immune responses, and safety), there are also challenges in RNA technology as a preventive and therapeutic measure, according to Dr. Prelog.

“Stability and storability, as well as the costs of new vaccine developments, play a role, as do the long-term effects regarding the persistence of antibody and cellular responses,” she said. The COVID-19 mRNA vaccines, for example, showed a well-maintained cellular immune response despite a tendency toward a rapid decline in humoral immune response.

“The experience with COVID-19 mRNA vaccines and the new vaccine developments based on mRNA technology give hope for an efficient and safe preventive and therapeutic use, particularly in the fields of infectious diseases and oncology,” Dr. Prelog concluded.

This story was translated from the Medscape German edition using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Extreme heat, wildfires, and particulate matter not from wildfires were the most studied climate issues in conjunction with increased respiratory care, based on data from more than 60 studies.

Previous research has shown that fossil fuel combustion and climate change are threats to respiratory health, but the direct impact of climate on respiratory healthcare has not been well studied, wrote Jacqueline R. Lewy, MD, who led the study while a 4th-year medical student at the University of Michigan, Ann Arbor.

Recent local events prompted Dr. Lewy and colleagues to examine the current landscape of climate change studies and respiratory healthcare.

“Last summer, when Canadian wildfire smoke enveloped the Midwest and the East Coast, patients presented with exacerbations of asthma and COPD to our clinics,” corresponding author Alexander S. Rabin, MD, of the University of Michigan, said in an interview.

“The event was a reminder of the increasing health threats that our most vulnerable patients face from climate change,” he said. “The smoke events also got us thinking about how health systems around the world are preparing, and we wanted to better understand what is known about the impacts of climate change on healthcare delivery to patients with lung disease and look for blind spots in the research,” he explained.

In the review, published in The Journal of Climate Change and Health, the researchers identified 67 studies related to climate and respiratory care; 50 of these were published between 2020 and 2023.

The most frequently studied climate and weather topics were extreme heat (31 studies), particulate matter not from wildfires (22 studies), and wildfires (19 studies).

The most common respiratory-related outcomes were respiratory-related hospital admissions (33 studies) and respiratory-related emergency department (ED) visits (24 studies).

Few studies addressed the potential impact of climate on telehealth, facility energy distribution, and pharmaceutical supplies, the researchers wrote. Notably, only one study in the review showed an association between power outages in New York City and higher chronic obstructive pulmonary disease (COPD)-related hospital admission rates, and no primary research emerged on the effects of climate change on respiratory medicine supply or distribution, they said.

Findings from studies with demographic breakdowns included evidence of greater effects of extreme weather on elderly populations compared with younger groups, and data from the seven studies focused on children showed a particular risk for climate-related respiratory exacerbations among those younger than 5 years.

The findings of the review were limited by several factors including the targeted article selection and potential misclassification bias, as respiratory outcomes often overlapped with cardiac or other outcomes, the researchers noted.

However, the results highlighted three key areas for future research. First, more studies are needed on the impact of climate on understudied populations in areas such as Africa, South America, Asia, and the Caribbean. Second, studies are needed on the impact of climate on respiratory care beyond acute care, with attention to primary and specialty respiratory care use, supply chain impacts, and effects on long-term pulmonary care and rehabilitation. Finally, more research is needed to explore solutions to the increased demands on pulmonary care in the context of climate change, including the use of telehealth, the authors wrote.
 

Limitations and Research Gaps

“While we found extensive published research chronicling the acute respiratory health impacts of climate change and extreme weather, such as heat waves and wildfires, we were surprised to find few studies on health system adaptation,” Dr. Rabin told this news organization.

“Although we know that prevention and long-term disease management are critical, studies looking at primary care impacts on respiratory care, healthcare infrastructure hardening, and medication supply chain resilience were largely absent from the literature,” he said. “We were further struck by the limited amount of research originating from the most climate-affected areas such as in the Global South, where outdoor air pollution already results in over 4 million deaths per year,” he noted.

Although clinicians increasingly recognize that climate change and extreme weather threaten lung health, solutions are needed to make health systems resilient, accessible, and adaptable, especially with the likely increase in demand for respiratory care, Dr. Rabin emphasized.

More research is needed on preventive measures that could mitigate the risk for bad air quality, heat, and other extreme climate change events on vulnerable populations, said Dr. Rabin. “Every domain of healthcare delivery, from pharmaceutical procurement to hospital heating and cooling system design, must account for these environmental changes,” he said. “More collaboration is needed with researchers and clinicians in areas of the world that are underrepresented and underresourced to help share knowledge and tools to build health system resilience.”
 

Takeaways and Next Steps

“I was struck by how many studies used healthcare metrics as a way to measure health outcomes but not to measure resilience and efficiency of healthcare systems themselves,” Dr. Lewy said in an interview. “For example, many studies used ED visits or hospital admissions as ways to measure severity of disease associated with a climate event, but the strain that increased visits or admissions have on healthcare systems was barely mentioned,” she noted.

Looking ahead, more studies that focus specifically on infrastructure as it relates to healthcare would be valuable, said Dr. Lewy. Recent research has explored virtual care as a way to mitigate climate change-associated COPD exacerbations, but virtual care may not be reliably accessible in cases of the widespread power and network outages that often accompany storms, heat waves, and other catastrophic weather events, she noted. “More research into these types of logistical factors affecting healthcare systems would be helpful,” she added.

Dr. Rabin disclosed support for the study from the US Department of Veterans Affairs but had no other financial conflicts to disclose. Dr. Lewy had no financial conflicts to disclose.

A version of this article appeared on Medscape.com.

Extreme heat, wildfires, and particulate matter not from wildfires were the most studied climate issues in conjunction with increased respiratory care, based on data from more than 60 studies.

Previous research has shown that fossil fuel combustion and climate change are threats to respiratory health, but the direct impact of climate on respiratory healthcare has not been well studied, wrote Jacqueline R. Lewy, MD, who led the study while a 4th-year medical student at the University of Michigan, Ann Arbor.

Recent local events prompted Dr. Lewy and colleagues to examine the current landscape of climate change studies and respiratory healthcare.

“Last summer, when Canadian wildfire smoke enveloped the Midwest and the East Coast, patients presented with exacerbations of asthma and COPD to our clinics,” corresponding author Alexander S. Rabin, MD, of the University of Michigan, said in an interview.

“The event was a reminder of the increasing health threats that our most vulnerable patients face from climate change,” he said. “The smoke events also got us thinking about how health systems around the world are preparing, and we wanted to better understand what is known about the impacts of climate change on healthcare delivery to patients with lung disease and look for blind spots in the research,” he explained.

In the review, published in The Journal of Climate Change and Health, the researchers identified 67 studies related to climate and respiratory care; 50 of these were published between 2020 and 2023.

The most frequently studied climate and weather topics were extreme heat (31 studies), particulate matter not from wildfires (22 studies), and wildfires (19 studies).

The most common respiratory-related outcomes were respiratory-related hospital admissions (33 studies) and respiratory-related emergency department (ED) visits (24 studies).

Few studies addressed the potential impact of climate on telehealth, facility energy distribution, and pharmaceutical supplies, the researchers wrote. Notably, only one study in the review showed an association between power outages in New York City and higher chronic obstructive pulmonary disease (COPD)-related hospital admission rates, and no primary research emerged on the effects of climate change on respiratory medicine supply or distribution, they said.

Findings from studies with demographic breakdowns included evidence of greater effects of extreme weather on elderly populations compared with younger groups, and data from the seven studies focused on children showed a particular risk for climate-related respiratory exacerbations among those younger than 5 years.

The findings of the review were limited by several factors including the targeted article selection and potential misclassification bias, as respiratory outcomes often overlapped with cardiac or other outcomes, the researchers noted.

However, the results highlighted three key areas for future research. First, more studies are needed on the impact of climate on understudied populations in areas such as Africa, South America, Asia, and the Caribbean. Second, studies are needed on the impact of climate on respiratory care beyond acute care, with attention to primary and specialty respiratory care use, supply chain impacts, and effects on long-term pulmonary care and rehabilitation. Finally, more research is needed to explore solutions to the increased demands on pulmonary care in the context of climate change, including the use of telehealth, the authors wrote.
 

Limitations and Research Gaps

“While we found extensive published research chronicling the acute respiratory health impacts of climate change and extreme weather, such as heat waves and wildfires, we were surprised to find few studies on health system adaptation,” Dr. Rabin told this news organization.

“Although we know that prevention and long-term disease management are critical, studies looking at primary care impacts on respiratory care, healthcare infrastructure hardening, and medication supply chain resilience were largely absent from the literature,” he said. “We were further struck by the limited amount of research originating from the most climate-affected areas such as in the Global South, where outdoor air pollution already results in over 4 million deaths per year,” he noted.

Although clinicians increasingly recognize that climate change and extreme weather threaten lung health, solutions are needed to make health systems resilient, accessible, and adaptable, especially with the likely increase in demand for respiratory care, Dr. Rabin emphasized.

More research is needed on preventive measures that could mitigate the risk for bad air quality, heat, and other extreme climate change events on vulnerable populations, said Dr. Rabin. “Every domain of healthcare delivery, from pharmaceutical procurement to hospital heating and cooling system design, must account for these environmental changes,” he said. “More collaboration is needed with researchers and clinicians in areas of the world that are underrepresented and underresourced to help share knowledge and tools to build health system resilience.”
 

Takeaways and Next Steps

“I was struck by how many studies used healthcare metrics as a way to measure health outcomes but not to measure resilience and efficiency of healthcare systems themselves,” Dr. Lewy said in an interview. “For example, many studies used ED visits or hospital admissions as ways to measure severity of disease associated with a climate event, but the strain that increased visits or admissions have on healthcare systems was barely mentioned,” she noted.

Looking ahead, more studies that focus specifically on infrastructure as it relates to healthcare would be valuable, said Dr. Lewy. Recent research has explored virtual care as a way to mitigate climate change-associated COPD exacerbations, but virtual care may not be reliably accessible in cases of the widespread power and network outages that often accompany storms, heat waves, and other catastrophic weather events, she noted. “More research into these types of logistical factors affecting healthcare systems would be helpful,” she added.

Dr. Rabin disclosed support for the study from the US Department of Veterans Affairs but had no other financial conflicts to disclose. Dr. Lewy had no financial conflicts to disclose.

A version of this article appeared on Medscape.com.

Extreme heat, wildfires, and particulate matter not from wildfires were the most studied climate issues in conjunction with increased respiratory care, based on data from more than 60 studies.

Previous research has shown that fossil fuel combustion and climate change are threats to respiratory health, but the direct impact of climate on respiratory healthcare has not been well studied, wrote Jacqueline R. Lewy, MD, who led the study while a 4th-year medical student at the University of Michigan, Ann Arbor.

Recent local events prompted Dr. Lewy and colleagues to examine the current landscape of climate change studies and respiratory healthcare.

“Last summer, when Canadian wildfire smoke enveloped the Midwest and the East Coast, patients presented with exacerbations of asthma and COPD to our clinics,” corresponding author Alexander S. Rabin, MD, of the University of Michigan, said in an interview.

“The event was a reminder of the increasing health threats that our most vulnerable patients face from climate change,” he said. “The smoke events also got us thinking about how health systems around the world are preparing, and we wanted to better understand what is known about the impacts of climate change on healthcare delivery to patients with lung disease and look for blind spots in the research,” he explained.

In the review, published in The Journal of Climate Change and Health, the researchers identified 67 studies related to climate and respiratory care; 50 of these were published between 2020 and 2023.

The most frequently studied climate and weather topics were extreme heat (31 studies), particulate matter not from wildfires (22 studies), and wildfires (19 studies).

The most common respiratory-related outcomes were respiratory-related hospital admissions (33 studies) and respiratory-related emergency department (ED) visits (24 studies).

Few studies addressed the potential impact of climate on telehealth, facility energy distribution, and pharmaceutical supplies, the researchers wrote. Notably, only one study in the review showed an association between power outages in New York City and higher chronic obstructive pulmonary disease (COPD)-related hospital admission rates, and no primary research emerged on the effects of climate change on respiratory medicine supply or distribution, they said.

Findings from studies with demographic breakdowns included evidence of greater effects of extreme weather on elderly populations compared with younger groups, and data from the seven studies focused on children showed a particular risk for climate-related respiratory exacerbations among those younger than 5 years.

The findings of the review were limited by several factors including the targeted article selection and potential misclassification bias, as respiratory outcomes often overlapped with cardiac or other outcomes, the researchers noted.

However, the results highlighted three key areas for future research. First, more studies are needed on the impact of climate on understudied populations in areas such as Africa, South America, Asia, and the Caribbean. Second, studies are needed on the impact of climate on respiratory care beyond acute care, with attention to primary and specialty respiratory care use, supply chain impacts, and effects on long-term pulmonary care and rehabilitation. Finally, more research is needed to explore solutions to the increased demands on pulmonary care in the context of climate change, including the use of telehealth, the authors wrote.
 

Limitations and Research Gaps

“While we found extensive published research chronicling the acute respiratory health impacts of climate change and extreme weather, such as heat waves and wildfires, we were surprised to find few studies on health system adaptation,” Dr. Rabin told this news organization.

“Although we know that prevention and long-term disease management are critical, studies looking at primary care impacts on respiratory care, healthcare infrastructure hardening, and medication supply chain resilience were largely absent from the literature,” he said. “We were further struck by the limited amount of research originating from the most climate-affected areas such as in the Global South, where outdoor air pollution already results in over 4 million deaths per year,” he noted.

Although clinicians increasingly recognize that climate change and extreme weather threaten lung health, solutions are needed to make health systems resilient, accessible, and adaptable, especially with the likely increase in demand for respiratory care, Dr. Rabin emphasized.

More research is needed on preventive measures that could mitigate the risk for bad air quality, heat, and other extreme climate change events on vulnerable populations, said Dr. Rabin. “Every domain of healthcare delivery, from pharmaceutical procurement to hospital heating and cooling system design, must account for these environmental changes,” he said. “More collaboration is needed with researchers and clinicians in areas of the world that are underrepresented and underresourced to help share knowledge and tools to build health system resilience.”
 

Takeaways and Next Steps

“I was struck by how many studies used healthcare metrics as a way to measure health outcomes but not to measure resilience and efficiency of healthcare systems themselves,” Dr. Lewy said in an interview. “For example, many studies used ED visits or hospital admissions as ways to measure severity of disease associated with a climate event, but the strain that increased visits or admissions have on healthcare systems was barely mentioned,” she noted.

Looking ahead, more studies that focus specifically on infrastructure as it relates to healthcare would be valuable, said Dr. Lewy. Recent research has explored virtual care as a way to mitigate climate change-associated COPD exacerbations, but virtual care may not be reliably accessible in cases of the widespread power and network outages that often accompany storms, heat waves, and other catastrophic weather events, she noted. “More research into these types of logistical factors affecting healthcare systems would be helpful,” she added.

Dr. Rabin disclosed support for the study from the US Department of Veterans Affairs but had no other financial conflicts to disclose. Dr. Lewy had no financial conflicts to disclose.

A version of this article appeared on Medscape.com.