COPD

TOPLINE:

Exposure to furan, a chemical present in agricultural products, stabilizers, pharmaceuticals, and heat-processed foods, shows a significant positive correlation with the prevalence and respiratory mortality of chronic obstructive pulmonary disease (COPD).

METHODOLOGY:

• The researchers reviewed data from the National Health and Nutrition Examination Survey database from 2013 to 2018 and identified 270 adults with a diagnosis of COPD and 7212 without.
• Exposure to furan was based on blood furan levels, and participants were divided into five groups on the basis of quartiles of log10-transformed blood furan levels.
• The researchers used a restricted cubic spline analysis to examine the association between COPD risk and blood furan levels and mediating analysis to explore the impact of inflammation.
• The primary outcome of the study was respiratory mortality.

TAKEAWAY:

• Ten COPD patients died of respiratory diseases; adjusted analysis showed a positive correlation between log10-transformed blood furan levels and respiratory mortality in COPD patients (hazard ratio, 41.00, P = .003).
• In a logistic regression analysis, log10-transformed blood furan levels were significantly associated with increased risk for COPD; individuals in the fifth quartile had significantly increased risk compared with the first quartile (odds ratio, 4.47; P = .006).
• COPD demonstrated a significant positive association with monocytes, neutrophils, and basophils, which showed mediated proportions of 8.73%, 20.90%, and 10.94%, respectively, in the relationship between furan exposure and prevalence of COPD (P < .05 for all).

IN PRACTICE:

“The implication [of the findings] is that reducing exposure to furan in the environment could potentially lower the incidence of COPD and improve the prognosis for COPD patients,” but large-scale prospective cohort studies are needed, the researchers wrote in their conclusion.

SOURCE:

The lead author of the study was Di Sun, MD, of Capital Medical University, Beijing, China. The study was published online in BMC Public Health.

LIMITATIONS:

The cross-sectional design prevented establishment of a causal relationship between furan exposure and COPD; lack of data on the conditions of furan exposure and the reliance on self-reports for COPD diagnosis were among the factors that limited the study findings.

DISCLOSURES:

The study was supported by the High Level Public Health Technology Talent Construction Project and Reform and Development Program of Beijing Institute of Respiratory Medicine. The researchers had no financial conflicts to disclose.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Exposure to furan, a chemical present in agricultural products, stabilizers, pharmaceuticals, and heat-processed foods, shows a significant positive correlation with the prevalence and respiratory mortality of chronic obstructive pulmonary disease (COPD).

METHODOLOGY:

• The researchers reviewed data from the National Health and Nutrition Examination Survey database from 2013 to 2018 and identified 270 adults with a diagnosis of COPD and 7212 without.
• Exposure to furan was based on blood furan levels, and participants were divided into five groups on the basis of quartiles of log10-transformed blood furan levels.
• The researchers used a restricted cubic spline analysis to examine the association between COPD risk and blood furan levels and mediating analysis to explore the impact of inflammation.
• The primary outcome of the study was respiratory mortality.

TAKEAWAY:

• Ten COPD patients died of respiratory diseases; adjusted analysis showed a positive correlation between log10-transformed blood furan levels and respiratory mortality in COPD patients (hazard ratio, 41.00, P = .003).
• In a logistic regression analysis, log10-transformed blood furan levels were significantly associated with increased risk for COPD; individuals in the fifth quartile had significantly increased risk compared with the first quartile (odds ratio, 4.47; P = .006).
• COPD demonstrated a significant positive association with monocytes, neutrophils, and basophils, which showed mediated proportions of 8.73%, 20.90%, and 10.94%, respectively, in the relationship between furan exposure and prevalence of COPD (P < .05 for all).

IN PRACTICE:

“The implication [of the findings] is that reducing exposure to furan in the environment could potentially lower the incidence of COPD and improve the prognosis for COPD patients,” but large-scale prospective cohort studies are needed, the researchers wrote in their conclusion.

SOURCE:

The lead author of the study was Di Sun, MD, of Capital Medical University, Beijing, China. The study was published online in BMC Public Health.

LIMITATIONS:

The cross-sectional design prevented establishment of a causal relationship between furan exposure and COPD; lack of data on the conditions of furan exposure and the reliance on self-reports for COPD diagnosis were among the factors that limited the study findings.

DISCLOSURES:

The study was supported by the High Level Public Health Technology Talent Construction Project and Reform and Development Program of Beijing Institute of Respiratory Medicine. The researchers had no financial conflicts to disclose.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Exposure to furan, a chemical present in agricultural products, stabilizers, pharmaceuticals, and heat-processed foods, shows a significant positive correlation with the prevalence and respiratory mortality of chronic obstructive pulmonary disease (COPD).

METHODOLOGY:

• The researchers reviewed data from the National Health and Nutrition Examination Survey database from 2013 to 2018 and identified 270 adults with a diagnosis of COPD and 7212 without.
• Exposure to furan was based on blood furan levels, and participants were divided into five groups on the basis of quartiles of log10-transformed blood furan levels.
• The researchers used a restricted cubic spline analysis to examine the association between COPD risk and blood furan levels and mediating analysis to explore the impact of inflammation.
• The primary outcome of the study was respiratory mortality.

TAKEAWAY:

• Ten COPD patients died of respiratory diseases; adjusted analysis showed a positive correlation between log10-transformed blood furan levels and respiratory mortality in COPD patients (hazard ratio, 41.00, P = .003).
• In a logistic regression analysis, log10-transformed blood furan levels were significantly associated with increased risk for COPD; individuals in the fifth quartile had significantly increased risk compared with the first quartile (odds ratio, 4.47; P = .006).
• COPD demonstrated a significant positive association with monocytes, neutrophils, and basophils, which showed mediated proportions of 8.73%, 20.90%, and 10.94%, respectively, in the relationship between furan exposure and prevalence of COPD (P < .05 for all).

IN PRACTICE:

“The implication [of the findings] is that reducing exposure to furan in the environment could potentially lower the incidence of COPD and improve the prognosis for COPD patients,” but large-scale prospective cohort studies are needed, the researchers wrote in their conclusion.

SOURCE:

The lead author of the study was Di Sun, MD, of Capital Medical University, Beijing, China. The study was published online in BMC Public Health.

LIMITATIONS:

The cross-sectional design prevented establishment of a causal relationship between furan exposure and COPD; lack of data on the conditions of furan exposure and the reliance on self-reports for COPD diagnosis were among the factors that limited the study findings.

DISCLOSURES:

The study was supported by the High Level Public Health Technology Talent Construction Project and Reform and Development Program of Beijing Institute of Respiratory Medicine. The researchers had no financial conflicts to disclose.
 

A version of this article appeared on Medscape.com.

TOPLINE:

C-reactive protein (CRP) levels and eosinophil-to-platelet ratio (EPR) are significant independent predictors of adverse events in patients with chronic obstructive pulmonary disease (COPD) hospitalized with acute exacerbations.

METHODOLOGY:

• Known risk factors for COPD exacerbations do not fully explain the variation in susceptibility among patients; data on potential biomarkers as predictors of COPD exacerbations are limited.
• In a prospective, observational study at a single center, the researchers examined clinical and lab data including serum CRP levels, EPR, sarcopenia, lung function, nutrition, and frailty.
• The study population included 200 adults older than 40 years with COPD who were hospitalized for acute exacerbations; 50 experienced adverse events.

TAKEAWAY:

• Both elevated CRP and low EPR were significant predictors of adverse events in adjusted analysis in patients with COPD exacerbations (area under the curve, 0.71 and 0.76, respectively).
• In a multivariate analysis, EPR and CRP, as well as sarcopenia, were significantly associated with adverse events (adjusted odds ratios, 2.33, 2.09, and 1.97, respectively).
• COPD symptom scores, frailty, and malnutrition showed predictive value in bivariate but not multivariate analysis.

IN PRACTICE:

“Screening for these biomarkers [EPR and CRP] on admission could help identify high-risk patients who need more aggressive monitoring and treatment,” the researchers wrote in their discussion.

SOURCE:

The lead author on the study was Rohankumar Gandhi, MD, of Guru Gobind Singh Government Hospital, Jamnagar, India. The study was published online in Cureus.

LIMITATIONS:

The use of data from a single center, lack of information on nutritional interventions and counseling, and lack of data on outpatient outcomes limited the study findings.

DISCLOSURES:

The study received no outside funding. The researchers had no financial conflicts to disclose.

A version of this article appeared on Medscape.com.

TOPLINE:

C-reactive protein (CRP) levels and eosinophil-to-platelet ratio (EPR) are significant independent predictors of adverse events in patients with chronic obstructive pulmonary disease (COPD) hospitalized with acute exacerbations.

METHODOLOGY:

• Known risk factors for COPD exacerbations do not fully explain the variation in susceptibility among patients; data on potential biomarkers as predictors of COPD exacerbations are limited.
• In a prospective, observational study at a single center, the researchers examined clinical and lab data including serum CRP levels, EPR, sarcopenia, lung function, nutrition, and frailty.
• The study population included 200 adults older than 40 years with COPD who were hospitalized for acute exacerbations; 50 experienced adverse events.

TAKEAWAY:

• Both elevated CRP and low EPR were significant predictors of adverse events in adjusted analysis in patients with COPD exacerbations (area under the curve, 0.71 and 0.76, respectively).
• In a multivariate analysis, EPR and CRP, as well as sarcopenia, were significantly associated with adverse events (adjusted odds ratios, 2.33, 2.09, and 1.97, respectively).
• COPD symptom scores, frailty, and malnutrition showed predictive value in bivariate but not multivariate analysis.

IN PRACTICE:

“Screening for these biomarkers [EPR and CRP] on admission could help identify high-risk patients who need more aggressive monitoring and treatment,” the researchers wrote in their discussion.

SOURCE:

The lead author on the study was Rohankumar Gandhi, MD, of Guru Gobind Singh Government Hospital, Jamnagar, India. The study was published online in Cureus.

LIMITATIONS:

The use of data from a single center, lack of information on nutritional interventions and counseling, and lack of data on outpatient outcomes limited the study findings.

DISCLOSURES:

The study received no outside funding. The researchers had no financial conflicts to disclose.

A version of this article appeared on Medscape.com.

TOPLINE:

C-reactive protein (CRP) levels and eosinophil-to-platelet ratio (EPR) are significant independent predictors of adverse events in patients with chronic obstructive pulmonary disease (COPD) hospitalized with acute exacerbations.

METHODOLOGY:

• Known risk factors for COPD exacerbations do not fully explain the variation in susceptibility among patients; data on potential biomarkers as predictors of COPD exacerbations are limited.
• In a prospective, observational study at a single center, the researchers examined clinical and lab data including serum CRP levels, EPR, sarcopenia, lung function, nutrition, and frailty.
• The study population included 200 adults older than 40 years with COPD who were hospitalized for acute exacerbations; 50 experienced adverse events.

TAKEAWAY:

• Both elevated CRP and low EPR were significant predictors of adverse events in adjusted analysis in patients with COPD exacerbations (area under the curve, 0.71 and 0.76, respectively).
• In a multivariate analysis, EPR and CRP, as well as sarcopenia, were significantly associated with adverse events (adjusted odds ratios, 2.33, 2.09, and 1.97, respectively).
• COPD symptom scores, frailty, and malnutrition showed predictive value in bivariate but not multivariate analysis.

IN PRACTICE:

“Screening for these biomarkers [EPR and CRP] on admission could help identify high-risk patients who need more aggressive monitoring and treatment,” the researchers wrote in their discussion.

SOURCE:

The lead author on the study was Rohankumar Gandhi, MD, of Guru Gobind Singh Government Hospital, Jamnagar, India. The study was published online in Cureus.

LIMITATIONS:

The use of data from a single center, lack of information on nutritional interventions and counseling, and lack of data on outpatient outcomes limited the study findings.

DISCLOSURES:

The study received no outside funding. The researchers had no financial conflicts to disclose.

A version of this article appeared on Medscape.com.

Screening for lung cancer can detect other health issues, as well.

The reason is because the low-dose CT scans used for screening cover the lower neck down to the upper abdomen, revealing far more anatomy than simply the lungs.

In fact, lung cancer screening can provide information on three of the top 10 causes of death worldwide: ischemic heart disease, chronic obstructive pulmonary disease, and, of course, lung cancer.

With lung cancer screening, “we are basically targeting many birds with one low-dose stone,” explained Jelena Spasic MD, PhD, at the European Lung Cancer Congress (ELCC) 2024.

Dr. Spasic, a medical oncologist at the Institute for Oncology and Radiology of Serbia in Belgrade, was the discussant on a study that gave an indication on just how useful screening can be for other diseases.

The study, dubbed 4-IN-THE-LUNG-RUN trial (4ITLR), is an ongoing prospective trial in six European countries that is using lung cancer screening scans to also look for coronary artery calcifications, a marker of atherosclerosis.

Usually, coronary calcifications are considered incidental findings on lung cancer screenings and reported to subjects’ physicians for heart disease risk assessment.

The difference in 4ITLR is that investigators are actively looking for the lesions and quantifying the extent of calcifications.

It’s made possible by the artificial intelligence-based software being used to read the scans. In addition to generating reports on lung nodules, it also automatically calculates an Agatston score, a quantification of the degree of coronary artery calcification for each subject.

At the meeting, which was organized by the European Society for Clinical Oncology, 4ITLR investigator Daiwei Han, MD, PhD, a research associate at the Institute for Diagnostic Accuracy in Groningen, the Netherlands, reported outcomes in the first 2487 of the 24,000 planned subjects.

To be eligible for screening, participants had to be 60-79 years old and either current smokers, past smokers who had quit within 10 years, or people with a 35 or more pack-year history. The median age in the study was 68.1 years.

Overall, 53% of subjects had Agatston scores of 100 or more, indicating the need for treatment to prevent active coronary artery disease, Dr. Han said.

Fifteen percent were at high risk for heart disease with scores of 400-999, indicating extensive coronary artery calcification, and 16.2% were at very high risk, with scores of 1000 or higher. The information is being shared with participants’ physicians.

The risk of heart disease was far higher in men, who made up 56% of the study population. While women had a median Agatston score of 61, the median score for men was 211.1.

The findings illustrate the potential of dedicated cardiovascular screening within lung cancer screening programs, Dr. Han said, noting that 4ITLR will also incorporate COPD risk assessment.

The study also shows the increased impact lung cancer screening programs could have if greater use were made of the CT images to look for other diseases, Dr. Spasic said.

4ITLR is funded by the European Union’s Horizon 2020 Program. Dr. Spasic and Dr. Han didn’t have any relevant disclosures.

Screening for lung cancer can detect other health issues, as well.

The reason is because the low-dose CT scans used for screening cover the lower neck down to the upper abdomen, revealing far more anatomy than simply the lungs.

In fact, lung cancer screening can provide information on three of the top 10 causes of death worldwide: ischemic heart disease, chronic obstructive pulmonary disease, and, of course, lung cancer.

With lung cancer screening, “we are basically targeting many birds with one low-dose stone,” explained Jelena Spasic MD, PhD, at the European Lung Cancer Congress (ELCC) 2024.

Dr. Spasic, a medical oncologist at the Institute for Oncology and Radiology of Serbia in Belgrade, was the discussant on a study that gave an indication on just how useful screening can be for other diseases.

The study, dubbed 4-IN-THE-LUNG-RUN trial (4ITLR), is an ongoing prospective trial in six European countries that is using lung cancer screening scans to also look for coronary artery calcifications, a marker of atherosclerosis.

Usually, coronary calcifications are considered incidental findings on lung cancer screenings and reported to subjects’ physicians for heart disease risk assessment.

The difference in 4ITLR is that investigators are actively looking for the lesions and quantifying the extent of calcifications.

It’s made possible by the artificial intelligence-based software being used to read the scans. In addition to generating reports on lung nodules, it also automatically calculates an Agatston score, a quantification of the degree of coronary artery calcification for each subject.

At the meeting, which was organized by the European Society for Clinical Oncology, 4ITLR investigator Daiwei Han, MD, PhD, a research associate at the Institute for Diagnostic Accuracy in Groningen, the Netherlands, reported outcomes in the first 2487 of the 24,000 planned subjects.

To be eligible for screening, participants had to be 60-79 years old and either current smokers, past smokers who had quit within 10 years, or people with a 35 or more pack-year history. The median age in the study was 68.1 years.

Overall, 53% of subjects had Agatston scores of 100 or more, indicating the need for treatment to prevent active coronary artery disease, Dr. Han said.

Fifteen percent were at high risk for heart disease with scores of 400-999, indicating extensive coronary artery calcification, and 16.2% were at very high risk, with scores of 1000 or higher. The information is being shared with participants’ physicians.

The risk of heart disease was far higher in men, who made up 56% of the study population. While women had a median Agatston score of 61, the median score for men was 211.1.

The findings illustrate the potential of dedicated cardiovascular screening within lung cancer screening programs, Dr. Han said, noting that 4ITLR will also incorporate COPD risk assessment.

The study also shows the increased impact lung cancer screening programs could have if greater use were made of the CT images to look for other diseases, Dr. Spasic said.

4ITLR is funded by the European Union’s Horizon 2020 Program. Dr. Spasic and Dr. Han didn’t have any relevant disclosures.

Screening for lung cancer can detect other health issues, as well.

The reason is because the low-dose CT scans used for screening cover the lower neck down to the upper abdomen, revealing far more anatomy than simply the lungs.

In fact, lung cancer screening can provide information on three of the top 10 causes of death worldwide: ischemic heart disease, chronic obstructive pulmonary disease, and, of course, lung cancer.

With lung cancer screening, “we are basically targeting many birds with one low-dose stone,” explained Jelena Spasic MD, PhD, at the European Lung Cancer Congress (ELCC) 2024.

Dr. Spasic, a medical oncologist at the Institute for Oncology and Radiology of Serbia in Belgrade, was the discussant on a study that gave an indication on just how useful screening can be for other diseases.

The study, dubbed 4-IN-THE-LUNG-RUN trial (4ITLR), is an ongoing prospective trial in six European countries that is using lung cancer screening scans to also look for coronary artery calcifications, a marker of atherosclerosis.

Usually, coronary calcifications are considered incidental findings on lung cancer screenings and reported to subjects’ physicians for heart disease risk assessment.

The difference in 4ITLR is that investigators are actively looking for the lesions and quantifying the extent of calcifications.

It’s made possible by the artificial intelligence-based software being used to read the scans. In addition to generating reports on lung nodules, it also automatically calculates an Agatston score, a quantification of the degree of coronary artery calcification for each subject.

At the meeting, which was organized by the European Society for Clinical Oncology, 4ITLR investigator Daiwei Han, MD, PhD, a research associate at the Institute for Diagnostic Accuracy in Groningen, the Netherlands, reported outcomes in the first 2487 of the 24,000 planned subjects.

To be eligible for screening, participants had to be 60-79 years old and either current smokers, past smokers who had quit within 10 years, or people with a 35 or more pack-year history. The median age in the study was 68.1 years.

Overall, 53% of subjects had Agatston scores of 100 or more, indicating the need for treatment to prevent active coronary artery disease, Dr. Han said.

Fifteen percent were at high risk for heart disease with scores of 400-999, indicating extensive coronary artery calcification, and 16.2% were at very high risk, with scores of 1000 or higher. The information is being shared with participants’ physicians.

The risk of heart disease was far higher in men, who made up 56% of the study population. While women had a median Agatston score of 61, the median score for men was 211.1.

The findings illustrate the potential of dedicated cardiovascular screening within lung cancer screening programs, Dr. Han said, noting that 4ITLR will also incorporate COPD risk assessment.

The study also shows the increased impact lung cancer screening programs could have if greater use were made of the CT images to look for other diseases, Dr. Spasic said.

4ITLR is funded by the European Union’s Horizon 2020 Program. Dr. Spasic and Dr. Han didn’t have any relevant disclosures.

Many patients with chronic progressive pulmonary disease feel anxious and depressed as their conditions advance, as breathing becomes increasingly labored and difficult, and as performing even small daily tasks leaves them exhausted.

Persons with severe COPD frequently report fears of suffocation and death, as well as anxieties about abandoning family and friends, and these negative, intrusive thoughts can have an adverse effect on COPD outcomes.

Disease-related mental distress can lead to increased disability, more frequent use of costly healthcare resources, higher morbidity, and elevated risk of death, investigators say.

“Individuals with severe COPD are twice as likely to develop depression than patients with mild COPD. Prevalence rates for clinical anxiety in COPD range from 13% to 46% in outpatients and 10% to 55% among inpatients,” wrote Abebaw Mengitsu Yohannes, PhD, then from Azusa Pacific University in Azusa, California, and colleagues in an article published jointly by The Journal of Family Practice and The Cleveland Clinic Journal of Medicine.

Patients with COPD may experience major depressive disorders, chronic mild depression (dysthymias), and minor depression, as well as generalized anxiety disorder, phobias, and panic disorders, the investigators say.

“Growing evidence suggests that the relationship between mood disorders — particularly depression — and COPD is bidirectional, meaning that mood disorders adversely impact prognosis in COPD, whereas COPD increases the risk of developing depression,” Yohannes et al. wrote.

Jamie Garfield, MD, professor of thoracic medicine and surgery at Temple University’s Lewis Katz School of Medicine in Philadelphia, Pennsylvania, told Chest Physician that the association between severe chronic diseases and mood disorders is well known.

“I don’t think that it’s specific to chronic lung diseases; in people with chronic heart disease or malignancies we see that coexistence of depression and anxiety will worsen the course of disease,” she said.

Dr. Johannes, who is currently a professor of physical therapy at the University of Alabama School of Health Professionals in Birmingham, said that depression and anxiety are often underdiagnosed and undertreated in patients with obstructive pulmonary diseases because the conditions can share symptoms such as dyspnea (for example, in anxiety) or fatigue (in depression).

“Therefore, unless one begins to explore further, it’s hard for physicians to be able to identify these conditions,” he said in an interview with Chest Physician.

Fears of dying (and living)

The causes of depression and anxiety among patients with obstructive pulmonary disorders are multifactorial, and may require a variety of treatment and coping strategies, according to Susann Strang, RN, PhD, and colleagues from the University of Gothenburg, Gothenburg, Sweden.

They conducted qualitative in-depth interviews with 31 men and women with stage III or IV COPD, and found that the majority of patients had anxiety associated with their disease.

“Analyses revealed three major themes: death anxiety, life anxiety, and counterweights to anxiety,” the investigators wrote in a study published in the journal Palliative and Supportive Care in 2014.

Factors contributing to anxiety surrounding death included fear of suffocation, awareness of impending death, fear of the process of death, and anxiety about being separated from loved ones.

In contrast, some patients expressed dread of living with the limitations and loneliness imposed on them by their disease — so-called “life anxiety.”

The patients also reported “counterweights” to anxiety as a way of coping. For some this involved trust in their healthcare professionals and adherence to medication, inhalers, and supplemental oxygen.

“The patients also placed hope in new treatments, better medication, surgery, stem cell treatment, or lung transplants,” Dr. Strang and colleagues reported.

Others reported avoiding talking about death, sleeping more, or using humor to “laugh off this difficult subject.”

Screening and diagnosis

Primary care practitioners are often the first health professionals that patients with COPD see, but these clinicians often don’t have the time to add screening to their already crammed schedules. In addition, “the lack of a standardized approach in diagnosis, and inadequate knowledge or confidence in assessing psychological status (particularly given the number of strategies available for screening patients for mood disorders),” can make it difficult for PCPs to detect and manage anxiety and depression in their patients with significant healthcare burdens from COPD and other obstructive lung diseases, Dr. Yohannes and colleagues noted.

In addition to commonly used screening tools for anxiety and depression such as the Primary Care Evaluation of Mental Disorders (PRIME-MD) Patient Health Questionnaire (PHQ-9), there are at least two designed to evaluate patients with lung disease: the Anxiety Inventory for Respiratory (AIR) Disease scale, developed by Dr. Yohannes and colleagues, and the COPD Anxiety Questionnaire.

The COPD Assessment Test and Clinical COPD Questionnaire, while not specifically designed to screen for mental disorders, include questions that can point to symptoms of distress in patients with COPD, Dr. Yohannes said.

“In truth I think that there are few providers who will routinely do this on all their patients in terms of quantifying the severity or the presence or absence of depression, but in my own practice I very much ask questions that align with the questions in these tools to determine whether my patient appears to have high levels of anxiety and depression,” Dr. Garfield said.

Listen to patients and families

Among the most powerful tools that clinicians have at their disposal for treating anxiety and depression in patients with chronic lung disease are their ears and their minds, said Anthony Saleh, MD, a pulmonologist at New York-Presbyterian Brooklyn Methodist Hospital in Brooklyn, New York.

“I think just listening to the patient, that’s a little bit forgotten yet so important,” he said in an interview with CHEST Physician.

“When I have someone with advanced lung disease, like idiopathic pulmonary fibrosis, like advanced emphysema, one of the most important things I think is to listen to the patient, and not just to listen to the answers of your perfunctory ‘how’s your breathing? Any chest pain?’ and those sort of rote medical questions, but listen to their thoughts, and it will given them a safe space to say ‘Hey, I’m nervous, hey I’m worried about my family, hey I’m worried if I die what’s going to happen to my wife and kids,’ and that’s something I think is invaluable.”

It’s also vital to listen to the concerns of the patients family members, who may be the primary caregivers and may share the patient’s stresses and anxieties, he said.

Pulmonary Rehabilitation

All of the experts interviewed for this article agreed that a combination of medical, social and mental health support services is important for treatment for patients with chronic obstructive lung diseases.

One of the most effective means of helping patients with both acute breathing problems and with disease-related anxiety and depression is pulmonary rehabilitation. Depending on disease severity, this multidisciplinary approach may involve exercise, patient education, psychological and nutrition counseling, and training patients how to conserve energy and adopt breathing strategies to help them better manage their symptoms.

“I think that pulmonary rehabilitation is one of the first interventions that we should be recommending for our patients,” Dr. Garfield said. “It’s physical therapy for patients with chronic lung diseases, backed by respiratory therapists, and it offers not only physical rehabilitation — improving strength and coordination, but also it helps our patients get as much as possible out of what they’ve got.”

For example, patients can be taught how to decrease their respiratory rate when they’re feeling a sense of urgency or panic. Patients can also learn how to change body positions to help them breathe more effectively when they feel that their breath is limited or restricted, she said.

“Once you’re into medical interventions, pulmonary rehab is phenomenal,” Dr. Saleh said.

Pulmonary rehabilitation helps patients to feel better about themselves and about their abilities, but “unfortunately it’s not as available as we like,” he said.

Many patients don’t live near a pulmonary rehabilitation center, and the typical two to three weekly sessions for 4-12 weeks or longer can be a significant burden for patients and caregivers, he acknowledged.

“You have to sit [with the patient] and be honest and tell them it’s a lot of diligence involved and you have to be really motivated,” he said.

Other treatment options include pharmacological therapy with antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and anxiolytic agents.

“SSRIs are the current first-line drug treatment for depression, and have been shown to significantly improve depression and anxiety in patients with COPD in some, but not all, trials published to date. However, it is important to note that a diagnosis of bipolar disorder must be ruled out before initiating standard antidepressant therapy,” Dr. Johannes and colleagues wrote.

Defiant joy

Importantly, even with the burden of life with COPD, many patients found ways to experience what Strang et al. called “a defiant joy.”

“It was remarkable that when the patients were asked about what gave their lives meaning today, many talked about what had given their life meaning in the past, prior to becoming ill. In the light of the things they had lost because of the disease, many felt that their previous sources of joy no longer existed. Despite this, many still hoped to be able to get out into the fresh air, to be able to do errands, or that tomorrow might be better,” the investigators wrote.

Dr. Yohannes, Dr. Garfield, and Dr. Saleh all reported having no relevant conflicts of interest to report.

Many patients with chronic progressive pulmonary disease feel anxious and depressed as their conditions advance, as breathing becomes increasingly labored and difficult, and as performing even small daily tasks leaves them exhausted.

Persons with severe COPD frequently report fears of suffocation and death, as well as anxieties about abandoning family and friends, and these negative, intrusive thoughts can have an adverse effect on COPD outcomes.

Disease-related mental distress can lead to increased disability, more frequent use of costly healthcare resources, higher morbidity, and elevated risk of death, investigators say.

“Individuals with severe COPD are twice as likely to develop depression than patients with mild COPD. Prevalence rates for clinical anxiety in COPD range from 13% to 46% in outpatients and 10% to 55% among inpatients,” wrote Abebaw Mengitsu Yohannes, PhD, then from Azusa Pacific University in Azusa, California, and colleagues in an article published jointly by The Journal of Family Practice and The Cleveland Clinic Journal of Medicine.

Patients with COPD may experience major depressive disorders, chronic mild depression (dysthymias), and minor depression, as well as generalized anxiety disorder, phobias, and panic disorders, the investigators say.

“Growing evidence suggests that the relationship between mood disorders — particularly depression — and COPD is bidirectional, meaning that mood disorders adversely impact prognosis in COPD, whereas COPD increases the risk of developing depression,” Yohannes et al. wrote.

Jamie Garfield, MD, professor of thoracic medicine and surgery at Temple University’s Lewis Katz School of Medicine in Philadelphia, Pennsylvania, told Chest Physician that the association between severe chronic diseases and mood disorders is well known.

“I don’t think that it’s specific to chronic lung diseases; in people with chronic heart disease or malignancies we see that coexistence of depression and anxiety will worsen the course of disease,” she said.

Dr. Johannes, who is currently a professor of physical therapy at the University of Alabama School of Health Professionals in Birmingham, said that depression and anxiety are often underdiagnosed and undertreated in patients with obstructive pulmonary diseases because the conditions can share symptoms such as dyspnea (for example, in anxiety) or fatigue (in depression).

“Therefore, unless one begins to explore further, it’s hard for physicians to be able to identify these conditions,” he said in an interview with Chest Physician.

Fears of dying (and living)

The causes of depression and anxiety among patients with obstructive pulmonary disorders are multifactorial, and may require a variety of treatment and coping strategies, according to Susann Strang, RN, PhD, and colleagues from the University of Gothenburg, Gothenburg, Sweden.

They conducted qualitative in-depth interviews with 31 men and women with stage III or IV COPD, and found that the majority of patients had anxiety associated with their disease.

“Analyses revealed three major themes: death anxiety, life anxiety, and counterweights to anxiety,” the investigators wrote in a study published in the journal Palliative and Supportive Care in 2014.

Factors contributing to anxiety surrounding death included fear of suffocation, awareness of impending death, fear of the process of death, and anxiety about being separated from loved ones.

In contrast, some patients expressed dread of living with the limitations and loneliness imposed on them by their disease — so-called “life anxiety.”

The patients also reported “counterweights” to anxiety as a way of coping. For some this involved trust in their healthcare professionals and adherence to medication, inhalers, and supplemental oxygen.

“The patients also placed hope in new treatments, better medication, surgery, stem cell treatment, or lung transplants,” Dr. Strang and colleagues reported.

Others reported avoiding talking about death, sleeping more, or using humor to “laugh off this difficult subject.”

Screening and diagnosis

Primary care practitioners are often the first health professionals that patients with COPD see, but these clinicians often don’t have the time to add screening to their already crammed schedules. In addition, “the lack of a standardized approach in diagnosis, and inadequate knowledge or confidence in assessing psychological status (particularly given the number of strategies available for screening patients for mood disorders),” can make it difficult for PCPs to detect and manage anxiety and depression in their patients with significant healthcare burdens from COPD and other obstructive lung diseases, Dr. Yohannes and colleagues noted.

In addition to commonly used screening tools for anxiety and depression such as the Primary Care Evaluation of Mental Disorders (PRIME-MD) Patient Health Questionnaire (PHQ-9), there are at least two designed to evaluate patients with lung disease: the Anxiety Inventory for Respiratory (AIR) Disease scale, developed by Dr. Yohannes and colleagues, and the COPD Anxiety Questionnaire.

The COPD Assessment Test and Clinical COPD Questionnaire, while not specifically designed to screen for mental disorders, include questions that can point to symptoms of distress in patients with COPD, Dr. Yohannes said.

“In truth I think that there are few providers who will routinely do this on all their patients in terms of quantifying the severity or the presence or absence of depression, but in my own practice I very much ask questions that align with the questions in these tools to determine whether my patient appears to have high levels of anxiety and depression,” Dr. Garfield said.

Listen to patients and families

Among the most powerful tools that clinicians have at their disposal for treating anxiety and depression in patients with chronic lung disease are their ears and their minds, said Anthony Saleh, MD, a pulmonologist at New York-Presbyterian Brooklyn Methodist Hospital in Brooklyn, New York.

“I think just listening to the patient, that’s a little bit forgotten yet so important,” he said in an interview with CHEST Physician.

“When I have someone with advanced lung disease, like idiopathic pulmonary fibrosis, like advanced emphysema, one of the most important things I think is to listen to the patient, and not just to listen to the answers of your perfunctory ‘how’s your breathing? Any chest pain?’ and those sort of rote medical questions, but listen to their thoughts, and it will given them a safe space to say ‘Hey, I’m nervous, hey I’m worried about my family, hey I’m worried if I die what’s going to happen to my wife and kids,’ and that’s something I think is invaluable.”

It’s also vital to listen to the concerns of the patients family members, who may be the primary caregivers and may share the patient’s stresses and anxieties, he said.

Pulmonary Rehabilitation

All of the experts interviewed for this article agreed that a combination of medical, social and mental health support services is important for treatment for patients with chronic obstructive lung diseases.

One of the most effective means of helping patients with both acute breathing problems and with disease-related anxiety and depression is pulmonary rehabilitation. Depending on disease severity, this multidisciplinary approach may involve exercise, patient education, psychological and nutrition counseling, and training patients how to conserve energy and adopt breathing strategies to help them better manage their symptoms.

“I think that pulmonary rehabilitation is one of the first interventions that we should be recommending for our patients,” Dr. Garfield said. “It’s physical therapy for patients with chronic lung diseases, backed by respiratory therapists, and it offers not only physical rehabilitation — improving strength and coordination, but also it helps our patients get as much as possible out of what they’ve got.”

For example, patients can be taught how to decrease their respiratory rate when they’re feeling a sense of urgency or panic. Patients can also learn how to change body positions to help them breathe more effectively when they feel that their breath is limited or restricted, she said.

“Once you’re into medical interventions, pulmonary rehab is phenomenal,” Dr. Saleh said.

Pulmonary rehabilitation helps patients to feel better about themselves and about their abilities, but “unfortunately it’s not as available as we like,” he said.

Many patients don’t live near a pulmonary rehabilitation center, and the typical two to three weekly sessions for 4-12 weeks or longer can be a significant burden for patients and caregivers, he acknowledged.

“You have to sit [with the patient] and be honest and tell them it’s a lot of diligence involved and you have to be really motivated,” he said.

Other treatment options include pharmacological therapy with antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and anxiolytic agents.

“SSRIs are the current first-line drug treatment for depression, and have been shown to significantly improve depression and anxiety in patients with COPD in some, but not all, trials published to date. However, it is important to note that a diagnosis of bipolar disorder must be ruled out before initiating standard antidepressant therapy,” Dr. Johannes and colleagues wrote.

Defiant joy

Importantly, even with the burden of life with COPD, many patients found ways to experience what Strang et al. called “a defiant joy.”

“It was remarkable that when the patients were asked about what gave their lives meaning today, many talked about what had given their life meaning in the past, prior to becoming ill. In the light of the things they had lost because of the disease, many felt that their previous sources of joy no longer existed. Despite this, many still hoped to be able to get out into the fresh air, to be able to do errands, or that tomorrow might be better,” the investigators wrote.

Dr. Yohannes, Dr. Garfield, and Dr. Saleh all reported having no relevant conflicts of interest to report.

Many patients with chronic progressive pulmonary disease feel anxious and depressed as their conditions advance, as breathing becomes increasingly labored and difficult, and as performing even small daily tasks leaves them exhausted.

Persons with severe COPD frequently report fears of suffocation and death, as well as anxieties about abandoning family and friends, and these negative, intrusive thoughts can have an adverse effect on COPD outcomes.

Disease-related mental distress can lead to increased disability, more frequent use of costly healthcare resources, higher morbidity, and elevated risk of death, investigators say.

“Individuals with severe COPD are twice as likely to develop depression than patients with mild COPD. Prevalence rates for clinical anxiety in COPD range from 13% to 46% in outpatients and 10% to 55% among inpatients,” wrote Abebaw Mengitsu Yohannes, PhD, then from Azusa Pacific University in Azusa, California, and colleagues in an article published jointly by The Journal of Family Practice and The Cleveland Clinic Journal of Medicine.

Patients with COPD may experience major depressive disorders, chronic mild depression (dysthymias), and minor depression, as well as generalized anxiety disorder, phobias, and panic disorders, the investigators say.

“Growing evidence suggests that the relationship between mood disorders — particularly depression — and COPD is bidirectional, meaning that mood disorders adversely impact prognosis in COPD, whereas COPD increases the risk of developing depression,” Yohannes et al. wrote.

Jamie Garfield, MD, professor of thoracic medicine and surgery at Temple University’s Lewis Katz School of Medicine in Philadelphia, Pennsylvania, told Chest Physician that the association between severe chronic diseases and mood disorders is well known.

“I don’t think that it’s specific to chronic lung diseases; in people with chronic heart disease or malignancies we see that coexistence of depression and anxiety will worsen the course of disease,” she said.

Dr. Johannes, who is currently a professor of physical therapy at the University of Alabama School of Health Professionals in Birmingham, said that depression and anxiety are often underdiagnosed and undertreated in patients with obstructive pulmonary diseases because the conditions can share symptoms such as dyspnea (for example, in anxiety) or fatigue (in depression).

“Therefore, unless one begins to explore further, it’s hard for physicians to be able to identify these conditions,” he said in an interview with Chest Physician.

Fears of dying (and living)

The causes of depression and anxiety among patients with obstructive pulmonary disorders are multifactorial, and may require a variety of treatment and coping strategies, according to Susann Strang, RN, PhD, and colleagues from the University of Gothenburg, Gothenburg, Sweden.

They conducted qualitative in-depth interviews with 31 men and women with stage III or IV COPD, and found that the majority of patients had anxiety associated with their disease.

“Analyses revealed three major themes: death anxiety, life anxiety, and counterweights to anxiety,” the investigators wrote in a study published in the journal Palliative and Supportive Care in 2014.

Factors contributing to anxiety surrounding death included fear of suffocation, awareness of impending death, fear of the process of death, and anxiety about being separated from loved ones.

In contrast, some patients expressed dread of living with the limitations and loneliness imposed on them by their disease — so-called “life anxiety.”

The patients also reported “counterweights” to anxiety as a way of coping. For some this involved trust in their healthcare professionals and adherence to medication, inhalers, and supplemental oxygen.

“The patients also placed hope in new treatments, better medication, surgery, stem cell treatment, or lung transplants,” Dr. Strang and colleagues reported.

Others reported avoiding talking about death, sleeping more, or using humor to “laugh off this difficult subject.”

Screening and diagnosis

Primary care practitioners are often the first health professionals that patients with COPD see, but these clinicians often don’t have the time to add screening to their already crammed schedules. In addition, “the lack of a standardized approach in diagnosis, and inadequate knowledge or confidence in assessing psychological status (particularly given the number of strategies available for screening patients for mood disorders),” can make it difficult for PCPs to detect and manage anxiety and depression in their patients with significant healthcare burdens from COPD and other obstructive lung diseases, Dr. Yohannes and colleagues noted.

In addition to commonly used screening tools for anxiety and depression such as the Primary Care Evaluation of Mental Disorders (PRIME-MD) Patient Health Questionnaire (PHQ-9), there are at least two designed to evaluate patients with lung disease: the Anxiety Inventory for Respiratory (AIR) Disease scale, developed by Dr. Yohannes and colleagues, and the COPD Anxiety Questionnaire.

The COPD Assessment Test and Clinical COPD Questionnaire, while not specifically designed to screen for mental disorders, include questions that can point to symptoms of distress in patients with COPD, Dr. Yohannes said.

“In truth I think that there are few providers who will routinely do this on all their patients in terms of quantifying the severity or the presence or absence of depression, but in my own practice I very much ask questions that align with the questions in these tools to determine whether my patient appears to have high levels of anxiety and depression,” Dr. Garfield said.

Listen to patients and families

Among the most powerful tools that clinicians have at their disposal for treating anxiety and depression in patients with chronic lung disease are their ears and their minds, said Anthony Saleh, MD, a pulmonologist at New York-Presbyterian Brooklyn Methodist Hospital in Brooklyn, New York.

“I think just listening to the patient, that’s a little bit forgotten yet so important,” he said in an interview with CHEST Physician.

“When I have someone with advanced lung disease, like idiopathic pulmonary fibrosis, like advanced emphysema, one of the most important things I think is to listen to the patient, and not just to listen to the answers of your perfunctory ‘how’s your breathing? Any chest pain?’ and those sort of rote medical questions, but listen to their thoughts, and it will given them a safe space to say ‘Hey, I’m nervous, hey I’m worried about my family, hey I’m worried if I die what’s going to happen to my wife and kids,’ and that’s something I think is invaluable.”

It’s also vital to listen to the concerns of the patients family members, who may be the primary caregivers and may share the patient’s stresses and anxieties, he said.

Pulmonary Rehabilitation

All of the experts interviewed for this article agreed that a combination of medical, social and mental health support services is important for treatment for patients with chronic obstructive lung diseases.

One of the most effective means of helping patients with both acute breathing problems and with disease-related anxiety and depression is pulmonary rehabilitation. Depending on disease severity, this multidisciplinary approach may involve exercise, patient education, psychological and nutrition counseling, and training patients how to conserve energy and adopt breathing strategies to help them better manage their symptoms.

“I think that pulmonary rehabilitation is one of the first interventions that we should be recommending for our patients,” Dr. Garfield said. “It’s physical therapy for patients with chronic lung diseases, backed by respiratory therapists, and it offers not only physical rehabilitation — improving strength and coordination, but also it helps our patients get as much as possible out of what they’ve got.”

For example, patients can be taught how to decrease their respiratory rate when they’re feeling a sense of urgency or panic. Patients can also learn how to change body positions to help them breathe more effectively when they feel that their breath is limited or restricted, she said.

“Once you’re into medical interventions, pulmonary rehab is phenomenal,” Dr. Saleh said.

Pulmonary rehabilitation helps patients to feel better about themselves and about their abilities, but “unfortunately it’s not as available as we like,” he said.

Many patients don’t live near a pulmonary rehabilitation center, and the typical two to three weekly sessions for 4-12 weeks or longer can be a significant burden for patients and caregivers, he acknowledged.

“You have to sit [with the patient] and be honest and tell them it’s a lot of diligence involved and you have to be really motivated,” he said.

Other treatment options include pharmacological therapy with antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and anxiolytic agents.

“SSRIs are the current first-line drug treatment for depression, and have been shown to significantly improve depression and anxiety in patients with COPD in some, but not all, trials published to date. However, it is important to note that a diagnosis of bipolar disorder must be ruled out before initiating standard antidepressant therapy,” Dr. Johannes and colleagues wrote.

Defiant joy

Importantly, even with the burden of life with COPD, many patients found ways to experience what Strang et al. called “a defiant joy.”

“It was remarkable that when the patients were asked about what gave their lives meaning today, many talked about what had given their life meaning in the past, prior to becoming ill. In the light of the things they had lost because of the disease, many felt that their previous sources of joy no longer existed. Despite this, many still hoped to be able to get out into the fresh air, to be able to do errands, or that tomorrow might be better,” the investigators wrote.

Dr. Yohannes, Dr. Garfield, and Dr. Saleh all reported having no relevant conflicts of interest to report.

Airways Disorders Network

Asthma and COPD Section  

Maria_Azhar_web.JPG

Alismail_Abdullah_web.jpg

Raghav_Gupta_web.jpg

Remodeling of airways and destruction of parenchyma by immune and inflammatory mechanisms are the leading cause of lung function decline in patients with COPD. Type 2 inflammation has been recognized as an important phenotypic pathway in asthma. However, its role in COPD has been much less clear, which had been largely associated with innate immune response.¹

Activation of Interleukin (IL)-25, IL-33, thymic stromal lymphopoietin (TSLP) produces type 2 cytokines IL-4, IL-5, and IL-13, either by binding to ILC2 or by direct Th2 cells resulting in elevated eosinophils in sputum, lungs, and blood, as well as fractional exhaled nitric oxide.² The combined inflammation from this pathway underpins the pathological changes seen in airway mucosa, causing mucous hypersecretion and hyperresponsiveness.

Prior trials delineating the role of biologics, such as mepolizumab and benralizumab, showed variable results with possible benefit of add-on biologics on the annual COPD exacerbations among patients with eosinophilic phenotype of COPD.³

More recently, the BOREAS trial evaluated the role of dupilumab as an add-on therapy for patients with type 2 inflammation-driven COPD established using blood eosinophil count of at least 300/mL at initial screening.⁴ Dupilumab is a human monoclonal antibody that blocks combined IL-4 and IL-13 pathways with a broader effect on the type 2 inflammation. It included patients with moderate to severe exacerbations despite maximal triple inhaler therapy with blood eosinophilia. Patients with asthma were excluded. This 52-week trial showed reduction in annual moderate to severe COPD exacerbations, sustained lung function improvement as measured by prebronchodilator FEV₁, and improvement in patient-reported respiratory symptoms.⁴ Evaluation of sustainability of these results with therapy step-down approaches should be explored.

References

1. Scanlon & McKenzie, 2012.

2. Brusselle et al, 2013.

3. Pavord et al, 2017.

4. Bhatt et al, 2023.

Airways Disorders Network

Asthma and COPD Section  

Maria_Azhar_web.JPG

Alismail_Abdullah_web.jpg

Raghav_Gupta_web.jpg

Remodeling of airways and destruction of parenchyma by immune and inflammatory mechanisms are the leading cause of lung function decline in patients with COPD. Type 2 inflammation has been recognized as an important phenotypic pathway in asthma. However, its role in COPD has been much less clear, which had been largely associated with innate immune response.¹

Activation of Interleukin (IL)-25, IL-33, thymic stromal lymphopoietin (TSLP) produces type 2 cytokines IL-4, IL-5, and IL-13, either by binding to ILC2 or by direct Th2 cells resulting in elevated eosinophils in sputum, lungs, and blood, as well as fractional exhaled nitric oxide.² The combined inflammation from this pathway underpins the pathological changes seen in airway mucosa, causing mucous hypersecretion and hyperresponsiveness.

Prior trials delineating the role of biologics, such as mepolizumab and benralizumab, showed variable results with possible benefit of add-on biologics on the annual COPD exacerbations among patients with eosinophilic phenotype of COPD.³

More recently, the BOREAS trial evaluated the role of dupilumab as an add-on therapy for patients with type 2 inflammation-driven COPD established using blood eosinophil count of at least 300/mL at initial screening.⁴ Dupilumab is a human monoclonal antibody that blocks combined IL-4 and IL-13 pathways with a broader effect on the type 2 inflammation. It included patients with moderate to severe exacerbations despite maximal triple inhaler therapy with blood eosinophilia. Patients with asthma were excluded. This 52-week trial showed reduction in annual moderate to severe COPD exacerbations, sustained lung function improvement as measured by prebronchodilator FEV₁, and improvement in patient-reported respiratory symptoms.⁴ Evaluation of sustainability of these results with therapy step-down approaches should be explored.

References

1. Scanlon & McKenzie, 2012.

2. Brusselle et al, 2013.

3. Pavord et al, 2017.

4. Bhatt et al, 2023.

Airways Disorders Network

Asthma and COPD Section  

Maria_Azhar_web.JPG

Alismail_Abdullah_web.jpg

Raghav_Gupta_web.jpg

Remodeling of airways and destruction of parenchyma by immune and inflammatory mechanisms are the leading cause of lung function decline in patients with COPD. Type 2 inflammation has been recognized as an important phenotypic pathway in asthma. However, its role in COPD has been much less clear, which had been largely associated with innate immune response.¹

Activation of Interleukin (IL)-25, IL-33, thymic stromal lymphopoietin (TSLP) produces type 2 cytokines IL-4, IL-5, and IL-13, either by binding to ILC2 or by direct Th2 cells resulting in elevated eosinophils in sputum, lungs, and blood, as well as fractional exhaled nitric oxide.² The combined inflammation from this pathway underpins the pathological changes seen in airway mucosa, causing mucous hypersecretion and hyperresponsiveness.

Prior trials delineating the role of biologics, such as mepolizumab and benralizumab, showed variable results with possible benefit of add-on biologics on the annual COPD exacerbations among patients with eosinophilic phenotype of COPD.³

More recently, the BOREAS trial evaluated the role of dupilumab as an add-on therapy for patients with type 2 inflammation-driven COPD established using blood eosinophil count of at least 300/mL at initial screening.⁴ Dupilumab is a human monoclonal antibody that blocks combined IL-4 and IL-13 pathways with a broader effect on the type 2 inflammation. It included patients with moderate to severe exacerbations despite maximal triple inhaler therapy with blood eosinophilia. Patients with asthma were excluded. This 52-week trial showed reduction in annual moderate to severe COPD exacerbations, sustained lung function improvement as measured by prebronchodilator FEV₁, and improvement in patient-reported respiratory symptoms.⁴ Evaluation of sustainability of these results with therapy step-down approaches should be explored.

References

1. Scanlon & McKenzie, 2012.

2. Brusselle et al, 2013.

3. Pavord et al, 2017.

4. Bhatt et al, 2023.

“Janice Turner” (name changed to protect confidentiality) is a 66-year-old woman with a 40-pack per year history of smoking. She quit smoking 1 year ago and presents to your office for a follow-up visit after discharge from the hospital 14 days ago. This was her second hospitalization for a COPD exacerbation in the past 12 months. She is very worried about having another COPD exacerbation and wants to know if there are additional medications she could try.

Over the past 2 weeks, her respiratory symptoms have improved and returned to her baseline. She has a daily cough with white phlegm on most days and dyspnea on exertion at one-half block on level ground. She reports using her medications as prescribed and is enrolled in a pulmonary rehabilitation program, which she attends twice per week. She uses 2 to 4 inhalations of albuterol each day.

Krishnan_Jerry_A_CHICAGO_web.jpg

She is on the following regimen for her COPD, which is unchanged compared with what she has been prescribed for the past 12 months: 1) combination inhaled fluticasone furoate, umeclidinium, and vilanterol via the Ellipta^® device, one actuation once daily and 2) inhaled albuterol, two puffs as needed every 4 hours via metered dose inhaler. She demonstrates mastery of inhaler technique for both inhaled devices. Her vaccinations are current (pneumococcus, influenza, respiratory syncytial virus, and COVID-19).

On examination, she can complete sentences without respiratory difficulty, and her vital signs are normal. She has decreased breath sounds in all lung fields, with occasional rhonchi. Heart sounds are distant, but regular, at 92 beats per minute, and she has no peripheral edema. Arterial blood gas at rest on room air indicates a pH of 7.38, PaO₂ of 63 mm Hg, and PaCO₂ of 42 mm Hg. An electrocardiogram shows sinus rhythm and a QTc interval of 420 milliseconds.

Three months ago, when she was clinically stable, you obtained spirometry, a complete blood count with differential, and a chest radiograph to exclude alternate diagnoses for her ongoing respiratory symptoms. She had severe airflow limitation (post-bronchodilator FEV₁ = 40% predicted, FVC = 61% predicted, FEV₁/FVC = 65%). At the time, she also had peripheral eosinophilia (eosinophil count of 350 cells/μL) and hyperinflation without parenchymal infiltrates.

Adrish_Muhammad_HOUSTON_web.jpg

In summary, Ms. Turner has severe smoking-associated COPD Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage 3E and chronic bronchitis with two severe exacerbations in the past 12 months.¹ She is currently prescribed triple inhaled maintenance therapy with corticosteroids, long-acting β₂-agonist, and long-acting muscarinic antagonist. She has a normal QTc interval.

So what would you recommend to reduce Ms. Turner’s risk of future exacerbations?

In 2011, the US Food and Drug Administration (FDA) approved roflumilast 500 mcg by mouth per day, a selective phosphodiesterase 4 (PDE4) inhibitor, as maintenance therapy to reduce the risk of COPD exacerbations in patients with severe COPD associated with chronic bronchitis.² The FDA approval was based on a review of the efficacy and safety of roflumilast in eight randomized, double-blind, controlled clinical trials in 9,394 adults with COPD.

Two subsequently completed randomized clinical trials in 2015 (REACT, 1,945 adults) and 2016 (RE2SPOND, 2,354 adults) also found that maintenance oral treatment escalation with roflumilast significantly reduced the risk of COPD exacerbations compared with placebo.² The most common adverse effects reported with long-term use of roflumilast are related to the gastrointestinal tract (diarrhea, nausea, decreased appetite), weight loss, and insomnia. Four weeks of roflumilast at 250 mcg per day prior to dose escalation to 500 mcg per day reduces the risk of treatment discontinuation and improves tolerability compared with initiating treatment with the maintenance dose.

In 2022, the FDA approved a generic version of roflumilast, providing an opportunity for patients to use roflumilast at a lower cost than was previously possible. Importantly, the FDA Prescribing Information includes a warning to avoid the use of roflumilast in patients being treated with strong cytochrome P450 enzyme inducers (eg, rifampin, phenytoin). The FDA Prescribing Information also recommends weighing the risks and benefits of roflumilast in patients with a history of depression or suicidal thoughts or behavior, or patients with unexplained or clinically significant weight loss.

In 2011 (the same year as the FDA approval of roflumilast), the National Institutes of Health/National Heart, Lung, and Blood Institute-funded COPD Clinical Research Network reported that maintenance treatment with azithromycin reduced the risk of COPD exacerbations compared with placebo in a randomized clinical trial of 1,142 adults with COPD (MACRO study).³ Subgroup analyses indicated that the reduction in the risk of COPD exacerbations with azithromycin was observed in participants with or without chronic bronchitis but not in participants who currently smoked.

Subsequently, two other smaller randomized clinical trials in 2014 (COLUMBUS, 92 participants) and in 2019 (BACE, 301 participants) also demonstrated a reduction in the risk of COPD exacerbations with maintenance azithromycin treatment compared with placebo. Azithromycin can prolong the QT interval and, in rare cases, cause cardiac arrythmias, especially when used with other medications that can prolong the QT interval. There are also concerns that maintenance azithromycin therapy could lead to decrements in hearing or promote the development of macrolide-resistant bacteria. Maintenance treatment with azithromycin to prevent COPD exacerbations is not an FDA-approved indication.⁴ The FDA approval for azithromycin is currently limited to treatment of patients with mild to moderate infections caused by susceptible bacteria, but it is often prescribed off-label as maintenance treatment for COPD.

On the basis of this body of evidence from clinical trials in COPD, the 2015 CHEST and Canadian Thoracic Society (CTS) guidelines,⁵ the 2017 European Respiratory Society/American Thoracic Society (ERS/ATS) guidelines,⁶ and the 2024 GOLD Strategy Report all include recommendations for treatment escalation with maintenance roflumilast or azithromycin to reduce the risk of COPD exacerbations. For example, the 2024 GOLD Strategy Report recommends roflumilast in patients with severe COPD and chronic bronchitis who continue to have exacerbations despite inhaled maintenance treatment with combination long-acting β₂-agonist and long-acting muscarinic antagonist or with triple therapy with inhaled corticosteroids, long-acting β₂-agonist, and long-acting muscarinic antagonist. An alternative, 2024 GOLD-recommended strategy in this population is maintenance therapy with azithromycin, “preferentially in former smokers.” GOLD’s preference for using azithromycin in patients with smoking history is based on post-hoc (ie, not part of the original study design) subgroup analyses “suggesting lesser benefit in active smokers” in the MACRO study. Results of such analyses have not been reported in other studies.

There are no results from clinical trials that have directly compared the harms and benefits of initiating maintenance therapy with roflumilast or azithromycin in patients with COPD. The roflumilast or azithromycin to prevent COPD exacerbations (RELIANCE; NCT04069312) multicenter clinical trial is addressing this evidence gap.⁷ The RELIANCE study is funded by the Patient-Centered Outcomes Research Institute and co-led by the COPD Foundation, a not-for-profit organization founded by John W. Walsh, a patient advocate with α1-related COPD. Also, results of two recently completed phase 3 clinical trials with nebulized ensifentrine (ENHANCE-1 and ENHANCE-2), a novel inhibitor of PDE3 and PDE4, were recently published. ENHANCE-1 and ENHANCE-2 studies indicate that twice daily nebulized ensifentrine reduces the risk of COPD exacerbations in patients with moderate or severe COPD.⁸ Ensifentrine is under review by the FDA, and a decision about its use in the US is expected in the summer of 2024.

Until the results from the RELIANCE clinical trial and the decision by the FDA about ensifentrine are available, we recommended a discussion with Ms. Turner about whether to initiate treatment with maintenance roflumilast or azithromycin. Both can reduce the risk of exacerbations, and the relative benefits and risks of these two evidence-based options are not yet known. Unless Ms. Turner has specific preferences (eg, concerns about specific adverse effects or differences in out-of-pocket cost) in favor of one over the other, she could flip a coin to decide between initiating maintenance roflumilast or azithromycin.
 

Dr. Krishnan is Professor of Medicine, Division of Pulmonary, Critical Care, Sleep & Allergy, and Professor of Public Health, Division of Epidemiology and Biostatistics, University of Illinois Chicago. Dr. Adrish is Associate Professor, Pulmonary, Critical Care and Sleep Medicine, Baylor College of Medicine, Houston.

References:

1. Global Initiative for Chronic Obstructive Lung Disease. Global strategy for the diagnosis, management, and prevention of chronic obstructive pulmonary disease: 2024 report. https://goldcopd.org/2024-gold-report-2/

2. US Food and Drug Administration (Daliresp^®). https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/022522s003lbl.pdf

3. Albert RK, Connett J, Bailey WC, et al; COPD Clinical Research Network. Azithromucin for prevention of exacerbations of COPD. N Engl J Med. 2011;365(8):689-98. PMID: 21864166. doi: 10.1056/NEJMoa1104623.

4. US Food and Drug Administration (Zithromyax^®). https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/050710s039,050711s036,050784s023lbl.pdf

5. Criner GJ, Bourbeau J, Diekemper RL, et al. Prevention of acure exacerbations of COPD: American College of Chest Physicians and Canadian Thoracic Society guideline. Chest. 2015;147(4)894-942. PMID: 25321320. doi: 10.1378/chest.14-1676.

6. Wedzicha JA, Calverley PMA, Albert RK, et al. Prevention of COPD exacerbations: a European Respiratory Society/American Thoracic Society guideline. Eur Respir J. 2017;50(3):1602265. PMID: 28889106. doi:10.1183/13993003.02265-2016.

7. Krishnan JA, Albert RK, Rennard SI; RELIANCE study. Waiting for actionable evidence: roflumilast or azithromycin? Chronic Obst Pulm Dis. 2022;9(1):1-3. PMID: 34783231. doi: 10.15326/jcopdf.2021.0272.

8. Anzueto A, Barjaktarevic IZ, Siler TM, et al. Ensifentrine, a novel phospodiesterase 3 and 4 inhibitor for the treatment of chronic obstructive pulmonary disease: randomized, double-blind, placebo-controlled, multicenter phase III trials (the ENHANCE trials). Am J Respir Crit Care Med. 2023;208(4):406-416. PMID: 37364283.

“Janice Turner” (name changed to protect confidentiality) is a 66-year-old woman with a 40-pack per year history of smoking. She quit smoking 1 year ago and presents to your office for a follow-up visit after discharge from the hospital 14 days ago. This was her second hospitalization for a COPD exacerbation in the past 12 months. She is very worried about having another COPD exacerbation and wants to know if there are additional medications she could try.

Over the past 2 weeks, her respiratory symptoms have improved and returned to her baseline. She has a daily cough with white phlegm on most days and dyspnea on exertion at one-half block on level ground. She reports using her medications as prescribed and is enrolled in a pulmonary rehabilitation program, which she attends twice per week. She uses 2 to 4 inhalations of albuterol each day.

Krishnan_Jerry_A_CHICAGO_web.jpg

She is on the following regimen for her COPD, which is unchanged compared with what she has been prescribed for the past 12 months: 1) combination inhaled fluticasone furoate, umeclidinium, and vilanterol via the Ellipta^® device, one actuation once daily and 2) inhaled albuterol, two puffs as needed every 4 hours via metered dose inhaler. She demonstrates mastery of inhaler technique for both inhaled devices. Her vaccinations are current (pneumococcus, influenza, respiratory syncytial virus, and COVID-19).

On examination, she can complete sentences without respiratory difficulty, and her vital signs are normal. She has decreased breath sounds in all lung fields, with occasional rhonchi. Heart sounds are distant, but regular, at 92 beats per minute, and she has no peripheral edema. Arterial blood gas at rest on room air indicates a pH of 7.38, PaO₂ of 63 mm Hg, and PaCO₂ of 42 mm Hg. An electrocardiogram shows sinus rhythm and a QTc interval of 420 milliseconds.

Three months ago, when she was clinically stable, you obtained spirometry, a complete blood count with differential, and a chest radiograph to exclude alternate diagnoses for her ongoing respiratory symptoms. She had severe airflow limitation (post-bronchodilator FEV₁ = 40% predicted, FVC = 61% predicted, FEV₁/FVC = 65%). At the time, she also had peripheral eosinophilia (eosinophil count of 350 cells/μL) and hyperinflation without parenchymal infiltrates.

Adrish_Muhammad_HOUSTON_web.jpg

In summary, Ms. Turner has severe smoking-associated COPD Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage 3E and chronic bronchitis with two severe exacerbations in the past 12 months.¹ She is currently prescribed triple inhaled maintenance therapy with corticosteroids, long-acting β₂-agonist, and long-acting muscarinic antagonist. She has a normal QTc interval.

So what would you recommend to reduce Ms. Turner’s risk of future exacerbations?

In 2011, the US Food and Drug Administration (FDA) approved roflumilast 500 mcg by mouth per day, a selective phosphodiesterase 4 (PDE4) inhibitor, as maintenance therapy to reduce the risk of COPD exacerbations in patients with severe COPD associated with chronic bronchitis.² The FDA approval was based on a review of the efficacy and safety of roflumilast in eight randomized, double-blind, controlled clinical trials in 9,394 adults with COPD.

Two subsequently completed randomized clinical trials in 2015 (REACT, 1,945 adults) and 2016 (RE2SPOND, 2,354 adults) also found that maintenance oral treatment escalation with roflumilast significantly reduced the risk of COPD exacerbations compared with placebo.² The most common adverse effects reported with long-term use of roflumilast are related to the gastrointestinal tract (diarrhea, nausea, decreased appetite), weight loss, and insomnia. Four weeks of roflumilast at 250 mcg per day prior to dose escalation to 500 mcg per day reduces the risk of treatment discontinuation and improves tolerability compared with initiating treatment with the maintenance dose.

In 2022, the FDA approved a generic version of roflumilast, providing an opportunity for patients to use roflumilast at a lower cost than was previously possible. Importantly, the FDA Prescribing Information includes a warning to avoid the use of roflumilast in patients being treated with strong cytochrome P450 enzyme inducers (eg, rifampin, phenytoin). The FDA Prescribing Information also recommends weighing the risks and benefits of roflumilast in patients with a history of depression or suicidal thoughts or behavior, or patients with unexplained or clinically significant weight loss.

In 2011 (the same year as the FDA approval of roflumilast), the National Institutes of Health/National Heart, Lung, and Blood Institute-funded COPD Clinical Research Network reported that maintenance treatment with azithromycin reduced the risk of COPD exacerbations compared with placebo in a randomized clinical trial of 1,142 adults with COPD (MACRO study).³ Subgroup analyses indicated that the reduction in the risk of COPD exacerbations with azithromycin was observed in participants with or without chronic bronchitis but not in participants who currently smoked.

Subsequently, two other smaller randomized clinical trials in 2014 (COLUMBUS, 92 participants) and in 2019 (BACE, 301 participants) also demonstrated a reduction in the risk of COPD exacerbations with maintenance azithromycin treatment compared with placebo. Azithromycin can prolong the QT interval and, in rare cases, cause cardiac arrythmias, especially when used with other medications that can prolong the QT interval. There are also concerns that maintenance azithromycin therapy could lead to decrements in hearing or promote the development of macrolide-resistant bacteria. Maintenance treatment with azithromycin to prevent COPD exacerbations is not an FDA-approved indication.⁴ The FDA approval for azithromycin is currently limited to treatment of patients with mild to moderate infections caused by susceptible bacteria, but it is often prescribed off-label as maintenance treatment for COPD.

On the basis of this body of evidence from clinical trials in COPD, the 2015 CHEST and Canadian Thoracic Society (CTS) guidelines,⁵ the 2017 European Respiratory Society/American Thoracic Society (ERS/ATS) guidelines,⁶ and the 2024 GOLD Strategy Report all include recommendations for treatment escalation with maintenance roflumilast or azithromycin to reduce the risk of COPD exacerbations. For example, the 2024 GOLD Strategy Report recommends roflumilast in patients with severe COPD and chronic bronchitis who continue to have exacerbations despite inhaled maintenance treatment with combination long-acting β₂-agonist and long-acting muscarinic antagonist or with triple therapy with inhaled corticosteroids, long-acting β₂-agonist, and long-acting muscarinic antagonist. An alternative, 2024 GOLD-recommended strategy in this population is maintenance therapy with azithromycin, “preferentially in former smokers.” GOLD’s preference for using azithromycin in patients with smoking history is based on post-hoc (ie, not part of the original study design) subgroup analyses “suggesting lesser benefit in active smokers” in the MACRO study. Results of such analyses have not been reported in other studies.

There are no results from clinical trials that have directly compared the harms and benefits of initiating maintenance therapy with roflumilast or azithromycin in patients with COPD. The roflumilast or azithromycin to prevent COPD exacerbations (RELIANCE; NCT04069312) multicenter clinical trial is addressing this evidence gap.⁷ The RELIANCE study is funded by the Patient-Centered Outcomes Research Institute and co-led by the COPD Foundation, a not-for-profit organization founded by John W. Walsh, a patient advocate with α1-related COPD. Also, results of two recently completed phase 3 clinical trials with nebulized ensifentrine (ENHANCE-1 and ENHANCE-2), a novel inhibitor of PDE3 and PDE4, were recently published. ENHANCE-1 and ENHANCE-2 studies indicate that twice daily nebulized ensifentrine reduces the risk of COPD exacerbations in patients with moderate or severe COPD.⁸ Ensifentrine is under review by the FDA, and a decision about its use in the US is expected in the summer of 2024.

Until the results from the RELIANCE clinical trial and the decision by the FDA about ensifentrine are available, we recommended a discussion with Ms. Turner about whether to initiate treatment with maintenance roflumilast or azithromycin. Both can reduce the risk of exacerbations, and the relative benefits and risks of these two evidence-based options are not yet known. Unless Ms. Turner has specific preferences (eg, concerns about specific adverse effects or differences in out-of-pocket cost) in favor of one over the other, she could flip a coin to decide between initiating maintenance roflumilast or azithromycin.
 

Dr. Krishnan is Professor of Medicine, Division of Pulmonary, Critical Care, Sleep & Allergy, and Professor of Public Health, Division of Epidemiology and Biostatistics, University of Illinois Chicago. Dr. Adrish is Associate Professor, Pulmonary, Critical Care and Sleep Medicine, Baylor College of Medicine, Houston.

References:

1. Global Initiative for Chronic Obstructive Lung Disease. Global strategy for the diagnosis, management, and prevention of chronic obstructive pulmonary disease: 2024 report. https://goldcopd.org/2024-gold-report-2/

2. US Food and Drug Administration (Daliresp^®). https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/022522s003lbl.pdf

3. Albert RK, Connett J, Bailey WC, et al; COPD Clinical Research Network. Azithromucin for prevention of exacerbations of COPD. N Engl J Med. 2011;365(8):689-98. PMID: 21864166. doi: 10.1056/NEJMoa1104623.

4. US Food and Drug Administration (Zithromyax^®). https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/050710s039,050711s036,050784s023lbl.pdf

5. Criner GJ, Bourbeau J, Diekemper RL, et al. Prevention of acure exacerbations of COPD: American College of Chest Physicians and Canadian Thoracic Society guideline. Chest. 2015;147(4)894-942. PMID: 25321320. doi: 10.1378/chest.14-1676.

6. Wedzicha JA, Calverley PMA, Albert RK, et al. Prevention of COPD exacerbations: a European Respiratory Society/American Thoracic Society guideline. Eur Respir J. 2017;50(3):1602265. PMID: 28889106. doi:10.1183/13993003.02265-2016.

7. Krishnan JA, Albert RK, Rennard SI; RELIANCE study. Waiting for actionable evidence: roflumilast or azithromycin? Chronic Obst Pulm Dis. 2022;9(1):1-3. PMID: 34783231. doi: 10.15326/jcopdf.2021.0272.

8. Anzueto A, Barjaktarevic IZ, Siler TM, et al. Ensifentrine, a novel phospodiesterase 3 and 4 inhibitor for the treatment of chronic obstructive pulmonary disease: randomized, double-blind, placebo-controlled, multicenter phase III trials (the ENHANCE trials). Am J Respir Crit Care Med. 2023;208(4):406-416. PMID: 37364283.

“Janice Turner” (name changed to protect confidentiality) is a 66-year-old woman with a 40-pack per year history of smoking. She quit smoking 1 year ago and presents to your office for a follow-up visit after discharge from the hospital 14 days ago. This was her second hospitalization for a COPD exacerbation in the past 12 months. She is very worried about having another COPD exacerbation and wants to know if there are additional medications she could try.

Over the past 2 weeks, her respiratory symptoms have improved and returned to her baseline. She has a daily cough with white phlegm on most days and dyspnea on exertion at one-half block on level ground. She reports using her medications as prescribed and is enrolled in a pulmonary rehabilitation program, which she attends twice per week. She uses 2 to 4 inhalations of albuterol each day.

Krishnan_Jerry_A_CHICAGO_web.jpg

She is on the following regimen for her COPD, which is unchanged compared with what she has been prescribed for the past 12 months: 1) combination inhaled fluticasone furoate, umeclidinium, and vilanterol via the Ellipta^® device, one actuation once daily and 2) inhaled albuterol, two puffs as needed every 4 hours via metered dose inhaler. She demonstrates mastery of inhaler technique for both inhaled devices. Her vaccinations are current (pneumococcus, influenza, respiratory syncytial virus, and COVID-19).

On examination, she can complete sentences without respiratory difficulty, and her vital signs are normal. She has decreased breath sounds in all lung fields, with occasional rhonchi. Heart sounds are distant, but regular, at 92 beats per minute, and she has no peripheral edema. Arterial blood gas at rest on room air indicates a pH of 7.38, PaO₂ of 63 mm Hg, and PaCO₂ of 42 mm Hg. An electrocardiogram shows sinus rhythm and a QTc interval of 420 milliseconds.

Three months ago, when she was clinically stable, you obtained spirometry, a complete blood count with differential, and a chest radiograph to exclude alternate diagnoses for her ongoing respiratory symptoms. She had severe airflow limitation (post-bronchodilator FEV₁ = 40% predicted, FVC = 61% predicted, FEV₁/FVC = 65%). At the time, she also had peripheral eosinophilia (eosinophil count of 350 cells/μL) and hyperinflation without parenchymal infiltrates.

Adrish_Muhammad_HOUSTON_web.jpg

In summary, Ms. Turner has severe smoking-associated COPD Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage 3E and chronic bronchitis with two severe exacerbations in the past 12 months.¹ She is currently prescribed triple inhaled maintenance therapy with corticosteroids, long-acting β₂-agonist, and long-acting muscarinic antagonist. She has a normal QTc interval.

So what would you recommend to reduce Ms. Turner’s risk of future exacerbations?

In 2011, the US Food and Drug Administration (FDA) approved roflumilast 500 mcg by mouth per day, a selective phosphodiesterase 4 (PDE4) inhibitor, as maintenance therapy to reduce the risk of COPD exacerbations in patients with severe COPD associated with chronic bronchitis.² The FDA approval was based on a review of the efficacy and safety of roflumilast in eight randomized, double-blind, controlled clinical trials in 9,394 adults with COPD.

Two subsequently completed randomized clinical trials in 2015 (REACT, 1,945 adults) and 2016 (RE2SPOND, 2,354 adults) also found that maintenance oral treatment escalation with roflumilast significantly reduced the risk of COPD exacerbations compared with placebo.² The most common adverse effects reported with long-term use of roflumilast are related to the gastrointestinal tract (diarrhea, nausea, decreased appetite), weight loss, and insomnia. Four weeks of roflumilast at 250 mcg per day prior to dose escalation to 500 mcg per day reduces the risk of treatment discontinuation and improves tolerability compared with initiating treatment with the maintenance dose.

In 2022, the FDA approved a generic version of roflumilast, providing an opportunity for patients to use roflumilast at a lower cost than was previously possible. Importantly, the FDA Prescribing Information includes a warning to avoid the use of roflumilast in patients being treated with strong cytochrome P450 enzyme inducers (eg, rifampin, phenytoin). The FDA Prescribing Information also recommends weighing the risks and benefits of roflumilast in patients with a history of depression or suicidal thoughts or behavior, or patients with unexplained or clinically significant weight loss.

In 2011 (the same year as the FDA approval of roflumilast), the National Institutes of Health/National Heart, Lung, and Blood Institute-funded COPD Clinical Research Network reported that maintenance treatment with azithromycin reduced the risk of COPD exacerbations compared with placebo in a randomized clinical trial of 1,142 adults with COPD (MACRO study).³ Subgroup analyses indicated that the reduction in the risk of COPD exacerbations with azithromycin was observed in participants with or without chronic bronchitis but not in participants who currently smoked.

Subsequently, two other smaller randomized clinical trials in 2014 (COLUMBUS, 92 participants) and in 2019 (BACE, 301 participants) also demonstrated a reduction in the risk of COPD exacerbations with maintenance azithromycin treatment compared with placebo. Azithromycin can prolong the QT interval and, in rare cases, cause cardiac arrythmias, especially when used with other medications that can prolong the QT interval. There are also concerns that maintenance azithromycin therapy could lead to decrements in hearing or promote the development of macrolide-resistant bacteria. Maintenance treatment with azithromycin to prevent COPD exacerbations is not an FDA-approved indication.⁴ The FDA approval for azithromycin is currently limited to treatment of patients with mild to moderate infections caused by susceptible bacteria, but it is often prescribed off-label as maintenance treatment for COPD.

On the basis of this body of evidence from clinical trials in COPD, the 2015 CHEST and Canadian Thoracic Society (CTS) guidelines,⁵ the 2017 European Respiratory Society/American Thoracic Society (ERS/ATS) guidelines,⁶ and the 2024 GOLD Strategy Report all include recommendations for treatment escalation with maintenance roflumilast or azithromycin to reduce the risk of COPD exacerbations. For example, the 2024 GOLD Strategy Report recommends roflumilast in patients with severe COPD and chronic bronchitis who continue to have exacerbations despite inhaled maintenance treatment with combination long-acting β₂-agonist and long-acting muscarinic antagonist or with triple therapy with inhaled corticosteroids, long-acting β₂-agonist, and long-acting muscarinic antagonist. An alternative, 2024 GOLD-recommended strategy in this population is maintenance therapy with azithromycin, “preferentially in former smokers.” GOLD’s preference for using azithromycin in patients with smoking history is based on post-hoc (ie, not part of the original study design) subgroup analyses “suggesting lesser benefit in active smokers” in the MACRO study. Results of such analyses have not been reported in other studies.

There are no results from clinical trials that have directly compared the harms and benefits of initiating maintenance therapy with roflumilast or azithromycin in patients with COPD. The roflumilast or azithromycin to prevent COPD exacerbations (RELIANCE; NCT04069312) multicenter clinical trial is addressing this evidence gap.⁷ The RELIANCE study is funded by the Patient-Centered Outcomes Research Institute and co-led by the COPD Foundation, a not-for-profit organization founded by John W. Walsh, a patient advocate with α1-related COPD. Also, results of two recently completed phase 3 clinical trials with nebulized ensifentrine (ENHANCE-1 and ENHANCE-2), a novel inhibitor of PDE3 and PDE4, were recently published. ENHANCE-1 and ENHANCE-2 studies indicate that twice daily nebulized ensifentrine reduces the risk of COPD exacerbations in patients with moderate or severe COPD.⁸ Ensifentrine is under review by the FDA, and a decision about its use in the US is expected in the summer of 2024.

Until the results from the RELIANCE clinical trial and the decision by the FDA about ensifentrine are available, we recommended a discussion with Ms. Turner about whether to initiate treatment with maintenance roflumilast or azithromycin. Both can reduce the risk of exacerbations, and the relative benefits and risks of these two evidence-based options are not yet known. Unless Ms. Turner has specific preferences (eg, concerns about specific adverse effects or differences in out-of-pocket cost) in favor of one over the other, she could flip a coin to decide between initiating maintenance roflumilast or azithromycin.
 

Dr. Krishnan is Professor of Medicine, Division of Pulmonary, Critical Care, Sleep & Allergy, and Professor of Public Health, Division of Epidemiology and Biostatistics, University of Illinois Chicago. Dr. Adrish is Associate Professor, Pulmonary, Critical Care and Sleep Medicine, Baylor College of Medicine, Houston.

References:

1. Global Initiative for Chronic Obstructive Lung Disease. Global strategy for the diagnosis, management, and prevention of chronic obstructive pulmonary disease: 2024 report. https://goldcopd.org/2024-gold-report-2/

2. US Food and Drug Administration (Daliresp^®). https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/022522s003lbl.pdf

3. Albert RK, Connett J, Bailey WC, et al; COPD Clinical Research Network. Azithromucin for prevention of exacerbations of COPD. N Engl J Med. 2011;365(8):689-98. PMID: 21864166. doi: 10.1056/NEJMoa1104623.

4. US Food and Drug Administration (Zithromyax^®). https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/050710s039,050711s036,050784s023lbl.pdf

5. Criner GJ, Bourbeau J, Diekemper RL, et al. Prevention of acure exacerbations of COPD: American College of Chest Physicians and Canadian Thoracic Society guideline. Chest. 2015;147(4)894-942. PMID: 25321320. doi: 10.1378/chest.14-1676.

6. Wedzicha JA, Calverley PMA, Albert RK, et al. Prevention of COPD exacerbations: a European Respiratory Society/American Thoracic Society guideline. Eur Respir J. 2017;50(3):1602265. PMID: 28889106. doi:10.1183/13993003.02265-2016.

7. Krishnan JA, Albert RK, Rennard SI; RELIANCE study. Waiting for actionable evidence: roflumilast or azithromycin? Chronic Obst Pulm Dis. 2022;9(1):1-3. PMID: 34783231. doi: 10.15326/jcopdf.2021.0272.

8. Anzueto A, Barjaktarevic IZ, Siler TM, et al. Ensifentrine, a novel phospodiesterase 3 and 4 inhibitor for the treatment of chronic obstructive pulmonary disease: randomized, double-blind, placebo-controlled, multicenter phase III trials (the ENHANCE trials). Am J Respir Crit Care Med. 2023;208(4):406-416. PMID: 37364283.

Many patients with chronic progressive pulmonary disease feel anxious and depressed as their conditions advance, as breathing becomes increasingly labored and difficult, and as performing even small daily tasks leaves them exhausted. 
Persons with severe COPD frequently report fears of suffocation and death, as well as anxieties about abandoning family and friends, and these negative, intrusive thoughts can have an adverse effect on COPD outcomes. 
Disease-related mental distress can lead to increased disability, more frequent use of costly health care resources, higher morbidity, and elevated risk of death, investigators say. 
"Individuals with severe COPD are twice as likely to develop depression than patients with mild COPD. Prevalence rates for clinical anxiety in COPD range from 13% to 46% in outpatients and 10% to 55% among inpatients," wrote Abebaw Mengitsu Yohannes, PhD, then from Azusa Pacific University in Azusa, California and colleagues in an article published jointly by The Journal of Family Practice and The Cleveland Clinic Journal of Medicine.  

Fears of dying (and living)  

The causes of depression and anxiety among patients with obstructive pulmonary disorders are multi-factorial, and may require a variety of treatment and coping strategies, according to Susann Strang, RN, PhD, and colleagues from the University of Gothenburg, Sweden.  
They conducted qualitative in-depth interviews with 31 men and women with stage III or IV COPD, and found that the majority of patients had anxiety associated with their disease. 
"Analyses revealed three major themes: death anxiety, life anxiety, and counterweights to anxiety," the investigators wrote in a study published in the journal Palliative and Supportive Care in 2014. 
Factors contributing to anxiety surrounding death included fear of suffocation, awareness of impending death, fear of the process of death, and anxiety about being separated from loved ones. 
In contrast, some patients expressed dread of living with the limitations and loneliness imposed on them by their disease, so called "life anxiety." 
The patients also reported "counterweights" to anxiety as a way of coping. For some this involved trust in their health care professionals and adherence to medication, inhalers, and supplemental oxygen. 
"The patients also placed hope in new treatments, better medication, surgery, stem cell treatment, or lung transplants," Dr. Strang and colleagues reported. 
Others reported avoiding talking about death, sleeping more, or using humor to "laugh off this difficult subject." 

Screening and diagnosis 

Primary care practitioners are often the first health professionals that patients with COPD see, but these clinicians often don't have the time to add screening to their already crammed schedules. In addition, "the lack of a standardized approach in diagnosis, and inadequate knowledge or confidence in assessing psychological status (particularly given the number of strategies available for screening patients for mood disorders)," can make it difficult for PCPs to detect and manage anxiety and depression in their patients with significant health care burdens from COPD and other obstructive lung diseases, Dr. Yohannes and colleagues noted. 
In addition to commonly used screening tools for anxiety and depression such as the Primary Care Evaluation of Mental Disorders (PRIME-MD) Patient Health Questionnaire (PHQ-9), there are at least two designed to evaluate patients with lung disease: the Anxiety Inventory for Respiratory (AIR) Disease scale, developed by Dr. Johannes and colleagues, and the COPD Anxiety Questionnaire. 
The COPD Assessment Testand Clinical COPD Questionnaire, while not specifically designed to screen for mental disorders, include questions that can point to symptoms of distress in patients with COPD, Dr. Yohannes said. 
"In truth I think that there are few providers who will routinely do this on all their patients in terms of quantifying the severity or the presence or absence of depression, but in my own practice I very much ask questions that align with the questions in these tools to determine whether my patient appears to have high levels of anxiety and depression," Dr. Garfield said. 

Listen to patients and families 

Among the most powerful tools that clinicians have at their disposal for treating anxiety and depression in patients with chronic lung disease are their ears and their minds, said Anthony Saleh, MD, a pulmonologist at New York-Presbyterian Brooklyn Methodist Hospital in Brooklyn, New York. 
"I think just listening to the patient, that's a little bit forgotten yet so important," he said in an interview with Chest Physician.  
"When I have someone with advanced lung disease, like idiopathic pulmonary fibrosis, like advanced emphysema, one of the most important things I think is to listen to the patient, and not just to listen to the answers of your perfunctory 'how's your breathing? Any chest pain?' and those sort of rote medical questions, but listen to their thoughts, and it will given them a safe space to say 'Hey, I'm nervous, hey I'm worried about my family, hey I'm worried if I die what's going to happen to my wife and kids,' and that's something I think is invaluable." 
It's also vital to listen to the concerns of the patients family members, who may be the primary caregivers and may share the patient's stresses and anxieties, he said. 

Pulmonary Rehabilitation 

All of the experts interviewed for this article agreed that a combination of medical, social and mental health support services is important for treatment for patients with chronic obstructive lung diseases. 
One of the most effective means of helping patients with both acute breathing problems and with disease-related anxiety and depression is pulmonary rehabilitation. Depending on disease severity, this multidisciplinary approach may involve exercise, patient education, psychological and nutrition counseling, and training patients how to conserve energy and adopt breathing strategies to help them better manage their symptoms. 
"I think that pulmonary rehabilitation is one of the first interventions that we should be recommending for our patients," Dr. Garfield said. "It's physical therapy for patients with chronic lung diseases, backed by respiratory therapists, and it offers not only physical rehabilitation - improving strength and coordination, but  also it helps our patients get as much as possible out of what they've got." 
For example, patients can be taught how to decrease their respiratory rate when they're feeling a sense of urgency or panic. Patients can also learn how to change body positions to help them breathe more effectively when they feel that their breath is limited or restricted, she said.  
"Once your into medical interventions, pulmonary rehab is phenomenal," Dr. Saleh said.  
Pulmonary rehabilitation helps patients to feel better about themselves and about their abilities, but "unfortunately it's not as available as we like," he said. 
Many patients don't live near a pulmonary rehabilitation center, and the typical two to three weekly sessions for 4 to 12 weeks or longer can be a significant burden for patients and caregivers, he acknowledged. 
"You have to sit [with the patient] and be honest and tell them it's a lot of diligence involved and you have to be really motivated," he said. 
Other treatment options include pharmacological therapy with antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and anxiolytic agents. 
"SSRIs are the current first-line drug treatment for depression, and have been shown to significantly improve depression and anxiety in patients with COPD in some, but not all, trials published to date. However, it is important to note that a diagnosis of bipolar disorder must be ruled out before initiating standard antidepressant therapy," Dr. Johannes and colleagues wrote. 

Defiant joy 

Importantly, even with the burden of life with COPD, many patients found ways to experience what Strang et al called "a defiant joy." 
 "It was remarkable that when the patients were asked about what gave their lives meaning today, many talked about what had given their life meaning in the past, prior to becoming ill. In the light of the things they had lost because of the disease, many felt that their previous sources of joy no longer existed. Despite this, many still hoped to be able to get out into the fresh air, to be able to do errands or that tomorrow might be better," the investigators wrote. 
Dr. Yohannes, Dr. Garfield, and Dr. Saleh all reported having no relevant conflicts of interest to report.

Many patients with chronic progressive pulmonary disease feel anxious and depressed as their conditions advance, as breathing becomes increasingly labored and difficult, and as performing even small daily tasks leaves them exhausted. 
Persons with severe COPD frequently report fears of suffocation and death, as well as anxieties about abandoning family and friends, and these negative, intrusive thoughts can have an adverse effect on COPD outcomes. 
Disease-related mental distress can lead to increased disability, more frequent use of costly health care resources, higher morbidity, and elevated risk of death, investigators say. 
"Individuals with severe COPD are twice as likely to develop depression than patients with mild COPD. Prevalence rates for clinical anxiety in COPD range from 13% to 46% in outpatients and 10% to 55% among inpatients," wrote Abebaw Mengitsu Yohannes, PhD, then from Azusa Pacific University in Azusa, California and colleagues in an article published jointly by The Journal of Family Practice and The Cleveland Clinic Journal of Medicine.  

Fears of dying (and living)  

The causes of depression and anxiety among patients with obstructive pulmonary disorders are multi-factorial, and may require a variety of treatment and coping strategies, according to Susann Strang, RN, PhD, and colleagues from the University of Gothenburg, Sweden.  
They conducted qualitative in-depth interviews with 31 men and women with stage III or IV COPD, and found that the majority of patients had anxiety associated with their disease. 
"Analyses revealed three major themes: death anxiety, life anxiety, and counterweights to anxiety," the investigators wrote in a study published in the journal Palliative and Supportive Care in 2014. 
Factors contributing to anxiety surrounding death included fear of suffocation, awareness of impending death, fear of the process of death, and anxiety about being separated from loved ones. 
In contrast, some patients expressed dread of living with the limitations and loneliness imposed on them by their disease, so called "life anxiety." 
The patients also reported "counterweights" to anxiety as a way of coping. For some this involved trust in their health care professionals and adherence to medication, inhalers, and supplemental oxygen. 
"The patients also placed hope in new treatments, better medication, surgery, stem cell treatment, or lung transplants," Dr. Strang and colleagues reported. 
Others reported avoiding talking about death, sleeping more, or using humor to "laugh off this difficult subject." 

Screening and diagnosis 

Primary care practitioners are often the first health professionals that patients with COPD see, but these clinicians often don't have the time to add screening to their already crammed schedules. In addition, "the lack of a standardized approach in diagnosis, and inadequate knowledge or confidence in assessing psychological status (particularly given the number of strategies available for screening patients for mood disorders)," can make it difficult for PCPs to detect and manage anxiety and depression in their patients with significant health care burdens from COPD and other obstructive lung diseases, Dr. Yohannes and colleagues noted. 
In addition to commonly used screening tools for anxiety and depression such as the Primary Care Evaluation of Mental Disorders (PRIME-MD) Patient Health Questionnaire (PHQ-9), there are at least two designed to evaluate patients with lung disease: the Anxiety Inventory for Respiratory (AIR) Disease scale, developed by Dr. Johannes and colleagues, and the COPD Anxiety Questionnaire. 
The COPD Assessment Testand Clinical COPD Questionnaire, while not specifically designed to screen for mental disorders, include questions that can point to symptoms of distress in patients with COPD, Dr. Yohannes said. 
"In truth I think that there are few providers who will routinely do this on all their patients in terms of quantifying the severity or the presence or absence of depression, but in my own practice I very much ask questions that align with the questions in these tools to determine whether my patient appears to have high levels of anxiety and depression," Dr. Garfield said. 

Listen to patients and families 

Among the most powerful tools that clinicians have at their disposal for treating anxiety and depression in patients with chronic lung disease are their ears and their minds, said Anthony Saleh, MD, a pulmonologist at New York-Presbyterian Brooklyn Methodist Hospital in Brooklyn, New York. 
"I think just listening to the patient, that's a little bit forgotten yet so important," he said in an interview with Chest Physician.  
"When I have someone with advanced lung disease, like idiopathic pulmonary fibrosis, like advanced emphysema, one of the most important things I think is to listen to the patient, and not just to listen to the answers of your perfunctory 'how's your breathing? Any chest pain?' and those sort of rote medical questions, but listen to their thoughts, and it will given them a safe space to say 'Hey, I'm nervous, hey I'm worried about my family, hey I'm worried if I die what's going to happen to my wife and kids,' and that's something I think is invaluable." 
It's also vital to listen to the concerns of the patients family members, who may be the primary caregivers and may share the patient's stresses and anxieties, he said. 

Pulmonary Rehabilitation 

All of the experts interviewed for this article agreed that a combination of medical, social and mental health support services is important for treatment for patients with chronic obstructive lung diseases. 
One of the most effective means of helping patients with both acute breathing problems and with disease-related anxiety and depression is pulmonary rehabilitation. Depending on disease severity, this multidisciplinary approach may involve exercise, patient education, psychological and nutrition counseling, and training patients how to conserve energy and adopt breathing strategies to help them better manage their symptoms. 
"I think that pulmonary rehabilitation is one of the first interventions that we should be recommending for our patients," Dr. Garfield said. "It's physical therapy for patients with chronic lung diseases, backed by respiratory therapists, and it offers not only physical rehabilitation - improving strength and coordination, but  also it helps our patients get as much as possible out of what they've got." 
For example, patients can be taught how to decrease their respiratory rate when they're feeling a sense of urgency or panic. Patients can also learn how to change body positions to help them breathe more effectively when they feel that their breath is limited or restricted, she said.  
"Once your into medical interventions, pulmonary rehab is phenomenal," Dr. Saleh said.  
Pulmonary rehabilitation helps patients to feel better about themselves and about their abilities, but "unfortunately it's not as available as we like," he said. 
Many patients don't live near a pulmonary rehabilitation center, and the typical two to three weekly sessions for 4 to 12 weeks or longer can be a significant burden for patients and caregivers, he acknowledged. 
"You have to sit [with the patient] and be honest and tell them it's a lot of diligence involved and you have to be really motivated," he said. 
Other treatment options include pharmacological therapy with antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and anxiolytic agents. 
"SSRIs are the current first-line drug treatment for depression, and have been shown to significantly improve depression and anxiety in patients with COPD in some, but not all, trials published to date. However, it is important to note that a diagnosis of bipolar disorder must be ruled out before initiating standard antidepressant therapy," Dr. Johannes and colleagues wrote. 

Defiant joy 

Importantly, even with the burden of life with COPD, many patients found ways to experience what Strang et al called "a defiant joy." 
 "It was remarkable that when the patients were asked about what gave their lives meaning today, many talked about what had given their life meaning in the past, prior to becoming ill. In the light of the things they had lost because of the disease, many felt that their previous sources of joy no longer existed. Despite this, many still hoped to be able to get out into the fresh air, to be able to do errands or that tomorrow might be better," the investigators wrote. 
Dr. Yohannes, Dr. Garfield, and Dr. Saleh all reported having no relevant conflicts of interest to report.

Many patients with chronic progressive pulmonary disease feel anxious and depressed as their conditions advance, as breathing becomes increasingly labored and difficult, and as performing even small daily tasks leaves them exhausted. 
Persons with severe COPD frequently report fears of suffocation and death, as well as anxieties about abandoning family and friends, and these negative, intrusive thoughts can have an adverse effect on COPD outcomes. 
Disease-related mental distress can lead to increased disability, more frequent use of costly health care resources, higher morbidity, and elevated risk of death, investigators say. 
"Individuals with severe COPD are twice as likely to develop depression than patients with mild COPD. Prevalence rates for clinical anxiety in COPD range from 13% to 46% in outpatients and 10% to 55% among inpatients," wrote Abebaw Mengitsu Yohannes, PhD, then from Azusa Pacific University in Azusa, California and colleagues in an article published jointly by The Journal of Family Practice and The Cleveland Clinic Journal of Medicine.  

Fears of dying (and living)  

The causes of depression and anxiety among patients with obstructive pulmonary disorders are multi-factorial, and may require a variety of treatment and coping strategies, according to Susann Strang, RN, PhD, and colleagues from the University of Gothenburg, Sweden.  
They conducted qualitative in-depth interviews with 31 men and women with stage III or IV COPD, and found that the majority of patients had anxiety associated with their disease. 
"Analyses revealed three major themes: death anxiety, life anxiety, and counterweights to anxiety," the investigators wrote in a study published in the journal Palliative and Supportive Care in 2014. 
Factors contributing to anxiety surrounding death included fear of suffocation, awareness of impending death, fear of the process of death, and anxiety about being separated from loved ones. 
In contrast, some patients expressed dread of living with the limitations and loneliness imposed on them by their disease, so called "life anxiety." 
The patients also reported "counterweights" to anxiety as a way of coping. For some this involved trust in their health care professionals and adherence to medication, inhalers, and supplemental oxygen. 
"The patients also placed hope in new treatments, better medication, surgery, stem cell treatment, or lung transplants," Dr. Strang and colleagues reported. 
Others reported avoiding talking about death, sleeping more, or using humor to "laugh off this difficult subject." 

Screening and diagnosis 

Primary care practitioners are often the first health professionals that patients with COPD see, but these clinicians often don't have the time to add screening to their already crammed schedules. In addition, "the lack of a standardized approach in diagnosis, and inadequate knowledge or confidence in assessing psychological status (particularly given the number of strategies available for screening patients for mood disorders)," can make it difficult for PCPs to detect and manage anxiety and depression in their patients with significant health care burdens from COPD and other obstructive lung diseases, Dr. Yohannes and colleagues noted. 
In addition to commonly used screening tools for anxiety and depression such as the Primary Care Evaluation of Mental Disorders (PRIME-MD) Patient Health Questionnaire (PHQ-9), there are at least two designed to evaluate patients with lung disease: the Anxiety Inventory for Respiratory (AIR) Disease scale, developed by Dr. Johannes and colleagues, and the COPD Anxiety Questionnaire. 
The COPD Assessment Testand Clinical COPD Questionnaire, while not specifically designed to screen for mental disorders, include questions that can point to symptoms of distress in patients with COPD, Dr. Yohannes said. 
"In truth I think that there are few providers who will routinely do this on all their patients in terms of quantifying the severity or the presence or absence of depression, but in my own practice I very much ask questions that align with the questions in these tools to determine whether my patient appears to have high levels of anxiety and depression," Dr. Garfield said. 

Listen to patients and families 

Among the most powerful tools that clinicians have at their disposal for treating anxiety and depression in patients with chronic lung disease are their ears and their minds, said Anthony Saleh, MD, a pulmonologist at New York-Presbyterian Brooklyn Methodist Hospital in Brooklyn, New York. 
"I think just listening to the patient, that's a little bit forgotten yet so important," he said in an interview with Chest Physician.  
"When I have someone with advanced lung disease, like idiopathic pulmonary fibrosis, like advanced emphysema, one of the most important things I think is to listen to the patient, and not just to listen to the answers of your perfunctory 'how's your breathing? Any chest pain?' and those sort of rote medical questions, but listen to their thoughts, and it will given them a safe space to say 'Hey, I'm nervous, hey I'm worried about my family, hey I'm worried if I die what's going to happen to my wife and kids,' and that's something I think is invaluable." 
It's also vital to listen to the concerns of the patients family members, who may be the primary caregivers and may share the patient's stresses and anxieties, he said. 

Pulmonary Rehabilitation 

All of the experts interviewed for this article agreed that a combination of medical, social and mental health support services is important for treatment for patients with chronic obstructive lung diseases. 
One of the most effective means of helping patients with both acute breathing problems and with disease-related anxiety and depression is pulmonary rehabilitation. Depending on disease severity, this multidisciplinary approach may involve exercise, patient education, psychological and nutrition counseling, and training patients how to conserve energy and adopt breathing strategies to help them better manage their symptoms. 
"I think that pulmonary rehabilitation is one of the first interventions that we should be recommending for our patients," Dr. Garfield said. "It's physical therapy for patients with chronic lung diseases, backed by respiratory therapists, and it offers not only physical rehabilitation - improving strength and coordination, but  also it helps our patients get as much as possible out of what they've got." 
For example, patients can be taught how to decrease their respiratory rate when they're feeling a sense of urgency or panic. Patients can also learn how to change body positions to help them breathe more effectively when they feel that their breath is limited or restricted, she said.  
"Once your into medical interventions, pulmonary rehab is phenomenal," Dr. Saleh said.  
Pulmonary rehabilitation helps patients to feel better about themselves and about their abilities, but "unfortunately it's not as available as we like," he said. 
Many patients don't live near a pulmonary rehabilitation center, and the typical two to three weekly sessions for 4 to 12 weeks or longer can be a significant burden for patients and caregivers, he acknowledged. 
"You have to sit [with the patient] and be honest and tell them it's a lot of diligence involved and you have to be really motivated," he said. 
Other treatment options include pharmacological therapy with antidepressants such as selective serotonin reuptake inhibitors (SSRIs) and anxiolytic agents. 
"SSRIs are the current first-line drug treatment for depression, and have been shown to significantly improve depression and anxiety in patients with COPD in some, but not all, trials published to date. However, it is important to note that a diagnosis of bipolar disorder must be ruled out before initiating standard antidepressant therapy," Dr. Johannes and colleagues wrote. 

Defiant joy 

Importantly, even with the burden of life with COPD, many patients found ways to experience what Strang et al called "a defiant joy." 
 "It was remarkable that when the patients were asked about what gave their lives meaning today, many talked about what had given their life meaning in the past, prior to becoming ill. In the light of the things they had lost because of the disease, many felt that their previous sources of joy no longer existed. Despite this, many still hoped to be able to get out into the fresh air, to be able to do errands or that tomorrow might be better," the investigators wrote. 
Dr. Yohannes, Dr. Garfield, and Dr. Saleh all reported having no relevant conflicts of interest to report.

The Food and Drug Administration (FDA) has accepted an application for Priority Review for dupilumab as an add-on therapy for adults with uncontrolled chronic obstructive pulmonary disease (COPD), according to a press release from manufacturer Regeneron.

If approved, dupilumab would be the only biologic option for COPD and the first new treatment option in approximately 10 years, according to the company.

Dupilumab works by blocking signaling by the interleukin (IL) 4 and IL-13 pathways, and Regeneron’s development program focuses on a population of COPD patients who also have type 2 inflammation.

The supplemental Biologics License Application was based on data from a pair of clinical trials in the company’s phase 3 COPD clinical research program.

In the studies, known as BOREAS and NOTUS, adults with uncontrolled COPD and type 2 inflammation who were current or former smokers were randomized to 300 mg of subcutaneous dupilumab or placebo once every 2 weeks. Type 2 inflammation was defined as blood eosinophil counts of at least 300 cells per microliter.

All patients received standard-of-care therapy. The primary endpoint of reduced annualized moderate or severe acute COPD exacerbations was 30% and 34% greater in the dupilumab groups in the two studies, respectively, compared with the placebo groups, and the significant differences in improvement persisted at 52 weeks.

Safety data were similar to previous studies of dupilumab for its approved indications. The most common adverse events seen in 5% or more of dupilumab patients compared with placebo patients across the two studies included back pain, COVID-19, diarrhea, headache, and nasopharyngitis.

Priority Review status is granted to applications for approval for therapies that may offer significant improvements, although the therapies are still in clinical development. The target action date for the FDA decision is June 27, 2024, and regulatory submissions for dupilumab for COPD are under consideration in China and Europe in addition to the United States, according to the company.
 

A version of this article appeared on Medscape.com.

The Food and Drug Administration (FDA) has accepted an application for Priority Review for dupilumab as an add-on therapy for adults with uncontrolled chronic obstructive pulmonary disease (COPD), according to a press release from manufacturer Regeneron.

If approved, dupilumab would be the only biologic option for COPD and the first new treatment option in approximately 10 years, according to the company.

Dupilumab works by blocking signaling by the interleukin (IL) 4 and IL-13 pathways, and Regeneron’s development program focuses on a population of COPD patients who also have type 2 inflammation.

The supplemental Biologics License Application was based on data from a pair of clinical trials in the company’s phase 3 COPD clinical research program.

In the studies, known as BOREAS and NOTUS, adults with uncontrolled COPD and type 2 inflammation who were current or former smokers were randomized to 300 mg of subcutaneous dupilumab or placebo once every 2 weeks. Type 2 inflammation was defined as blood eosinophil counts of at least 300 cells per microliter.

All patients received standard-of-care therapy. The primary endpoint of reduced annualized moderate or severe acute COPD exacerbations was 30% and 34% greater in the dupilumab groups in the two studies, respectively, compared with the placebo groups, and the significant differences in improvement persisted at 52 weeks.

Safety data were similar to previous studies of dupilumab for its approved indications. The most common adverse events seen in 5% or more of dupilumab patients compared with placebo patients across the two studies included back pain, COVID-19, diarrhea, headache, and nasopharyngitis.

Priority Review status is granted to applications for approval for therapies that may offer significant improvements, although the therapies are still in clinical development. The target action date for the FDA decision is June 27, 2024, and regulatory submissions for dupilumab for COPD are under consideration in China and Europe in addition to the United States, according to the company.
 

A version of this article appeared on Medscape.com.

The Food and Drug Administration (FDA) has accepted an application for Priority Review for dupilumab as an add-on therapy for adults with uncontrolled chronic obstructive pulmonary disease (COPD), according to a press release from manufacturer Regeneron.

If approved, dupilumab would be the only biologic option for COPD and the first new treatment option in approximately 10 years, according to the company.

Dupilumab works by blocking signaling by the interleukin (IL) 4 and IL-13 pathways, and Regeneron’s development program focuses on a population of COPD patients who also have type 2 inflammation.

The supplemental Biologics License Application was based on data from a pair of clinical trials in the company’s phase 3 COPD clinical research program.

In the studies, known as BOREAS and NOTUS, adults with uncontrolled COPD and type 2 inflammation who were current or former smokers were randomized to 300 mg of subcutaneous dupilumab or placebo once every 2 weeks. Type 2 inflammation was defined as blood eosinophil counts of at least 300 cells per microliter.

All patients received standard-of-care therapy. The primary endpoint of reduced annualized moderate or severe acute COPD exacerbations was 30% and 34% greater in the dupilumab groups in the two studies, respectively, compared with the placebo groups, and the significant differences in improvement persisted at 52 weeks.

Safety data were similar to previous studies of dupilumab for its approved indications. The most common adverse events seen in 5% or more of dupilumab patients compared with placebo patients across the two studies included back pain, COVID-19, diarrhea, headache, and nasopharyngitis.

Priority Review status is granted to applications for approval for therapies that may offer significant improvements, although the therapies are still in clinical development. The target action date for the FDA decision is June 27, 2024, and regulatory submissions for dupilumab for COPD are under consideration in China and Europe in addition to the United States, according to the company.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Several female reproductive factors across the life cycle were significantly associated with increased COPD risk, including age at menarche, number of children, infertility, pregnancy outcomes, and age at menopause.

METHODOLOGY:

• The researchers reviewed data from women in the International Collaboration for a Life Course Approach to Reproductive Health and Chronic Disease Events (InterLACE) consortium, which includes 27 observational studies involving more than 850,000 women in 12 countries.
• The current study included 283,070 women, 3.8% of whom developed COPD over a median of 11 years.
• The researchers examined the association between COPD and age at menarche, number of children, infertility, miscarriage, stillbirth, and age at natural menopause.

TAKEAWAY: 

• Higher risk of COPD was significantly associated with menarche at age 11 years or younger (hazard ratio [HR], 1.17), and at 16 years and older (HR, 1.24), as well as having three or more children.
• Higher risk of COPD was significantly associated with a history of infertility, and with miscarriage, or stillbirth compared with no miscarriages or stillbirths; the risk increased with the number of miscarriages or stillbirths (HR, 1.36 for ≥ 3 miscarriages and 1.67 for ≥ 2 stillbirths). 
• COPD risk was significantly increased with earlier age at the time of natural menopause (HR, 1.69 for those aged < 40 years and 1.42 for those aged 40-44 years compared with those aged 50-51 years). 

IN PRACTICE:

“Further research is needed to understand the mechanisms linking multiple female reproductive histories and COPD,” which could include autoimmune components and social/environmental factors, the researchers wrote. 

SOURCE:

The lead author on the study was Chen Liang, MD, of the University of Queensland, Australia. The study was published online in BMJ Thorax). 

LIMITATIONS: 

Study limitations included volunteer bias, underreporting of COPD, potential confounders such as childhood respiratory infections and smoking history, and the inability to assess the effects of medications including contraceptives and hormone replacement therapy on COPD. 

DISCLOSURES:

The InterLACE project is supported by the Australian National Health and Medical Research Council and Centres of Research Excellence. Corresponding author Gita D. Mishra disclosed support from the Australian National Health and Medical Research Council Leadership Fellowship. 

A version of this article appeared on Medscape.com.

TOPLINE:

Several female reproductive factors across the life cycle were significantly associated with increased COPD risk, including age at menarche, number of children, infertility, pregnancy outcomes, and age at menopause.

METHODOLOGY:

• The researchers reviewed data from women in the International Collaboration for a Life Course Approach to Reproductive Health and Chronic Disease Events (InterLACE) consortium, which includes 27 observational studies involving more than 850,000 women in 12 countries.
• The current study included 283,070 women, 3.8% of whom developed COPD over a median of 11 years.
• The researchers examined the association between COPD and age at menarche, number of children, infertility, miscarriage, stillbirth, and age at natural menopause.

TAKEAWAY: 

• Higher risk of COPD was significantly associated with menarche at age 11 years or younger (hazard ratio [HR], 1.17), and at 16 years and older (HR, 1.24), as well as having three or more children.
• Higher risk of COPD was significantly associated with a history of infertility, and with miscarriage, or stillbirth compared with no miscarriages or stillbirths; the risk increased with the number of miscarriages or stillbirths (HR, 1.36 for ≥ 3 miscarriages and 1.67 for ≥ 2 stillbirths). 
• COPD risk was significantly increased with earlier age at the time of natural menopause (HR, 1.69 for those aged < 40 years and 1.42 for those aged 40-44 years compared with those aged 50-51 years). 

IN PRACTICE:

“Further research is needed to understand the mechanisms linking multiple female reproductive histories and COPD,” which could include autoimmune components and social/environmental factors, the researchers wrote. 

SOURCE:

The lead author on the study was Chen Liang, MD, of the University of Queensland, Australia. The study was published online in BMJ Thorax). 

LIMITATIONS: 

Study limitations included volunteer bias, underreporting of COPD, potential confounders such as childhood respiratory infections and smoking history, and the inability to assess the effects of medications including contraceptives and hormone replacement therapy on COPD. 

DISCLOSURES:

The InterLACE project is supported by the Australian National Health and Medical Research Council and Centres of Research Excellence. Corresponding author Gita D. Mishra disclosed support from the Australian National Health and Medical Research Council Leadership Fellowship. 

A version of this article appeared on Medscape.com.

TOPLINE:

Several female reproductive factors across the life cycle were significantly associated with increased COPD risk, including age at menarche, number of children, infertility, pregnancy outcomes, and age at menopause.

METHODOLOGY:

• The researchers reviewed data from women in the International Collaboration for a Life Course Approach to Reproductive Health and Chronic Disease Events (InterLACE) consortium, which includes 27 observational studies involving more than 850,000 women in 12 countries.
• The current study included 283,070 women, 3.8% of whom developed COPD over a median of 11 years.
• The researchers examined the association between COPD and age at menarche, number of children, infertility, miscarriage, stillbirth, and age at natural menopause.

TAKEAWAY: 

• Higher risk of COPD was significantly associated with menarche at age 11 years or younger (hazard ratio [HR], 1.17), and at 16 years and older (HR, 1.24), as well as having three or more children.
• Higher risk of COPD was significantly associated with a history of infertility, and with miscarriage, or stillbirth compared with no miscarriages or stillbirths; the risk increased with the number of miscarriages or stillbirths (HR, 1.36 for ≥ 3 miscarriages and 1.67 for ≥ 2 stillbirths). 
• COPD risk was significantly increased with earlier age at the time of natural menopause (HR, 1.69 for those aged < 40 years and 1.42 for those aged 40-44 years compared with those aged 50-51 years). 

IN PRACTICE:

“Further research is needed to understand the mechanisms linking multiple female reproductive histories and COPD,” which could include autoimmune components and social/environmental factors, the researchers wrote. 

SOURCE:

The lead author on the study was Chen Liang, MD, of the University of Queensland, Australia. The study was published online in BMJ Thorax). 

LIMITATIONS: 

Study limitations included volunteer bias, underreporting of COPD, potential confounders such as childhood respiratory infections and smoking history, and the inability to assess the effects of medications including contraceptives and hormone replacement therapy on COPD. 

DISCLOSURES:

The InterLACE project is supported by the Australian National Health and Medical Research Council and Centres of Research Excellence. Corresponding author Gita D. Mishra disclosed support from the Australian National Health and Medical Research Council Leadership Fellowship. 

A version of this article appeared on Medscape.com.

TOPLINE:

Gabapentinoid use significantly increased the risk for exacerbations in adults with chronic obstructive pulmonary disease (COPD).

METHODOLOGY:

• Previous research has prompted warnings from North American and European health agencies of severe exacerbations associated with gabapentinoid use by patients with COPD.
• The researchers compared data from patients with COPD in Canadian databases between 1994 and 2015 who were new to gabapentinoids and matched them to patients who did not use gabapentinoids.
• The primary outcome was exacerbation of COPD that required hospitalization in a propensity score-matched study. 

TAKEAWAY:

• The study population included 356 epilepsy patients, 9411 neuropathic pain patients, and 3737 patients with other chronic pain.
• Use of gabapentinoids was significantly associated with an overall increased risk for severe COPD exacerbation (hazard ratio, 1.49) compared with nonuse.
• Gabapentinoid use was associated with a significantly increased COPD exacerbation risk for each group of users compared with nonusers, with hazard ratios of 1.58, 1.35, and 1.49 for epilepsy, neuropathic pain, and other chronic pain, respectively.

IN PRACTICE:

“This study supports the warnings from regulatory agencies and highlights the importance of considering this potential risk when prescribing gabapentin and pregabalin to patients with COPD,” the researchers wrote. 

SOURCE:

The lead author on the study was Alvi A. Rahman, MSc, of Jewish General Hospital, Montreal. The study was published online on January 16, 2024, in Annals of Internal Medicine. 

LIMITATIONS:

A lack of data on smoking status and other residual confounding factors limited the study findings. 

DISCLOSURES:

The study was supported by the Canadian Institutes of Health Research and the Canadian Lung Association. Mr. Rahman had no financial conflicts to disclose, but some coauthors disclosed consulting and advisory relationships with various companies, including Merck, Pfizer, Seqirus, Boehringer-Ingelheim, and Novartis outside of the current work.

A version of this article appeared on Medscape.com.

TOPLINE:

Gabapentinoid use significantly increased the risk for exacerbations in adults with chronic obstructive pulmonary disease (COPD).

METHODOLOGY:

• Previous research has prompted warnings from North American and European health agencies of severe exacerbations associated with gabapentinoid use by patients with COPD.
• The researchers compared data from patients with COPD in Canadian databases between 1994 and 2015 who were new to gabapentinoids and matched them to patients who did not use gabapentinoids.
• The primary outcome was exacerbation of COPD that required hospitalization in a propensity score-matched study. 

TAKEAWAY:

• The study population included 356 epilepsy patients, 9411 neuropathic pain patients, and 3737 patients with other chronic pain.
• Use of gabapentinoids was significantly associated with an overall increased risk for severe COPD exacerbation (hazard ratio, 1.49) compared with nonuse.
• Gabapentinoid use was associated with a significantly increased COPD exacerbation risk for each group of users compared with nonusers, with hazard ratios of 1.58, 1.35, and 1.49 for epilepsy, neuropathic pain, and other chronic pain, respectively.

IN PRACTICE:

“This study supports the warnings from regulatory agencies and highlights the importance of considering this potential risk when prescribing gabapentin and pregabalin to patients with COPD,” the researchers wrote. 

SOURCE:

The lead author on the study was Alvi A. Rahman, MSc, of Jewish General Hospital, Montreal. The study was published online on January 16, 2024, in Annals of Internal Medicine. 

LIMITATIONS:

A lack of data on smoking status and other residual confounding factors limited the study findings. 

DISCLOSURES:

The study was supported by the Canadian Institutes of Health Research and the Canadian Lung Association. Mr. Rahman had no financial conflicts to disclose, but some coauthors disclosed consulting and advisory relationships with various companies, including Merck, Pfizer, Seqirus, Boehringer-Ingelheim, and Novartis outside of the current work.

A version of this article appeared on Medscape.com.

TOPLINE:

Gabapentinoid use significantly increased the risk for exacerbations in adults with chronic obstructive pulmonary disease (COPD).

METHODOLOGY:

• Previous research has prompted warnings from North American and European health agencies of severe exacerbations associated with gabapentinoid use by patients with COPD.
• The researchers compared data from patients with COPD in Canadian databases between 1994 and 2015 who were new to gabapentinoids and matched them to patients who did not use gabapentinoids.
• The primary outcome was exacerbation of COPD that required hospitalization in a propensity score-matched study. 

TAKEAWAY:

• The study population included 356 epilepsy patients, 9411 neuropathic pain patients, and 3737 patients with other chronic pain.
• Use of gabapentinoids was significantly associated with an overall increased risk for severe COPD exacerbation (hazard ratio, 1.49) compared with nonuse.
• Gabapentinoid use was associated with a significantly increased COPD exacerbation risk for each group of users compared with nonusers, with hazard ratios of 1.58, 1.35, and 1.49 for epilepsy, neuropathic pain, and other chronic pain, respectively.

IN PRACTICE:

“This study supports the warnings from regulatory agencies and highlights the importance of considering this potential risk when prescribing gabapentin and pregabalin to patients with COPD,” the researchers wrote. 

SOURCE:

The lead author on the study was Alvi A. Rahman, MSc, of Jewish General Hospital, Montreal. The study was published online on January 16, 2024, in Annals of Internal Medicine. 

LIMITATIONS:

A lack of data on smoking status and other residual confounding factors limited the study findings. 

DISCLOSURES:

The study was supported by the Canadian Institutes of Health Research and the Canadian Lung Association. Mr. Rahman had no financial conflicts to disclose, but some coauthors disclosed consulting and advisory relationships with various companies, including Merck, Pfizer, Seqirus, Boehringer-Ingelheim, and Novartis outside of the current work.

A version of this article appeared on Medscape.com.