COPD

Patients with rheumatoid arthritis–associated interstitial lung disease showed increases in overall mortality, respiratory mortality, and cancer mortality, compared with RA patients without interstitial lung disease, based on data from more than 500,000 patients in a nationwide cohort study.

RA-associated interstitial lung disease (RA-ILD) has been associated with worse survival rates as well as reduced quality of life, functional impairment, and increased health care use and costs, wrote Jeffrey A. Sparks, MD, of Brigham and Women’s Hospital, Boston, and colleagues. However, data on the incidence and prevalence of RA-ILD have been inconsistent and large studies are lacking.

In a study published online in Rheumatology, the researchers identified 509,787 RA patients aged 65 years and older from Medicare claims data. The average age of the patients was 72.6 years, and 76.2% were women.

At baseline, 10,306 (2%) of the study population had RA-ILD, and 13,372 (2.7%) developed RA-ILD over an average of 3.8 years’ follow-up per person (total of 1,873,127 person-years of follow-up). The overall incidence of RA-ILD was 7.14 per 1,000 person-years.

Overall mortality was significantly higher among RA-ILD patients than in those with RA alone in a multivariate analysis (38.7% vs. 20.7%; hazard ratio, 1.66).

In addition, RA-ILD was associated with an increased risk of respiratory mortality (HR, 4.39) and cancer mortality (HR, 1.56), compared with RA without ILD. For these hazard regression analyses, the researchers used Fine and Gray subdistribution HRs “to handle competing risks of alternative causes of mortality. For example, the risk of respiratory mortality for patients with RA-ILD, compared with RA without ILD also accounted for the competing risk of cardiovascular, cancer, infection and other types of mortality.”

Case courtesy A.Prof Frank Gaillard, Radiopaedia.org, rID: 12274

In another multivariate analysis, male gender, smoking, asthma, chronic obstructive pulmonary disorder, and medication use (specifically biologic disease-modifying antirheumatic drugs, targeted synthetic DMARDs, and glucocorticoids) were independently associated with increased incident RA-ILD at baseline. However, “the associations of RA-related medications with incident RA-ILD risk should be interpreted with caution since they may be explained by unmeasured factors, including RA disease activity, severity, comorbidities, and prior or concomitant medication use,” the researchers noted.

The study findings were limited by several factors, including the lack of data on disease activity, disease duration, disease severity, and RA-related autoantibodies, the researchers noted. However, the results support data from previous studies and were strengthened by the large sample size and data on demographics and health care use.

“Ours is the first to study the epidemiology and mortality outcomes of RA-ILD using a validated claims algorithm to identify RA and RA-ILD,” and “to quantify the mortality burden of RA-ILD and to identify a potentially novel association of RA-ILD with cancer mortality,” they noted.

The study was supported by an investigator-initiated grant from Bristol-Myers Squibb. Lead author Dr. Sparks disclosed support from the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the Rheumatology Research Foundation, the Brigham Research Institute, and the R. Bruce and Joan M. Mickey Research Scholar Fund. Dr. Sparks also disclosed serving as a consultant to Bristol-Myers Squibb, Gilead, Inova Diagnostics, Janssen, Optum, and Pfizer for work unrelated to the current study. Other authors reported research funding from Bristol-Myers Squibb, involvement in a clinical trial funded by Genentech and Bristol-Myers Squibb, and receiving research support to Brigham and Women’s Hospital for other studies from AbbVie, Bayer, Bristol-Myers Squibb, Novartis, Pfizer, Roche, and Vertex.

Patients with rheumatoid arthritis–associated interstitial lung disease showed increases in overall mortality, respiratory mortality, and cancer mortality, compared with RA patients without interstitial lung disease, based on data from more than 500,000 patients in a nationwide cohort study.

RA-associated interstitial lung disease (RA-ILD) has been associated with worse survival rates as well as reduced quality of life, functional impairment, and increased health care use and costs, wrote Jeffrey A. Sparks, MD, of Brigham and Women’s Hospital, Boston, and colleagues. However, data on the incidence and prevalence of RA-ILD have been inconsistent and large studies are lacking.

In a study published online in Rheumatology, the researchers identified 509,787 RA patients aged 65 years and older from Medicare claims data. The average age of the patients was 72.6 years, and 76.2% were women.

At baseline, 10,306 (2%) of the study population had RA-ILD, and 13,372 (2.7%) developed RA-ILD over an average of 3.8 years’ follow-up per person (total of 1,873,127 person-years of follow-up). The overall incidence of RA-ILD was 7.14 per 1,000 person-years.

Overall mortality was significantly higher among RA-ILD patients than in those with RA alone in a multivariate analysis (38.7% vs. 20.7%; hazard ratio, 1.66).

In addition, RA-ILD was associated with an increased risk of respiratory mortality (HR, 4.39) and cancer mortality (HR, 1.56), compared with RA without ILD. For these hazard regression analyses, the researchers used Fine and Gray subdistribution HRs “to handle competing risks of alternative causes of mortality. For example, the risk of respiratory mortality for patients with RA-ILD, compared with RA without ILD also accounted for the competing risk of cardiovascular, cancer, infection and other types of mortality.”

Case courtesy A.Prof Frank Gaillard, Radiopaedia.org, rID: 12274

In another multivariate analysis, male gender, smoking, asthma, chronic obstructive pulmonary disorder, and medication use (specifically biologic disease-modifying antirheumatic drugs, targeted synthetic DMARDs, and glucocorticoids) were independently associated with increased incident RA-ILD at baseline. However, “the associations of RA-related medications with incident RA-ILD risk should be interpreted with caution since they may be explained by unmeasured factors, including RA disease activity, severity, comorbidities, and prior or concomitant medication use,” the researchers noted.

The study findings were limited by several factors, including the lack of data on disease activity, disease duration, disease severity, and RA-related autoantibodies, the researchers noted. However, the results support data from previous studies and were strengthened by the large sample size and data on demographics and health care use.

“Ours is the first to study the epidemiology and mortality outcomes of RA-ILD using a validated claims algorithm to identify RA and RA-ILD,” and “to quantify the mortality burden of RA-ILD and to identify a potentially novel association of RA-ILD with cancer mortality,” they noted.

The study was supported by an investigator-initiated grant from Bristol-Myers Squibb. Lead author Dr. Sparks disclosed support from the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the Rheumatology Research Foundation, the Brigham Research Institute, and the R. Bruce and Joan M. Mickey Research Scholar Fund. Dr. Sparks also disclosed serving as a consultant to Bristol-Myers Squibb, Gilead, Inova Diagnostics, Janssen, Optum, and Pfizer for work unrelated to the current study. Other authors reported research funding from Bristol-Myers Squibb, involvement in a clinical trial funded by Genentech and Bristol-Myers Squibb, and receiving research support to Brigham and Women’s Hospital for other studies from AbbVie, Bayer, Bristol-Myers Squibb, Novartis, Pfizer, Roche, and Vertex.

Patients with rheumatoid arthritis–associated interstitial lung disease showed increases in overall mortality, respiratory mortality, and cancer mortality, compared with RA patients without interstitial lung disease, based on data from more than 500,000 patients in a nationwide cohort study.

RA-associated interstitial lung disease (RA-ILD) has been associated with worse survival rates as well as reduced quality of life, functional impairment, and increased health care use and costs, wrote Jeffrey A. Sparks, MD, of Brigham and Women’s Hospital, Boston, and colleagues. However, data on the incidence and prevalence of RA-ILD have been inconsistent and large studies are lacking.

In a study published online in Rheumatology, the researchers identified 509,787 RA patients aged 65 years and older from Medicare claims data. The average age of the patients was 72.6 years, and 76.2% were women.

At baseline, 10,306 (2%) of the study population had RA-ILD, and 13,372 (2.7%) developed RA-ILD over an average of 3.8 years’ follow-up per person (total of 1,873,127 person-years of follow-up). The overall incidence of RA-ILD was 7.14 per 1,000 person-years.

Overall mortality was significantly higher among RA-ILD patients than in those with RA alone in a multivariate analysis (38.7% vs. 20.7%; hazard ratio, 1.66).

In addition, RA-ILD was associated with an increased risk of respiratory mortality (HR, 4.39) and cancer mortality (HR, 1.56), compared with RA without ILD. For these hazard regression analyses, the researchers used Fine and Gray subdistribution HRs “to handle competing risks of alternative causes of mortality. For example, the risk of respiratory mortality for patients with RA-ILD, compared with RA without ILD also accounted for the competing risk of cardiovascular, cancer, infection and other types of mortality.”

Case courtesy A.Prof Frank Gaillard, Radiopaedia.org, rID: 12274

In another multivariate analysis, male gender, smoking, asthma, chronic obstructive pulmonary disorder, and medication use (specifically biologic disease-modifying antirheumatic drugs, targeted synthetic DMARDs, and glucocorticoids) were independently associated with increased incident RA-ILD at baseline. However, “the associations of RA-related medications with incident RA-ILD risk should be interpreted with caution since they may be explained by unmeasured factors, including RA disease activity, severity, comorbidities, and prior or concomitant medication use,” the researchers noted.

The study findings were limited by several factors, including the lack of data on disease activity, disease duration, disease severity, and RA-related autoantibodies, the researchers noted. However, the results support data from previous studies and were strengthened by the large sample size and data on demographics and health care use.

“Ours is the first to study the epidemiology and mortality outcomes of RA-ILD using a validated claims algorithm to identify RA and RA-ILD,” and “to quantify the mortality burden of RA-ILD and to identify a potentially novel association of RA-ILD with cancer mortality,” they noted.

The study was supported by an investigator-initiated grant from Bristol-Myers Squibb. Lead author Dr. Sparks disclosed support from the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the Rheumatology Research Foundation, the Brigham Research Institute, and the R. Bruce and Joan M. Mickey Research Scholar Fund. Dr. Sparks also disclosed serving as a consultant to Bristol-Myers Squibb, Gilead, Inova Diagnostics, Janssen, Optum, and Pfizer for work unrelated to the current study. Other authors reported research funding from Bristol-Myers Squibb, involvement in a clinical trial funded by Genentech and Bristol-Myers Squibb, and receiving research support to Brigham and Women’s Hospital for other studies from AbbVie, Bayer, Bristol-Myers Squibb, Novartis, Pfizer, Roche, and Vertex.

Patients with asthma–chronic obstructive pulmonary disease overlap (ACO) experienced a higher burden of disease than patients with either asthma or COPD alone, a recent study has found.

Approximately 20% of chronic obstructive airway disease cases are ACO, but data on these patients are limited, as they are often excluded from clinical trials, wrote Sarah A. Hiles, MD, of the University of Newcastle (Australia) and colleagues.

“Comparing the burden of eosinophilic ACO, eosinophilic severe asthma, and eosinophilic COPD may also help contextualize findings from phenotype-targeted treatments in different diagnostic groups, such as the limited success of anti-IL [interleukin]–5 monoclonal antibodies as therapy in eosinophilic COPD,” they said.

In a cross-sectional, observational study published in Respirology the researchers recruited patients aged 18 years and older with a confirmed diagnosis of COPD only (153) severe asthma only (64), or ACO (106). Patients were assessed for demographic and clinical factors including health-related quality of life, past-year exacerbation, and other indicators of disease burden. In addition, patients were identified as having eosinophilic airway disease based on a blood eosinophil count of at least 0.3x109/L.

Overall, eosinophilic airway disease was present in 41% of the patients; 55%, 44%, and 29% for those with ACO, severe asthma, and COPD, respectively. Reports of poor health-related quality of life and past-year exacerbations were similar for eosinophilic patients across all three conditions.

However, patients with eosinophilic ACO experienced significantly more past-year exacerbations, notably those requiring oral corticosteroids, compared with patients with asthma alone. In addition, the cumulative number of past-year exacerbations in patient with eosinophilic disease was 164 in those with ACO, compared with severe asthma alone (44) and COPD alone (59).

Patients with ACO also had significantly higher disease burden based on the St. George’s Respiratory Questionnaire (SGRQ), which assessed functional limitation. “For 100 patients, the cumulative SGRQ score attributable to eosinophilic airways disease in ACO was 2,872.8, which was higher than in severe asthma (1,942.5) or COPD (1,638.1),” the researchers said.

The study was limited by several factors including the cross-sectional design and use of a single measurement to classify eosinophilia, the researchers noted. “The non-eosinophilic group likely included a mix of patients with treated eosinophilia and patients without eosinophilia, regardless of treatment, which is a limitation to consider when interpreting the disease burden estimates in this group,” they added.

However, the results add to the understanding of blood eosinophils in airway disease and the study “supports eosinophilia as a phenotype that spans across disease labels of severe asthma and COPD, and their overlap,” they concluded.

The study was supported by AstraZeneca; lead author Dr. Hiles received a salary through a grant from AstraZeneca to the University of Newcastle while conducting the study. Other coauthors disclosed relationships with companies including AstraZeneca, GlaxoSmithKline, Menarini, and Novartis.

Patients with asthma–chronic obstructive pulmonary disease overlap (ACO) experienced a higher burden of disease than patients with either asthma or COPD alone, a recent study has found.

Approximately 20% of chronic obstructive airway disease cases are ACO, but data on these patients are limited, as they are often excluded from clinical trials, wrote Sarah A. Hiles, MD, of the University of Newcastle (Australia) and colleagues.

“Comparing the burden of eosinophilic ACO, eosinophilic severe asthma, and eosinophilic COPD may also help contextualize findings from phenotype-targeted treatments in different diagnostic groups, such as the limited success of anti-IL [interleukin]–5 monoclonal antibodies as therapy in eosinophilic COPD,” they said.

In a cross-sectional, observational study published in Respirology the researchers recruited patients aged 18 years and older with a confirmed diagnosis of COPD only (153) severe asthma only (64), or ACO (106). Patients were assessed for demographic and clinical factors including health-related quality of life, past-year exacerbation, and other indicators of disease burden. In addition, patients were identified as having eosinophilic airway disease based on a blood eosinophil count of at least 0.3x109/L.

Overall, eosinophilic airway disease was present in 41% of the patients; 55%, 44%, and 29% for those with ACO, severe asthma, and COPD, respectively. Reports of poor health-related quality of life and past-year exacerbations were similar for eosinophilic patients across all three conditions.

However, patients with eosinophilic ACO experienced significantly more past-year exacerbations, notably those requiring oral corticosteroids, compared with patients with asthma alone. In addition, the cumulative number of past-year exacerbations in patient with eosinophilic disease was 164 in those with ACO, compared with severe asthma alone (44) and COPD alone (59).

Patients with ACO also had significantly higher disease burden based on the St. George’s Respiratory Questionnaire (SGRQ), which assessed functional limitation. “For 100 patients, the cumulative SGRQ score attributable to eosinophilic airways disease in ACO was 2,872.8, which was higher than in severe asthma (1,942.5) or COPD (1,638.1),” the researchers said.

The study was limited by several factors including the cross-sectional design and use of a single measurement to classify eosinophilia, the researchers noted. “The non-eosinophilic group likely included a mix of patients with treated eosinophilia and patients without eosinophilia, regardless of treatment, which is a limitation to consider when interpreting the disease burden estimates in this group,” they added.

However, the results add to the understanding of blood eosinophils in airway disease and the study “supports eosinophilia as a phenotype that spans across disease labels of severe asthma and COPD, and their overlap,” they concluded.

The study was supported by AstraZeneca; lead author Dr. Hiles received a salary through a grant from AstraZeneca to the University of Newcastle while conducting the study. Other coauthors disclosed relationships with companies including AstraZeneca, GlaxoSmithKline, Menarini, and Novartis.

Patients with asthma–chronic obstructive pulmonary disease overlap (ACO) experienced a higher burden of disease than patients with either asthma or COPD alone, a recent study has found.

Approximately 20% of chronic obstructive airway disease cases are ACO, but data on these patients are limited, as they are often excluded from clinical trials, wrote Sarah A. Hiles, MD, of the University of Newcastle (Australia) and colleagues.

“Comparing the burden of eosinophilic ACO, eosinophilic severe asthma, and eosinophilic COPD may also help contextualize findings from phenotype-targeted treatments in different diagnostic groups, such as the limited success of anti-IL [interleukin]–5 monoclonal antibodies as therapy in eosinophilic COPD,” they said.

In a cross-sectional, observational study published in Respirology the researchers recruited patients aged 18 years and older with a confirmed diagnosis of COPD only (153) severe asthma only (64), or ACO (106). Patients were assessed for demographic and clinical factors including health-related quality of life, past-year exacerbation, and other indicators of disease burden. In addition, patients were identified as having eosinophilic airway disease based on a blood eosinophil count of at least 0.3x109/L.

Overall, eosinophilic airway disease was present in 41% of the patients; 55%, 44%, and 29% for those with ACO, severe asthma, and COPD, respectively. Reports of poor health-related quality of life and past-year exacerbations were similar for eosinophilic patients across all three conditions.

However, patients with eosinophilic ACO experienced significantly more past-year exacerbations, notably those requiring oral corticosteroids, compared with patients with asthma alone. In addition, the cumulative number of past-year exacerbations in patient with eosinophilic disease was 164 in those with ACO, compared with severe asthma alone (44) and COPD alone (59).

Patients with ACO also had significantly higher disease burden based on the St. George’s Respiratory Questionnaire (SGRQ), which assessed functional limitation. “For 100 patients, the cumulative SGRQ score attributable to eosinophilic airways disease in ACO was 2,872.8, which was higher than in severe asthma (1,942.5) or COPD (1,638.1),” the researchers said.

The study was limited by several factors including the cross-sectional design and use of a single measurement to classify eosinophilia, the researchers noted. “The non-eosinophilic group likely included a mix of patients with treated eosinophilia and patients without eosinophilia, regardless of treatment, which is a limitation to consider when interpreting the disease burden estimates in this group,” they added.

However, the results add to the understanding of blood eosinophils in airway disease and the study “supports eosinophilia as a phenotype that spans across disease labels of severe asthma and COPD, and their overlap,” they concluded.

The study was supported by AstraZeneca; lead author Dr. Hiles received a salary through a grant from AstraZeneca to the University of Newcastle while conducting the study. Other coauthors disclosed relationships with companies including AstraZeneca, GlaxoSmithKline, Menarini, and Novartis.

Evidence continues to accumulate linking e-cigarettes to a range of lung diseases.

ArminStautBerlin/Thinkstock

Results from a large national prospective cohort study of adults demonstrated that the use of electronic cigarettes is associated with an increased risk of asthma, chronic obstructive pulmonary disease (COPD), emphysema, and chronic bronchitis – independent of cigarette smoking and other combustible tobacco product use.

“Our longitudinal results are consistent with the findings of prior population studies,” researchers led by Wubin Xie, DrPH, MPH, wrote in a study published online in JAMA Network Open. “With a more refined study design assessing multiple respiratory conditions and extensive sensitivity checks to mitigate bias from reverse causation and residual confounding by cigarette smoking and other tobacco product use, our results strengthen the evidence of the potential role of e-cigarette use in pulmonary disease pathogenesis. The findings may be used to inform counseling of patients on the potential risks of e-cigarette use.”

Dr. Xie of Boston University, and colleagues used data from the Population Assessment of Tobacco and Health (PATH) study waves 1-4 to examine the association of e-cigarette use with incident respiratory conditions, including COPD, emphysema, chronic bronchitis, and asthma. An earlier analysis of PATH data found an association between e-cigarette use with a composite respiratory disease outcome, but it did not consider the timing of respiratory events over follow-up and was underpowered to evaluate specific respiratory conditions.

The current analysis included data from 21,618 U.S. adults who were surveyed in four waves of PATH between 2013 and 2018. Of these, 49% were men, 65% were non-Hispanic White, 12% were non-Hispanic Black, 16% were Hispanic, and the remainder were non-Hispanic other. Their mean pack-years was 6.7 at baseline, 26% had self-reported hypertension, and their mean body mass index was 27.8 kg/m². The analysis was limited to data from the wave 1 cohort of adults and the prospective follow-up at waves 2-4 from public use files. It excluded adults who reported a history of a respiratory condition such as COPD, emphysema, chronic bronchitis, or asthma at wave 1 (baseline).

Two-thirds of respondents (66%) were never e-cigarette users, 12% were former e-cigarette users, and 5% were current e-cigarette users. After the researchers adjusted for cigarette and other combustible tobacco product use, demographic characteristics, and chronic health conditions, they observed an increased risk of respiratory disease among former e-cigarette users (incidence rate ratio, 1.28) and current e-cigarette users (IRR, 1.31). Among respondents with good self-reported health, the IRR for former e-cigarette users was 1.21 and the IRR for current e-cigarette users was 1.43. As for specific respiratory diseases among current e-cigarette users, the IRR was 1.33 for chronic bronchitis, 1.69 for emphysema, 1.57 for COPD, and 1.31 for asthma.

“Our findings on clinical outcome were consistent with studies assessing in vivo biomarkers of e-cigarette exposure in animal subjects, human participants, and population studies,” the authors wrote. “Studies have documented that exclusive e-cigarette use may be associated with higher exposure to harmful and potentially harmful constituents, compared with tobacco nonuse. The potential mechanisms of the association of e-cigarette exposure with pulmonary diseases include pulmonary inflammation, increased oxidative stress, and inhibited immune response. Animal studies have generated substantial evidence on e-cigarette exposure and emphysematous lung destruction, loss of pulmonary capillaries, reduced small airway function, and airway hyperresponsiveness, suggesting the plausibility of e-cigarettes causing chronic lung diseases.”

They acknowledged certain limitations of the study, including its reliance on self-reported measures of e-cigarette and other tobacco product use and its reliance on self-reported diagnoses of respiratory diseases.

The study was supported by grants from the National Heart, Lung, and Blood Institute; the Food and Drug Administration Center for Tobacco Products; and the American Lung Association Public Policy Research Award. Dr. Xie reported having no financial disclosures. His coauthors reported having received research grants and personal fees from a variety of sources.

SOURCE: Xie W et al. JAMA Netw Open. 2020 Nov 12. doi: 10.1001/jamanetworkopen.2020.20816

Evidence continues to accumulate linking e-cigarettes to a range of lung diseases.

ArminStautBerlin/Thinkstock

Results from a large national prospective cohort study of adults demonstrated that the use of electronic cigarettes is associated with an increased risk of asthma, chronic obstructive pulmonary disease (COPD), emphysema, and chronic bronchitis – independent of cigarette smoking and other combustible tobacco product use.

“Our longitudinal results are consistent with the findings of prior population studies,” researchers led by Wubin Xie, DrPH, MPH, wrote in a study published online in JAMA Network Open. “With a more refined study design assessing multiple respiratory conditions and extensive sensitivity checks to mitigate bias from reverse causation and residual confounding by cigarette smoking and other tobacco product use, our results strengthen the evidence of the potential role of e-cigarette use in pulmonary disease pathogenesis. The findings may be used to inform counseling of patients on the potential risks of e-cigarette use.”

Dr. Xie of Boston University, and colleagues used data from the Population Assessment of Tobacco and Health (PATH) study waves 1-4 to examine the association of e-cigarette use with incident respiratory conditions, including COPD, emphysema, chronic bronchitis, and asthma. An earlier analysis of PATH data found an association between e-cigarette use with a composite respiratory disease outcome, but it did not consider the timing of respiratory events over follow-up and was underpowered to evaluate specific respiratory conditions.

The current analysis included data from 21,618 U.S. adults who were surveyed in four waves of PATH between 2013 and 2018. Of these, 49% were men, 65% were non-Hispanic White, 12% were non-Hispanic Black, 16% were Hispanic, and the remainder were non-Hispanic other. Their mean pack-years was 6.7 at baseline, 26% had self-reported hypertension, and their mean body mass index was 27.8 kg/m². The analysis was limited to data from the wave 1 cohort of adults and the prospective follow-up at waves 2-4 from public use files. It excluded adults who reported a history of a respiratory condition such as COPD, emphysema, chronic bronchitis, or asthma at wave 1 (baseline).

Two-thirds of respondents (66%) were never e-cigarette users, 12% were former e-cigarette users, and 5% were current e-cigarette users. After the researchers adjusted for cigarette and other combustible tobacco product use, demographic characteristics, and chronic health conditions, they observed an increased risk of respiratory disease among former e-cigarette users (incidence rate ratio, 1.28) and current e-cigarette users (IRR, 1.31). Among respondents with good self-reported health, the IRR for former e-cigarette users was 1.21 and the IRR for current e-cigarette users was 1.43. As for specific respiratory diseases among current e-cigarette users, the IRR was 1.33 for chronic bronchitis, 1.69 for emphysema, 1.57 for COPD, and 1.31 for asthma.

“Our findings on clinical outcome were consistent with studies assessing in vivo biomarkers of e-cigarette exposure in animal subjects, human participants, and population studies,” the authors wrote. “Studies have documented that exclusive e-cigarette use may be associated with higher exposure to harmful and potentially harmful constituents, compared with tobacco nonuse. The potential mechanisms of the association of e-cigarette exposure with pulmonary diseases include pulmonary inflammation, increased oxidative stress, and inhibited immune response. Animal studies have generated substantial evidence on e-cigarette exposure and emphysematous lung destruction, loss of pulmonary capillaries, reduced small airway function, and airway hyperresponsiveness, suggesting the plausibility of e-cigarettes causing chronic lung diseases.”

They acknowledged certain limitations of the study, including its reliance on self-reported measures of e-cigarette and other tobacco product use and its reliance on self-reported diagnoses of respiratory diseases.

The study was supported by grants from the National Heart, Lung, and Blood Institute; the Food and Drug Administration Center for Tobacco Products; and the American Lung Association Public Policy Research Award. Dr. Xie reported having no financial disclosures. His coauthors reported having received research grants and personal fees from a variety of sources.

SOURCE: Xie W et al. JAMA Netw Open. 2020 Nov 12. doi: 10.1001/jamanetworkopen.2020.20816

Evidence continues to accumulate linking e-cigarettes to a range of lung diseases.

ArminStautBerlin/Thinkstock

Results from a large national prospective cohort study of adults demonstrated that the use of electronic cigarettes is associated with an increased risk of asthma, chronic obstructive pulmonary disease (COPD), emphysema, and chronic bronchitis – independent of cigarette smoking and other combustible tobacco product use.

“Our longitudinal results are consistent with the findings of prior population studies,” researchers led by Wubin Xie, DrPH, MPH, wrote in a study published online in JAMA Network Open. “With a more refined study design assessing multiple respiratory conditions and extensive sensitivity checks to mitigate bias from reverse causation and residual confounding by cigarette smoking and other tobacco product use, our results strengthen the evidence of the potential role of e-cigarette use in pulmonary disease pathogenesis. The findings may be used to inform counseling of patients on the potential risks of e-cigarette use.”

Dr. Xie of Boston University, and colleagues used data from the Population Assessment of Tobacco and Health (PATH) study waves 1-4 to examine the association of e-cigarette use with incident respiratory conditions, including COPD, emphysema, chronic bronchitis, and asthma. An earlier analysis of PATH data found an association between e-cigarette use with a composite respiratory disease outcome, but it did not consider the timing of respiratory events over follow-up and was underpowered to evaluate specific respiratory conditions.

The current analysis included data from 21,618 U.S. adults who were surveyed in four waves of PATH between 2013 and 2018. Of these, 49% were men, 65% were non-Hispanic White, 12% were non-Hispanic Black, 16% were Hispanic, and the remainder were non-Hispanic other. Their mean pack-years was 6.7 at baseline, 26% had self-reported hypertension, and their mean body mass index was 27.8 kg/m². The analysis was limited to data from the wave 1 cohort of adults and the prospective follow-up at waves 2-4 from public use files. It excluded adults who reported a history of a respiratory condition such as COPD, emphysema, chronic bronchitis, or asthma at wave 1 (baseline).

Two-thirds of respondents (66%) were never e-cigarette users, 12% were former e-cigarette users, and 5% were current e-cigarette users. After the researchers adjusted for cigarette and other combustible tobacco product use, demographic characteristics, and chronic health conditions, they observed an increased risk of respiratory disease among former e-cigarette users (incidence rate ratio, 1.28) and current e-cigarette users (IRR, 1.31). Among respondents with good self-reported health, the IRR for former e-cigarette users was 1.21 and the IRR for current e-cigarette users was 1.43. As for specific respiratory diseases among current e-cigarette users, the IRR was 1.33 for chronic bronchitis, 1.69 for emphysema, 1.57 for COPD, and 1.31 for asthma.

“Our findings on clinical outcome were consistent with studies assessing in vivo biomarkers of e-cigarette exposure in animal subjects, human participants, and population studies,” the authors wrote. “Studies have documented that exclusive e-cigarette use may be associated with higher exposure to harmful and potentially harmful constituents, compared with tobacco nonuse. The potential mechanisms of the association of e-cigarette exposure with pulmonary diseases include pulmonary inflammation, increased oxidative stress, and inhibited immune response. Animal studies have generated substantial evidence on e-cigarette exposure and emphysematous lung destruction, loss of pulmonary capillaries, reduced small airway function, and airway hyperresponsiveness, suggesting the plausibility of e-cigarettes causing chronic lung diseases.”

They acknowledged certain limitations of the study, including its reliance on self-reported measures of e-cigarette and other tobacco product use and its reliance on self-reported diagnoses of respiratory diseases.

The study was supported by grants from the National Heart, Lung, and Blood Institute; the Food and Drug Administration Center for Tobacco Products; and the American Lung Association Public Policy Research Award. Dr. Xie reported having no financial disclosures. His coauthors reported having received research grants and personal fees from a variety of sources.

SOURCE: Xie W et al. JAMA Netw Open. 2020 Nov 12. doi: 10.1001/jamanetworkopen.2020.20816

People with chronic lung disease who need significant amounts of oxygen should be able to take it in liquid form when they are able to leave home, according to a new guideline from the American Thoracic Society.

“For those patients, often the other types of devices either can’t supply enough oxygen or are not portable enough,” said Anne Holland, PT, PhD, a professor of physiotherapy at Monash University and Alfred Hospital in Melbourne. “They’re heavy and cumbersome to use.”

Dr. Holland and colleagues also gave a more general recommendation to prescribe ambulatory oxygen – though not necessarily in liquid form – for adults with chronic obstructive pulmonary disease (COPD) or interstitial lung disease (ILD) who have severe exertional room air hypoxemia.

They published the recommendations as part of the ATS’ first-ever guideline on home oxygen therapy for adults with chronic lung disease in the American Journal of Respiratory and Critical Care Medicine.

The ATS identified the need for an updated guideline because of new research, and because an online survey of almost 2,000 U.S. oxygen users showed they were having problems accessing and using oxygen.

For long-term oxygen therapy, the guideline reinforces what most practitioners are already doing, Dr. Holland said. It recommends that adults with COPD or ILD who have severe chronic resting room air hypoxemia receive oxygen therapy at least 15 hours per day.

On the other hand, in adults with COPD who have moderate chronic resting room-air hypoxemia, the guideline recommends against long-term oxygen therapy.

The recommendation to prescribe ambulatory oxygen for people with severe exertional room-air hypoxemia may have more effect on practice, Dr. Holland said. Laboratory-based tests have suggested oxygen can improve exercise capacity, but clinical trials used during daily life have had inconsistent results.

The evidence is particularly lacking for patients with ILD, Dr. Holland said in an interview. “It’s such an important part of practice to maintain oxygen therapy that it’s ethically very difficult to conduct such a trial. So, we did have to make use of indirect evidence from patients with COPD” for the guidelines.

The portable equipment comes with burdens, including managing its weight and bulk, social stigma, fear of cylinders running out, and equipment noise.

“We tried to clearly set out both the benefits and burdens of that therapy and made a conditional recommendation, and also a really strong call for shared decision-making with patients and health professionals,” Dr. Holland said.

In addition to looking at the evidence, the panel took into consideration the concerns identified by patients. This included the challenge of figuring out how to use the equipment. “All the oxygen equipment was ‘dumped’ on me,” wrote one oxygen user quoted in the guideline. “I knew nothing and was in a daze. I am sure that the delivery guy gave me some instructions when it was delivered but I retained nothing.”

For this reason, the guideline describes instruction and training on the use and maintenance of the equipment, including smoking cessation, fire prevention, and tripping hazards, as a “best practice.”

Nothing about the guideline is surprising, said MeiLan K. Han, MD, a spokesperson for the American Lung Association and professor of pulmonary and critical care medicine at the University of Michigan Health System in Ann Arbor. “I don’t think they’ve actually come to any new conclusion,” she said in an interview. “This is pretty much how I practice already.”

But the guideline could have an effect on policy, she said. The panel noted research showing that lower Medicare reimbursement to durable medical equipment companies since 2011 has forced many patients to switch from small, easily portable liquid oxygen to home-fill oxygen systems that include heavy cylinders.

“The impact of this decline in the availability and adequacy of portable oxygen devices in the United States has been profound,” Dr. Holland and colleagues wrote. “Supplemental oxygen users reported numerous problems, with the overarching theme being restricted mobility and isolation due to inadequate portable options.”

For this reason, the guideline recommends liquid oxygen for patients with chronic lung disease who are mobile outside of the home and require continuous oxygen flow rates of >3 L/min during exertion.

Many of Dr. Han’s patients have struggled with this problem, she said. “The clunkiest, most painful form of ‘ambulatory oxygen’ are these really large metal cylinders. They’re huge. And you have to carry them on a cart. It’s portable in theory only.”

Some of her patients have resorted to buying their own equipment on eBay, she said.

The authors report multiple disclosures including serving as advisory board members to foundations and pharmaceutical companies, and some are company employees or stockholders.

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

People with chronic lung disease who need significant amounts of oxygen should be able to take it in liquid form when they are able to leave home, according to a new guideline from the American Thoracic Society.

“For those patients, often the other types of devices either can’t supply enough oxygen or are not portable enough,” said Anne Holland, PT, PhD, a professor of physiotherapy at Monash University and Alfred Hospital in Melbourne. “They’re heavy and cumbersome to use.”

Dr. Holland and colleagues also gave a more general recommendation to prescribe ambulatory oxygen – though not necessarily in liquid form – for adults with chronic obstructive pulmonary disease (COPD) or interstitial lung disease (ILD) who have severe exertional room air hypoxemia.

They published the recommendations as part of the ATS’ first-ever guideline on home oxygen therapy for adults with chronic lung disease in the American Journal of Respiratory and Critical Care Medicine.

The ATS identified the need for an updated guideline because of new research, and because an online survey of almost 2,000 U.S. oxygen users showed they were having problems accessing and using oxygen.

For long-term oxygen therapy, the guideline reinforces what most practitioners are already doing, Dr. Holland said. It recommends that adults with COPD or ILD who have severe chronic resting room air hypoxemia receive oxygen therapy at least 15 hours per day.

On the other hand, in adults with COPD who have moderate chronic resting room-air hypoxemia, the guideline recommends against long-term oxygen therapy.

The recommendation to prescribe ambulatory oxygen for people with severe exertional room-air hypoxemia may have more effect on practice, Dr. Holland said. Laboratory-based tests have suggested oxygen can improve exercise capacity, but clinical trials used during daily life have had inconsistent results.

The evidence is particularly lacking for patients with ILD, Dr. Holland said in an interview. “It’s such an important part of practice to maintain oxygen therapy that it’s ethically very difficult to conduct such a trial. So, we did have to make use of indirect evidence from patients with COPD” for the guidelines.

The portable equipment comes with burdens, including managing its weight and bulk, social stigma, fear of cylinders running out, and equipment noise.

“We tried to clearly set out both the benefits and burdens of that therapy and made a conditional recommendation, and also a really strong call for shared decision-making with patients and health professionals,” Dr. Holland said.

In addition to looking at the evidence, the panel took into consideration the concerns identified by patients. This included the challenge of figuring out how to use the equipment. “All the oxygen equipment was ‘dumped’ on me,” wrote one oxygen user quoted in the guideline. “I knew nothing and was in a daze. I am sure that the delivery guy gave me some instructions when it was delivered but I retained nothing.”

For this reason, the guideline describes instruction and training on the use and maintenance of the equipment, including smoking cessation, fire prevention, and tripping hazards, as a “best practice.”

Nothing about the guideline is surprising, said MeiLan K. Han, MD, a spokesperson for the American Lung Association and professor of pulmonary and critical care medicine at the University of Michigan Health System in Ann Arbor. “I don’t think they’ve actually come to any new conclusion,” she said in an interview. “This is pretty much how I practice already.”

But the guideline could have an effect on policy, she said. The panel noted research showing that lower Medicare reimbursement to durable medical equipment companies since 2011 has forced many patients to switch from small, easily portable liquid oxygen to home-fill oxygen systems that include heavy cylinders.

“The impact of this decline in the availability and adequacy of portable oxygen devices in the United States has been profound,” Dr. Holland and colleagues wrote. “Supplemental oxygen users reported numerous problems, with the overarching theme being restricted mobility and isolation due to inadequate portable options.”

For this reason, the guideline recommends liquid oxygen for patients with chronic lung disease who are mobile outside of the home and require continuous oxygen flow rates of >3 L/min during exertion.

Many of Dr. Han’s patients have struggled with this problem, she said. “The clunkiest, most painful form of ‘ambulatory oxygen’ are these really large metal cylinders. They’re huge. And you have to carry them on a cart. It’s portable in theory only.”

Some of her patients have resorted to buying their own equipment on eBay, she said.

The authors report multiple disclosures including serving as advisory board members to foundations and pharmaceutical companies, and some are company employees or stockholders.

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

People with chronic lung disease who need significant amounts of oxygen should be able to take it in liquid form when they are able to leave home, according to a new guideline from the American Thoracic Society.

“For those patients, often the other types of devices either can’t supply enough oxygen or are not portable enough,” said Anne Holland, PT, PhD, a professor of physiotherapy at Monash University and Alfred Hospital in Melbourne. “They’re heavy and cumbersome to use.”

Dr. Holland and colleagues also gave a more general recommendation to prescribe ambulatory oxygen – though not necessarily in liquid form – for adults with chronic obstructive pulmonary disease (COPD) or interstitial lung disease (ILD) who have severe exertional room air hypoxemia.

They published the recommendations as part of the ATS’ first-ever guideline on home oxygen therapy for adults with chronic lung disease in the American Journal of Respiratory and Critical Care Medicine.

The ATS identified the need for an updated guideline because of new research, and because an online survey of almost 2,000 U.S. oxygen users showed they were having problems accessing and using oxygen.

For long-term oxygen therapy, the guideline reinforces what most practitioners are already doing, Dr. Holland said. It recommends that adults with COPD or ILD who have severe chronic resting room air hypoxemia receive oxygen therapy at least 15 hours per day.

On the other hand, in adults with COPD who have moderate chronic resting room-air hypoxemia, the guideline recommends against long-term oxygen therapy.

The recommendation to prescribe ambulatory oxygen for people with severe exertional room-air hypoxemia may have more effect on practice, Dr. Holland said. Laboratory-based tests have suggested oxygen can improve exercise capacity, but clinical trials used during daily life have had inconsistent results.

The evidence is particularly lacking for patients with ILD, Dr. Holland said in an interview. “It’s such an important part of practice to maintain oxygen therapy that it’s ethically very difficult to conduct such a trial. So, we did have to make use of indirect evidence from patients with COPD” for the guidelines.

The portable equipment comes with burdens, including managing its weight and bulk, social stigma, fear of cylinders running out, and equipment noise.

“We tried to clearly set out both the benefits and burdens of that therapy and made a conditional recommendation, and also a really strong call for shared decision-making with patients and health professionals,” Dr. Holland said.

In addition to looking at the evidence, the panel took into consideration the concerns identified by patients. This included the challenge of figuring out how to use the equipment. “All the oxygen equipment was ‘dumped’ on me,” wrote one oxygen user quoted in the guideline. “I knew nothing and was in a daze. I am sure that the delivery guy gave me some instructions when it was delivered but I retained nothing.”

For this reason, the guideline describes instruction and training on the use and maintenance of the equipment, including smoking cessation, fire prevention, and tripping hazards, as a “best practice.”

Nothing about the guideline is surprising, said MeiLan K. Han, MD, a spokesperson for the American Lung Association and professor of pulmonary and critical care medicine at the University of Michigan Health System in Ann Arbor. “I don’t think they’ve actually come to any new conclusion,” she said in an interview. “This is pretty much how I practice already.”

But the guideline could have an effect on policy, she said. The panel noted research showing that lower Medicare reimbursement to durable medical equipment companies since 2011 has forced many patients to switch from small, easily portable liquid oxygen to home-fill oxygen systems that include heavy cylinders.

“The impact of this decline in the availability and adequacy of portable oxygen devices in the United States has been profound,” Dr. Holland and colleagues wrote. “Supplemental oxygen users reported numerous problems, with the overarching theme being restricted mobility and isolation due to inadequate portable options.”

For this reason, the guideline recommends liquid oxygen for patients with chronic lung disease who are mobile outside of the home and require continuous oxygen flow rates of >3 L/min during exertion.

Many of Dr. Han’s patients have struggled with this problem, she said. “The clunkiest, most painful form of ‘ambulatory oxygen’ are these really large metal cylinders. They’re huge. And you have to carry them on a cart. It’s portable in theory only.”

Some of her patients have resorted to buying their own equipment on eBay, she said.

The authors report multiple disclosures including serving as advisory board members to foundations and pharmaceutical companies, and some are company employees or stockholders.

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

Inhaled corticosteroids (ICS) do not protect patients with chronic respiratory conditions against COVID-19-related death, a study of almost 1 million individuals in the United Kingdom has shown.

Patients with chronic obstructive pulmonary disease or asthma who used ICS on a regular basis were more likely to die from COVID-19 than COPD or asthma patients who were prescribed non-ICS therapies, reported co-lead author Anna Schultze, PhD, of London School of Hygiene & Tropical Medicine and colleagues.

Of note, the increased risk of death among ICS users likely stemmed from greater severity of preexisting chronic respiratory conditions, instead of directly from ICS usage, which has little apparent impact on COVID-19 mortality, the investigators wrote in Lancet Respiratory Medicine.

These findings conflict with a hypothesis proposed early in the pandemic: that ICS may protect individuals from SARS-CoV-2 infection and poor outcomes with COVID-19.

According to Megan Conroy, MD, of the department of internal medicine at the Ohio State University Wexner Medical Center, Columbus, this hypothesis was based on some unexpected epidemiological findings.

“In general, we tend to think people with underlying lung disease – like COPD or asthma – to be at higher risk for severe forms of lower respiratory tract infections,” Dr. Conroy said. “Somewhat surprisingly, early data in the pandemic showed patients with COPD and asthma [were] underrepresented [among patients with COVID] when compared to the prevalence of these diseases in the population.”

This raised the possibility of an incidental protective effect from regular ICS therapy, which “had some strong theoretic pathophysiologic basis,” Dr. Conroy said, referring to research that demonstrated ICS-mediated downregulation of SARS-CoV-2 entry receptors ACE2 and TMPRSS2.

Dr. Schultze and colleagues noted that investigators for two ongoing randomized controlled trials (NCT04331054, NCT04330586) are studying ICS as an intervention for COVID-19; but neither trial includes individuals already taking ICS for chronic respiratory disease.

The present observational study therefore aimed to assess mortality risk within this population. Data were drawn from electronic health records and a U.K. national mortality database, with follow-up ranging from March 1 to May 6, 2020. Eligibility required a relevant prescription within 4 months of first follow-up. In the COPD group, patients were prescribed a long-acting beta agonist plus a long-acting muscarinic antagonist (LABA–LAMA), LABA alone, LABA plus ICS, LABA–LAMA plus ICS, or ICS alone (if prescribed LABA within 4 months).

In the asthma group, patients received low/medium-dose ICS, high-dose ICS, or a short-acting beta agonist (SABA) alone. Patients with COPD were at least 35 years of age, while those with asthma were 18 years or older. Hazard ratios were adjusted for a variety of covariates, including respiratory disease–exacerbation history, age, sex, body mass index, hypertension, diabetes, and others.

These eligibility criteria returned 148,557 patients with COPD and 818,490 with asthma.

Patients with COPD who were prescribed ICS plus LABA-LAMA or ICS plus LABA had an increased risk of COVID-19-related death, compared with those who did not receive ICS (adjusted hazard ratio, 1.39; 95% confidence interval, 1.10-1.76). Separate analyses of patients who received a triple combination (LABA–LAMA plus ICS) versus those who took a dual combination (LABA plus ICS) showed that triple-combination therapy was significantly associated with increased COVID-19-related mortality (aHR, 1.43; 95% CI, 1.12-1.83), while dual-combination therapy was less so (aHR, 1.29; 95% CI, 0.96-1.74). Non–COVID-19–related mortality was significantly increased for all COPD patients who were prescribed ICS, with or without adjustment for covariates.

Asthma patients prescribed high-dose ICS instead of SABA alone had a slightly greater risk of COVID-19–related death, based on an adjusted hazard ratio of 1.55 (95% CI, 1.10-2.18). Those with asthma who received low/medium–dose ICS demonstrated a slight trend toward increased mortality risk, but this was not significant (aHR, 1.14; 95% CI, 0.85-1.54). ICS usage in the asthma group was not linked with a significant increase in non–COVID-19–related death.

“In summary, we found no evidence of a beneficial effect of regular ICS use among people with COPD and asthma on COVID-19–related mortality,” the investigators concluded.

In agreement with the investigators, Dr. Conroy said that the increased mortality rate among ICS users should not be misconstrued as a medication-related risk.

“While the study found that those with COPD or asthma taking ICS and high-dose ICS were at an increased risk of death, this could easily be explained by the likelihood that those are the patients who are more likely to have more severe underlying lung disease,” Dr. Conroy said. “While this observational study did attempt to control for exacerbation history, the ability to do so by electronic health records data is certainly imperfect.”

With this in mind, patients with chronic respiratory disease should be encouraged to adhere to their usual treatment regimen, Dr. Conroy added.

“There isn’t evidence to increase or decrease medications just because of the pandemic,” she said. “A patient with asthma or COPD should continue to take the medications that are needed to achieve good control of their lung disease.”

The study was funded by the U.K. Medical Research Council. The investigators reported additional relationships with the Wellcome Trust, the Good Thinking Foundation, the Laura and John Arnold Foundation, and others. Dr. Conroy reported no conflicts of interest.

SOURCE: Schultze A et al. Lancet Respir Med. 2020 Sep 24. doi: 10.1016/ S2213-2600(20)30415-X.

Inhaled corticosteroids (ICS) do not protect patients with chronic respiratory conditions against COVID-19-related death, a study of almost 1 million individuals in the United Kingdom has shown.

Patients with chronic obstructive pulmonary disease or asthma who used ICS on a regular basis were more likely to die from COVID-19 than COPD or asthma patients who were prescribed non-ICS therapies, reported co-lead author Anna Schultze, PhD, of London School of Hygiene & Tropical Medicine and colleagues.

Of note, the increased risk of death among ICS users likely stemmed from greater severity of preexisting chronic respiratory conditions, instead of directly from ICS usage, which has little apparent impact on COVID-19 mortality, the investigators wrote in Lancet Respiratory Medicine.

These findings conflict with a hypothesis proposed early in the pandemic: that ICS may protect individuals from SARS-CoV-2 infection and poor outcomes with COVID-19.

According to Megan Conroy, MD, of the department of internal medicine at the Ohio State University Wexner Medical Center, Columbus, this hypothesis was based on some unexpected epidemiological findings.

“In general, we tend to think people with underlying lung disease – like COPD or asthma – to be at higher risk for severe forms of lower respiratory tract infections,” Dr. Conroy said. “Somewhat surprisingly, early data in the pandemic showed patients with COPD and asthma [were] underrepresented [among patients with COVID] when compared to the prevalence of these diseases in the population.”

This raised the possibility of an incidental protective effect from regular ICS therapy, which “had some strong theoretic pathophysiologic basis,” Dr. Conroy said, referring to research that demonstrated ICS-mediated downregulation of SARS-CoV-2 entry receptors ACE2 and TMPRSS2.

Dr. Schultze and colleagues noted that investigators for two ongoing randomized controlled trials (NCT04331054, NCT04330586) are studying ICS as an intervention for COVID-19; but neither trial includes individuals already taking ICS for chronic respiratory disease.

The present observational study therefore aimed to assess mortality risk within this population. Data were drawn from electronic health records and a U.K. national mortality database, with follow-up ranging from March 1 to May 6, 2020. Eligibility required a relevant prescription within 4 months of first follow-up. In the COPD group, patients were prescribed a long-acting beta agonist plus a long-acting muscarinic antagonist (LABA–LAMA), LABA alone, LABA plus ICS, LABA–LAMA plus ICS, or ICS alone (if prescribed LABA within 4 months).

In the asthma group, patients received low/medium-dose ICS, high-dose ICS, or a short-acting beta agonist (SABA) alone. Patients with COPD were at least 35 years of age, while those with asthma were 18 years or older. Hazard ratios were adjusted for a variety of covariates, including respiratory disease–exacerbation history, age, sex, body mass index, hypertension, diabetes, and others.

These eligibility criteria returned 148,557 patients with COPD and 818,490 with asthma.

Patients with COPD who were prescribed ICS plus LABA-LAMA or ICS plus LABA had an increased risk of COVID-19-related death, compared with those who did not receive ICS (adjusted hazard ratio, 1.39; 95% confidence interval, 1.10-1.76). Separate analyses of patients who received a triple combination (LABA–LAMA plus ICS) versus those who took a dual combination (LABA plus ICS) showed that triple-combination therapy was significantly associated with increased COVID-19-related mortality (aHR, 1.43; 95% CI, 1.12-1.83), while dual-combination therapy was less so (aHR, 1.29; 95% CI, 0.96-1.74). Non–COVID-19–related mortality was significantly increased for all COPD patients who were prescribed ICS, with or without adjustment for covariates.

Asthma patients prescribed high-dose ICS instead of SABA alone had a slightly greater risk of COVID-19–related death, based on an adjusted hazard ratio of 1.55 (95% CI, 1.10-2.18). Those with asthma who received low/medium–dose ICS demonstrated a slight trend toward increased mortality risk, but this was not significant (aHR, 1.14; 95% CI, 0.85-1.54). ICS usage in the asthma group was not linked with a significant increase in non–COVID-19–related death.

“In summary, we found no evidence of a beneficial effect of regular ICS use among people with COPD and asthma on COVID-19–related mortality,” the investigators concluded.

In agreement with the investigators, Dr. Conroy said that the increased mortality rate among ICS users should not be misconstrued as a medication-related risk.

“While the study found that those with COPD or asthma taking ICS and high-dose ICS were at an increased risk of death, this could easily be explained by the likelihood that those are the patients who are more likely to have more severe underlying lung disease,” Dr. Conroy said. “While this observational study did attempt to control for exacerbation history, the ability to do so by electronic health records data is certainly imperfect.”

With this in mind, patients with chronic respiratory disease should be encouraged to adhere to their usual treatment regimen, Dr. Conroy added.

“There isn’t evidence to increase or decrease medications just because of the pandemic,” she said. “A patient with asthma or COPD should continue to take the medications that are needed to achieve good control of their lung disease.”

The study was funded by the U.K. Medical Research Council. The investigators reported additional relationships with the Wellcome Trust, the Good Thinking Foundation, the Laura and John Arnold Foundation, and others. Dr. Conroy reported no conflicts of interest.

SOURCE: Schultze A et al. Lancet Respir Med. 2020 Sep 24. doi: 10.1016/ S2213-2600(20)30415-X.

Inhaled corticosteroids (ICS) do not protect patients with chronic respiratory conditions against COVID-19-related death, a study of almost 1 million individuals in the United Kingdom has shown.

Patients with chronic obstructive pulmonary disease or asthma who used ICS on a regular basis were more likely to die from COVID-19 than COPD or asthma patients who were prescribed non-ICS therapies, reported co-lead author Anna Schultze, PhD, of London School of Hygiene & Tropical Medicine and colleagues.

Of note, the increased risk of death among ICS users likely stemmed from greater severity of preexisting chronic respiratory conditions, instead of directly from ICS usage, which has little apparent impact on COVID-19 mortality, the investigators wrote in Lancet Respiratory Medicine.

These findings conflict with a hypothesis proposed early in the pandemic: that ICS may protect individuals from SARS-CoV-2 infection and poor outcomes with COVID-19.

According to Megan Conroy, MD, of the department of internal medicine at the Ohio State University Wexner Medical Center, Columbus, this hypothesis was based on some unexpected epidemiological findings.

“In general, we tend to think people with underlying lung disease – like COPD or asthma – to be at higher risk for severe forms of lower respiratory tract infections,” Dr. Conroy said. “Somewhat surprisingly, early data in the pandemic showed patients with COPD and asthma [were] underrepresented [among patients with COVID] when compared to the prevalence of these diseases in the population.”

This raised the possibility of an incidental protective effect from regular ICS therapy, which “had some strong theoretic pathophysiologic basis,” Dr. Conroy said, referring to research that demonstrated ICS-mediated downregulation of SARS-CoV-2 entry receptors ACE2 and TMPRSS2.

Dr. Schultze and colleagues noted that investigators for two ongoing randomized controlled trials (NCT04331054, NCT04330586) are studying ICS as an intervention for COVID-19; but neither trial includes individuals already taking ICS for chronic respiratory disease.

The present observational study therefore aimed to assess mortality risk within this population. Data were drawn from electronic health records and a U.K. national mortality database, with follow-up ranging from March 1 to May 6, 2020. Eligibility required a relevant prescription within 4 months of first follow-up. In the COPD group, patients were prescribed a long-acting beta agonist plus a long-acting muscarinic antagonist (LABA–LAMA), LABA alone, LABA plus ICS, LABA–LAMA plus ICS, or ICS alone (if prescribed LABA within 4 months).

In the asthma group, patients received low/medium-dose ICS, high-dose ICS, or a short-acting beta agonist (SABA) alone. Patients with COPD were at least 35 years of age, while those with asthma were 18 years or older. Hazard ratios were adjusted for a variety of covariates, including respiratory disease–exacerbation history, age, sex, body mass index, hypertension, diabetes, and others.

These eligibility criteria returned 148,557 patients with COPD and 818,490 with asthma.

Patients with COPD who were prescribed ICS plus LABA-LAMA or ICS plus LABA had an increased risk of COVID-19-related death, compared with those who did not receive ICS (adjusted hazard ratio, 1.39; 95% confidence interval, 1.10-1.76). Separate analyses of patients who received a triple combination (LABA–LAMA plus ICS) versus those who took a dual combination (LABA plus ICS) showed that triple-combination therapy was significantly associated with increased COVID-19-related mortality (aHR, 1.43; 95% CI, 1.12-1.83), while dual-combination therapy was less so (aHR, 1.29; 95% CI, 0.96-1.74). Non–COVID-19–related mortality was significantly increased for all COPD patients who were prescribed ICS, with or without adjustment for covariates.

Asthma patients prescribed high-dose ICS instead of SABA alone had a slightly greater risk of COVID-19–related death, based on an adjusted hazard ratio of 1.55 (95% CI, 1.10-2.18). Those with asthma who received low/medium–dose ICS demonstrated a slight trend toward increased mortality risk, but this was not significant (aHR, 1.14; 95% CI, 0.85-1.54). ICS usage in the asthma group was not linked with a significant increase in non–COVID-19–related death.

“In summary, we found no evidence of a beneficial effect of regular ICS use among people with COPD and asthma on COVID-19–related mortality,” the investigators concluded.

In agreement with the investigators, Dr. Conroy said that the increased mortality rate among ICS users should not be misconstrued as a medication-related risk.

“While the study found that those with COPD or asthma taking ICS and high-dose ICS were at an increased risk of death, this could easily be explained by the likelihood that those are the patients who are more likely to have more severe underlying lung disease,” Dr. Conroy said. “While this observational study did attempt to control for exacerbation history, the ability to do so by electronic health records data is certainly imperfect.”

With this in mind, patients with chronic respiratory disease should be encouraged to adhere to their usual treatment regimen, Dr. Conroy added.

“There isn’t evidence to increase or decrease medications just because of the pandemic,” she said. “A patient with asthma or COPD should continue to take the medications that are needed to achieve good control of their lung disease.”

The study was funded by the U.K. Medical Research Council. The investigators reported additional relationships with the Wellcome Trust, the Good Thinking Foundation, the Laura and John Arnold Foundation, and others. Dr. Conroy reported no conflicts of interest.

SOURCE: Schultze A et al. Lancet Respir Med. 2020 Sep 24. doi: 10.1016/ S2213-2600(20)30415-X.

Nocturnal oxygen therapy for patients with COPD and isolated nocturnal oxygen desaturation does not improve survival or delay disease progression, according to findings published Sept. 17 in The New England Journal of Medicine. The new report adds to evidence that the widely implemented and costly practice may be unnecessary.

Patients with COPD who do not qualify for long-term oxygen therapy (LTOT) are commonly prescribed nocturnal oxygen in the belief that it can delay disease progression, possibly by decreasing alveolar hypoventilation and ventilation-perfusion mismatch.

But investigations so far and the new study from the International Nocturnal Oxygen (INOX) Trial have not borne this out.

“There is no indication that nocturnal oxygen has a positive or negative effect on survival or progression to long-term oxygen therapy in patients with nocturnal hypoxemia in COPD. Consequently, there is no reason for physicians to screen for nocturnal hypoxemia in COPD,” study leader Yves Lacasse, MD, told Medscape Medical News.

Lacasse is from the Institut Universitaire de Cardiologie et de Pneumologie de Québec–Université Laval, Quebec, Canada.

The idea that the therapy helps is firmly entrenched.

In the early 1980s, two trials indicated that patients who had COPD and severe chronic daytime hypoxemia benefit from LTOT (15-18 hours a day or longer).

A decade later, two landmark trials (the Nocturnal Oxygen Therapy Trial and the British Medical Research Council Trial) added to evidence that LTOT may prolong life for patients with COPD and severe daytime hypoxemia.

“The good news from both trials was that oxygen saves lives. From this moment, oxygen therapy became a standard of care, and confirmatory trials would be considered unethical,” Lacasse explained.

“Oxygen therapy gained widespread acceptance by official organizations for treatment of most chronic cardiorespiratory conditions complicated by severe hypoxemia, even if proof of efficacy is lacking. New indications emerged, such as isolated nocturnal oxygen desaturation. Even in COPD, inappropriate prescriptions of home oxygen therapy are not unusual. Oxygen is everywhere,” Lacasse continued.

A meta-analysis from 2005 identified two trials that evaluated home oxygen therapy specifically for isolated nocturnal desaturation. Both found no survival benefit from nocturnal oxygen.

The study by Lacasse and colleagues assessed effects on mortality or worsening of disease (progression to LTOT) with 3-4 years of nocturnal oxygen supplementation.

Participants, whose oxygen saturation was less than 90% for at least 30% of the recording time on nocturnal oximetry, received oxygen or ambient air from a sham device as a placebo for at least 4 hours per session. The goal of treatment was nocturnal oxygen saturation exceeding 90% for at least 90% of the recorded time.

The trial protocol excluded patients with severe obesity, apnea, lung cancer, left heart failure, interstitial lung disease, or bronchiectasis.

The study was initially powered in 2010 to include 600 participants, with half to receive placebo. The study assumed mortality of 20% among control patients over 3 years; 20% of patients progressed to LTOT.

When recruiting lagged, the data safety monitoring board and steering committee extended follow-up to 4 years. In 2014, they requested an interim analysis, and recruitment ceased. Overall, 243 patients participated.

Lacasse cited several reasons for the difficulty with recruitment as well as retention: unwillingness to take the risk of receiving placebo instead of a readily available treatment, fading interest over time, and frailty that affects compliance.

Patients in the study came from 28 community or university-affiliated hospitals in Canada, Portugal, Spain, and France. At the 3-year mark, 39% of patients (48 of 123) who were assigned to nocturnal oxygen therapy and 42% (50 of 119) of those taking placebo had met criteria for LTOT or had died (difference, −3.0 percentage points; P = .64). The groups did not differ appreciably in rates of exacerbation and hospitalization.

The researchers could not analyze subgroups because the patients were very similar with regard to the severity of nocturnal oxygen desaturation, Lacasse said.

Economics enters into the picture – home oxygen therapy is second only to hospitalization as the most expensive healthcare expenditure associated with clinical care for COPD in developed countries. “The math is simple. There is enormous potential for saving money if the results of our clinical trial are applied appropriately,” said Lacasse.

William Bailey, MD, professor emeritus of pulmonary, allergy, and critical care medicine at the University of Alabama at Birmingham, agrees that the practice is overused.

“There is a built-in bias in the medical community. Most believe that anyone with lung disease benefits from oxygen. Even some of our investigators had a hard time believing the results. The study was well designed, carefully carried out, and I feel confident that the results are reliable,” he said.

Shawn P. E. Nishi, MD, director of bronchoscopy and advanced pulmonary procedures, division of pulmonary and critical care medicine, the University of Texas Medical Branch, Galveston, Texas, mentioned the study’s main limitation, which the authors readily acknowledge.

“Unfortunately, the trial had difficulty recruiting subjects, with less than half of expected enrollment achieved, and was underpowered to make any conclusions. Other studies have examined nocturnal oxygen use and have not shown a mortality benefit,” Nishi explained.

She added that the study did not evaluate use of LTOT for improving outcomes other than mortality, including quality of life, cardiovascular morbidity, depression, cognitive function, exercise capacity, and frequency of COPD exacerbations or hospitalization.

Other limitations of the study include suboptimal adherence to the therapy and interpretation of the clinical significance on the basis of a survey of Canadian pulmonologists.

This article first appeared on Medscape.com.

Nocturnal oxygen therapy for patients with COPD and isolated nocturnal oxygen desaturation does not improve survival or delay disease progression, according to findings published Sept. 17 in The New England Journal of Medicine. The new report adds to evidence that the widely implemented and costly practice may be unnecessary.

Patients with COPD who do not qualify for long-term oxygen therapy (LTOT) are commonly prescribed nocturnal oxygen in the belief that it can delay disease progression, possibly by decreasing alveolar hypoventilation and ventilation-perfusion mismatch.

But investigations so far and the new study from the International Nocturnal Oxygen (INOX) Trial have not borne this out.

“There is no indication that nocturnal oxygen has a positive or negative effect on survival or progression to long-term oxygen therapy in patients with nocturnal hypoxemia in COPD. Consequently, there is no reason for physicians to screen for nocturnal hypoxemia in COPD,” study leader Yves Lacasse, MD, told Medscape Medical News.

Lacasse is from the Institut Universitaire de Cardiologie et de Pneumologie de Québec–Université Laval, Quebec, Canada.

The idea that the therapy helps is firmly entrenched.

In the early 1980s, two trials indicated that patients who had COPD and severe chronic daytime hypoxemia benefit from LTOT (15-18 hours a day or longer).

A decade later, two landmark trials (the Nocturnal Oxygen Therapy Trial and the British Medical Research Council Trial) added to evidence that LTOT may prolong life for patients with COPD and severe daytime hypoxemia.

“The good news from both trials was that oxygen saves lives. From this moment, oxygen therapy became a standard of care, and confirmatory trials would be considered unethical,” Lacasse explained.

“Oxygen therapy gained widespread acceptance by official organizations for treatment of most chronic cardiorespiratory conditions complicated by severe hypoxemia, even if proof of efficacy is lacking. New indications emerged, such as isolated nocturnal oxygen desaturation. Even in COPD, inappropriate prescriptions of home oxygen therapy are not unusual. Oxygen is everywhere,” Lacasse continued.

A meta-analysis from 2005 identified two trials that evaluated home oxygen therapy specifically for isolated nocturnal desaturation. Both found no survival benefit from nocturnal oxygen.

The study by Lacasse and colleagues assessed effects on mortality or worsening of disease (progression to LTOT) with 3-4 years of nocturnal oxygen supplementation.

Participants, whose oxygen saturation was less than 90% for at least 30% of the recording time on nocturnal oximetry, received oxygen or ambient air from a sham device as a placebo for at least 4 hours per session. The goal of treatment was nocturnal oxygen saturation exceeding 90% for at least 90% of the recorded time.

The trial protocol excluded patients with severe obesity, apnea, lung cancer, left heart failure, interstitial lung disease, or bronchiectasis.

The study was initially powered in 2010 to include 600 participants, with half to receive placebo. The study assumed mortality of 20% among control patients over 3 years; 20% of patients progressed to LTOT.

When recruiting lagged, the data safety monitoring board and steering committee extended follow-up to 4 years. In 2014, they requested an interim analysis, and recruitment ceased. Overall, 243 patients participated.

Lacasse cited several reasons for the difficulty with recruitment as well as retention: unwillingness to take the risk of receiving placebo instead of a readily available treatment, fading interest over time, and frailty that affects compliance.

Patients in the study came from 28 community or university-affiliated hospitals in Canada, Portugal, Spain, and France. At the 3-year mark, 39% of patients (48 of 123) who were assigned to nocturnal oxygen therapy and 42% (50 of 119) of those taking placebo had met criteria for LTOT or had died (difference, −3.0 percentage points; P = .64). The groups did not differ appreciably in rates of exacerbation and hospitalization.

The researchers could not analyze subgroups because the patients were very similar with regard to the severity of nocturnal oxygen desaturation, Lacasse said.

Economics enters into the picture – home oxygen therapy is second only to hospitalization as the most expensive healthcare expenditure associated with clinical care for COPD in developed countries. “The math is simple. There is enormous potential for saving money if the results of our clinical trial are applied appropriately,” said Lacasse.

William Bailey, MD, professor emeritus of pulmonary, allergy, and critical care medicine at the University of Alabama at Birmingham, agrees that the practice is overused.

“There is a built-in bias in the medical community. Most believe that anyone with lung disease benefits from oxygen. Even some of our investigators had a hard time believing the results. The study was well designed, carefully carried out, and I feel confident that the results are reliable,” he said.

Shawn P. E. Nishi, MD, director of bronchoscopy and advanced pulmonary procedures, division of pulmonary and critical care medicine, the University of Texas Medical Branch, Galveston, Texas, mentioned the study’s main limitation, which the authors readily acknowledge.

“Unfortunately, the trial had difficulty recruiting subjects, with less than half of expected enrollment achieved, and was underpowered to make any conclusions. Other studies have examined nocturnal oxygen use and have not shown a mortality benefit,” Nishi explained.

She added that the study did not evaluate use of LTOT for improving outcomes other than mortality, including quality of life, cardiovascular morbidity, depression, cognitive function, exercise capacity, and frequency of COPD exacerbations or hospitalization.

Other limitations of the study include suboptimal adherence to the therapy and interpretation of the clinical significance on the basis of a survey of Canadian pulmonologists.

This article first appeared on Medscape.com.

Nocturnal oxygen therapy for patients with COPD and isolated nocturnal oxygen desaturation does not improve survival or delay disease progression, according to findings published Sept. 17 in The New England Journal of Medicine. The new report adds to evidence that the widely implemented and costly practice may be unnecessary.

Patients with COPD who do not qualify for long-term oxygen therapy (LTOT) are commonly prescribed nocturnal oxygen in the belief that it can delay disease progression, possibly by decreasing alveolar hypoventilation and ventilation-perfusion mismatch.

But investigations so far and the new study from the International Nocturnal Oxygen (INOX) Trial have not borne this out.

“There is no indication that nocturnal oxygen has a positive or negative effect on survival or progression to long-term oxygen therapy in patients with nocturnal hypoxemia in COPD. Consequently, there is no reason for physicians to screen for nocturnal hypoxemia in COPD,” study leader Yves Lacasse, MD, told Medscape Medical News.

Lacasse is from the Institut Universitaire de Cardiologie et de Pneumologie de Québec–Université Laval, Quebec, Canada.

The idea that the therapy helps is firmly entrenched.

In the early 1980s, two trials indicated that patients who had COPD and severe chronic daytime hypoxemia benefit from LTOT (15-18 hours a day or longer).

A decade later, two landmark trials (the Nocturnal Oxygen Therapy Trial and the British Medical Research Council Trial) added to evidence that LTOT may prolong life for patients with COPD and severe daytime hypoxemia.

“The good news from both trials was that oxygen saves lives. From this moment, oxygen therapy became a standard of care, and confirmatory trials would be considered unethical,” Lacasse explained.

“Oxygen therapy gained widespread acceptance by official organizations for treatment of most chronic cardiorespiratory conditions complicated by severe hypoxemia, even if proof of efficacy is lacking. New indications emerged, such as isolated nocturnal oxygen desaturation. Even in COPD, inappropriate prescriptions of home oxygen therapy are not unusual. Oxygen is everywhere,” Lacasse continued.

A meta-analysis from 2005 identified two trials that evaluated home oxygen therapy specifically for isolated nocturnal desaturation. Both found no survival benefit from nocturnal oxygen.

The study by Lacasse and colleagues assessed effects on mortality or worsening of disease (progression to LTOT) with 3-4 years of nocturnal oxygen supplementation.

Participants, whose oxygen saturation was less than 90% for at least 30% of the recording time on nocturnal oximetry, received oxygen or ambient air from a sham device as a placebo for at least 4 hours per session. The goal of treatment was nocturnal oxygen saturation exceeding 90% for at least 90% of the recorded time.

The trial protocol excluded patients with severe obesity, apnea, lung cancer, left heart failure, interstitial lung disease, or bronchiectasis.

The study was initially powered in 2010 to include 600 participants, with half to receive placebo. The study assumed mortality of 20% among control patients over 3 years; 20% of patients progressed to LTOT.

When recruiting lagged, the data safety monitoring board and steering committee extended follow-up to 4 years. In 2014, they requested an interim analysis, and recruitment ceased. Overall, 243 patients participated.

Lacasse cited several reasons for the difficulty with recruitment as well as retention: unwillingness to take the risk of receiving placebo instead of a readily available treatment, fading interest over time, and frailty that affects compliance.

Patients in the study came from 28 community or university-affiliated hospitals in Canada, Portugal, Spain, and France. At the 3-year mark, 39% of patients (48 of 123) who were assigned to nocturnal oxygen therapy and 42% (50 of 119) of those taking placebo had met criteria for LTOT or had died (difference, −3.0 percentage points; P = .64). The groups did not differ appreciably in rates of exacerbation and hospitalization.

The researchers could not analyze subgroups because the patients were very similar with regard to the severity of nocturnal oxygen desaturation, Lacasse said.

Economics enters into the picture – home oxygen therapy is second only to hospitalization as the most expensive healthcare expenditure associated with clinical care for COPD in developed countries. “The math is simple. There is enormous potential for saving money if the results of our clinical trial are applied appropriately,” said Lacasse.

William Bailey, MD, professor emeritus of pulmonary, allergy, and critical care medicine at the University of Alabama at Birmingham, agrees that the practice is overused.

“There is a built-in bias in the medical community. Most believe that anyone with lung disease benefits from oxygen. Even some of our investigators had a hard time believing the results. The study was well designed, carefully carried out, and I feel confident that the results are reliable,” he said.

Shawn P. E. Nishi, MD, director of bronchoscopy and advanced pulmonary procedures, division of pulmonary and critical care medicine, the University of Texas Medical Branch, Galveston, Texas, mentioned the study’s main limitation, which the authors readily acknowledge.

“Unfortunately, the trial had difficulty recruiting subjects, with less than half of expected enrollment achieved, and was underpowered to make any conclusions. Other studies have examined nocturnal oxygen use and have not shown a mortality benefit,” Nishi explained.

She added that the study did not evaluate use of LTOT for improving outcomes other than mortality, including quality of life, cardiovascular morbidity, depression, cognitive function, exercise capacity, and frequency of COPD exacerbations or hospitalization.

Other limitations of the study include suboptimal adherence to the therapy and interpretation of the clinical significance on the basis of a survey of Canadian pulmonologists.

This article first appeared on Medscape.com.

Chronic obstructive pulmonary disease (COPD) is caused by airway and alveolar abnormalities and is the third most common cause of death worldwide. COPD results in airflow obstruction that is not fully reversible. The diagnosis of COPD should be considered in patients over 40 years who have chronic cough and/or dyspnea, particularly if they have a history of tobacco use. The diagnosis is confirmed by a diminished forced expiratory volume in 1 second (FEV₁) that is not fully reversible with the use of a bronchodilator and an FEV₁/forced vital capacity ratio of less than or equal to 0.7.¹The American Thoracic Society released a guideline on the pharmacologic management of COPD after formulating specific questions to be answered using rigorous GRADE (Grading of Recommendations Assessment, Development and Evaluation) methodology.²

Recommendation 1

Patients with COPD who report dyspnea or exercise intolerance should be treated with both a long-acting muscarinic antagonist (LAMA) and a long-acting beta agonist (LABA) (dual LAMA/LABA therapy) instead of monotherapy, the guideline says.

This recommendation represents a critical change in care and is based on strong evidence. For years practitioners have been using single bronchodilator therapy, often a LAMA as the entrance to treatment for patients with symptomatic COPD. The recommendation to begin treatment with dual bronchodilator therapy is an important one. This is the only recommendation that received a “strong” grade.

The evidence comes from the compilation of 24 randomized controlled trials that altogether included 45,441 patients. Dual therapy versus monotherapy was evaluated by examining differences in dyspnea, health-related quality of life, exacerbations (which were defined as requiring antibiotics, oral steroids, or hospitalizations), and hospitalizations independently. Marked improvements were observed for exacerbations and hospitalizations in the dual LAMA/LABA group, compared with treatment with use of a single bronchodilator. In 22,733 patients across 15 RCTs, there were 88 fewer exacerbations per 1,000 patients with a rate ratio (RR) of 0.80 (P < .002), the guideline states.

The decrease in exacerbations is a critical factor in treating patients with COPD because each exacerbation can lead to a sustained decrease in airflow and increases the risk of future exacerbations.
 

Recommendation 2

In COPD patients who report dyspnea or exercise intolerance, with an exacerbation in the last year, the guideline recommends triple therapy with an inhaled corticosteroid (ICS) instead of just dual LAMA/LABA therapy.

In the past many clinicians have relegated triple therapy to a “last ditch resort.” This recommendation makes it clear that triple therapy is appropriate for a broad range of patients with moderate to severe COPD.
 

Recommendation 3

In patients with COPD who are on triple therapy, the inhaled corticosteroid component can be withdrawn if patients have not had an exacerbation within the last year, according to the guideline.

It should be noted that the committee said that the ICS can be withdrawn, not that it necessarily needs to be withdrawn. The data showed that it would be safe to withdraw the ICS, but the data is limited in time to 1 year’s follow-up.
 

Recommendation 4

ATS was not able to make a recommendation for or against ICS as an additive therapy to LAMA/LABA in those without an exacerbation and elevated blood eosinophilia (defined as ≥2% blood eosinophils or >149 cell/mcL). In those with at least one exacerbation and increased blood eosinophilia, the society does recommend addition of ICS to dual LAMA/LABA therapy.

An area of ongoing discussion is at what point in disease severity, before exacerbations occur, might ICS be useful in preventing a first exacerbation. This awaits further studies and evidence.
 

Recommendation 5

In COPD patients with frequent and severe exacerbations who are otherwise medically optimized, the ATS advises against the use of maintenance oral corticosteroid therapy.

It has been known and accepted for years that oral steroids should be avoided if at all possible because they have little benefit and can cause significant harm. The guideline reinforces this.
 

The Bottom Line

Dual LAMA/LABA therapy in symptomatic patients is the standard of care. If a patient has had an exacerbation within the last year, add an ICS to the LAMA/LABA, most conveniently given in the form of triple therapy in one inhaler. Finally, even in refractory COPD, maintenance oral corticosteroids bring more harm than benefit.

Dr. Skolnik is professor of family and community medicine at the Thomas Jefferson University, Philadelphia, and associate director of the Family Medicine Residency Program at Abington (Pa.) Jefferson Health. Dr. Matthews is a second-year resident in the family medicine residency program at Abington Jefferson Health.

References

1. Wells C, Joo MJ. COPD and asthma: Diagnostic accuracy requires spirometry. J Fam Pract. 2019;68(2):76-81.

2. Nici L, Mammen MJ, Charbek E, et al. Pharmacologic management of chronic obstructive pulmonary disease. An official American Thoracic Society clinical practice guideline. Am J Respir Crit Care Med. 2020;201(9):e56-69.

Chronic obstructive pulmonary disease (COPD) is caused by airway and alveolar abnormalities and is the third most common cause of death worldwide. COPD results in airflow obstruction that is not fully reversible. The diagnosis of COPD should be considered in patients over 40 years who have chronic cough and/or dyspnea, particularly if they have a history of tobacco use. The diagnosis is confirmed by a diminished forced expiratory volume in 1 second (FEV₁) that is not fully reversible with the use of a bronchodilator and an FEV₁/forced vital capacity ratio of less than or equal to 0.7.¹The American Thoracic Society released a guideline on the pharmacologic management of COPD after formulating specific questions to be answered using rigorous GRADE (Grading of Recommendations Assessment, Development and Evaluation) methodology.²

Recommendation 1

Patients with COPD who report dyspnea or exercise intolerance should be treated with both a long-acting muscarinic antagonist (LAMA) and a long-acting beta agonist (LABA) (dual LAMA/LABA therapy) instead of monotherapy, the guideline says.

This recommendation represents a critical change in care and is based on strong evidence. For years practitioners have been using single bronchodilator therapy, often a LAMA as the entrance to treatment for patients with symptomatic COPD. The recommendation to begin treatment with dual bronchodilator therapy is an important one. This is the only recommendation that received a “strong” grade.

The evidence comes from the compilation of 24 randomized controlled trials that altogether included 45,441 patients. Dual therapy versus monotherapy was evaluated by examining differences in dyspnea, health-related quality of life, exacerbations (which were defined as requiring antibiotics, oral steroids, or hospitalizations), and hospitalizations independently. Marked improvements were observed for exacerbations and hospitalizations in the dual LAMA/LABA group, compared with treatment with use of a single bronchodilator. In 22,733 patients across 15 RCTs, there were 88 fewer exacerbations per 1,000 patients with a rate ratio (RR) of 0.80 (P < .002), the guideline states.

The decrease in exacerbations is a critical factor in treating patients with COPD because each exacerbation can lead to a sustained decrease in airflow and increases the risk of future exacerbations.
 

Recommendation 2

In COPD patients who report dyspnea or exercise intolerance, with an exacerbation in the last year, the guideline recommends triple therapy with an inhaled corticosteroid (ICS) instead of just dual LAMA/LABA therapy.

In the past many clinicians have relegated triple therapy to a “last ditch resort.” This recommendation makes it clear that triple therapy is appropriate for a broad range of patients with moderate to severe COPD.
 

Recommendation 3

In patients with COPD who are on triple therapy, the inhaled corticosteroid component can be withdrawn if patients have not had an exacerbation within the last year, according to the guideline.

It should be noted that the committee said that the ICS can be withdrawn, not that it necessarily needs to be withdrawn. The data showed that it would be safe to withdraw the ICS, but the data is limited in time to 1 year’s follow-up.
 

Recommendation 4

ATS was not able to make a recommendation for or against ICS as an additive therapy to LAMA/LABA in those without an exacerbation and elevated blood eosinophilia (defined as ≥2% blood eosinophils or >149 cell/mcL). In those with at least one exacerbation and increased blood eosinophilia, the society does recommend addition of ICS to dual LAMA/LABA therapy.

An area of ongoing discussion is at what point in disease severity, before exacerbations occur, might ICS be useful in preventing a first exacerbation. This awaits further studies and evidence.
 

Recommendation 5

In COPD patients with frequent and severe exacerbations who are otherwise medically optimized, the ATS advises against the use of maintenance oral corticosteroid therapy.

It has been known and accepted for years that oral steroids should be avoided if at all possible because they have little benefit and can cause significant harm. The guideline reinforces this.
 

The Bottom Line

Dual LAMA/LABA therapy in symptomatic patients is the standard of care. If a patient has had an exacerbation within the last year, add an ICS to the LAMA/LABA, most conveniently given in the form of triple therapy in one inhaler. Finally, even in refractory COPD, maintenance oral corticosteroids bring more harm than benefit.

Dr. Skolnik is professor of family and community medicine at the Thomas Jefferson University, Philadelphia, and associate director of the Family Medicine Residency Program at Abington (Pa.) Jefferson Health. Dr. Matthews is a second-year resident in the family medicine residency program at Abington Jefferson Health.

References

1. Wells C, Joo MJ. COPD and asthma: Diagnostic accuracy requires spirometry. J Fam Pract. 2019;68(2):76-81.

2. Nici L, Mammen MJ, Charbek E, et al. Pharmacologic management of chronic obstructive pulmonary disease. An official American Thoracic Society clinical practice guideline. Am J Respir Crit Care Med. 2020;201(9):e56-69.

Chronic obstructive pulmonary disease (COPD) is caused by airway and alveolar abnormalities and is the third most common cause of death worldwide. COPD results in airflow obstruction that is not fully reversible. The diagnosis of COPD should be considered in patients over 40 years who have chronic cough and/or dyspnea, particularly if they have a history of tobacco use. The diagnosis is confirmed by a diminished forced expiratory volume in 1 second (FEV₁) that is not fully reversible with the use of a bronchodilator and an FEV₁/forced vital capacity ratio of less than or equal to 0.7.¹The American Thoracic Society released a guideline on the pharmacologic management of COPD after formulating specific questions to be answered using rigorous GRADE (Grading of Recommendations Assessment, Development and Evaluation) methodology.²

Recommendation 1

Patients with COPD who report dyspnea or exercise intolerance should be treated with both a long-acting muscarinic antagonist (LAMA) and a long-acting beta agonist (LABA) (dual LAMA/LABA therapy) instead of monotherapy, the guideline says.

This recommendation represents a critical change in care and is based on strong evidence. For years practitioners have been using single bronchodilator therapy, often a LAMA as the entrance to treatment for patients with symptomatic COPD. The recommendation to begin treatment with dual bronchodilator therapy is an important one. This is the only recommendation that received a “strong” grade.

The evidence comes from the compilation of 24 randomized controlled trials that altogether included 45,441 patients. Dual therapy versus monotherapy was evaluated by examining differences in dyspnea, health-related quality of life, exacerbations (which were defined as requiring antibiotics, oral steroids, or hospitalizations), and hospitalizations independently. Marked improvements were observed for exacerbations and hospitalizations in the dual LAMA/LABA group, compared with treatment with use of a single bronchodilator. In 22,733 patients across 15 RCTs, there were 88 fewer exacerbations per 1,000 patients with a rate ratio (RR) of 0.80 (P < .002), the guideline states.

The decrease in exacerbations is a critical factor in treating patients with COPD because each exacerbation can lead to a sustained decrease in airflow and increases the risk of future exacerbations.
 

Recommendation 2

In COPD patients who report dyspnea or exercise intolerance, with an exacerbation in the last year, the guideline recommends triple therapy with an inhaled corticosteroid (ICS) instead of just dual LAMA/LABA therapy.

In the past many clinicians have relegated triple therapy to a “last ditch resort.” This recommendation makes it clear that triple therapy is appropriate for a broad range of patients with moderate to severe COPD.
 

Recommendation 3

In patients with COPD who are on triple therapy, the inhaled corticosteroid component can be withdrawn if patients have not had an exacerbation within the last year, according to the guideline.

It should be noted that the committee said that the ICS can be withdrawn, not that it necessarily needs to be withdrawn. The data showed that it would be safe to withdraw the ICS, but the data is limited in time to 1 year’s follow-up.
 

Recommendation 4

ATS was not able to make a recommendation for or against ICS as an additive therapy to LAMA/LABA in those without an exacerbation and elevated blood eosinophilia (defined as ≥2% blood eosinophils or >149 cell/mcL). In those with at least one exacerbation and increased blood eosinophilia, the society does recommend addition of ICS to dual LAMA/LABA therapy.

An area of ongoing discussion is at what point in disease severity, before exacerbations occur, might ICS be useful in preventing a first exacerbation. This awaits further studies and evidence.
 

Recommendation 5

In COPD patients with frequent and severe exacerbations who are otherwise medically optimized, the ATS advises against the use of maintenance oral corticosteroid therapy.

It has been known and accepted for years that oral steroids should be avoided if at all possible because they have little benefit and can cause significant harm. The guideline reinforces this.
 

The Bottom Line

Dual LAMA/LABA therapy in symptomatic patients is the standard of care. If a patient has had an exacerbation within the last year, add an ICS to the LAMA/LABA, most conveniently given in the form of triple therapy in one inhaler. Finally, even in refractory COPD, maintenance oral corticosteroids bring more harm than benefit.

Dr. Skolnik is professor of family and community medicine at the Thomas Jefferson University, Philadelphia, and associate director of the Family Medicine Residency Program at Abington (Pa.) Jefferson Health. Dr. Matthews is a second-year resident in the family medicine residency program at Abington Jefferson Health.

References

1. Wells C, Joo MJ. COPD and asthma: Diagnostic accuracy requires spirometry. J Fam Pract. 2019;68(2):76-81.

2. Nici L, Mammen MJ, Charbek E, et al. Pharmacologic management of chronic obstructive pulmonary disease. An official American Thoracic Society clinical practice guideline. Am J Respir Crit Care Med. 2020;201(9):e56-69.

Insomnia is “highly prevalent” in veterans with chronic pulmonary obstructive disease and is significantly associated with greater COPD-related health care utilization, according to an analysis of national Veterans Health Administration data.

“The study highlights the importance of exploring potential sleep disturbances and disorders in this population and suggests that a targeted treatment for insomnia may help to improve COPD outcomes in veterans with COPD and insomnia,” said Faith Luyster, PhD, assistant professor at the University of Pittsburgh, in an interview after the virtual annual meeting of the Associated Professional Sleep Societies, where she presented the findings.

Dr. Luyster and coinvestigators used an administrative database from the Veterans Affairs Corporate Data Warehouse to identify more than 1.5 million patients with COPD who used VHA services over a 6-year period (fiscal years 2011-2017). Insomnia was defined by ICD-9/10 diagnostic codes and/or a sedative-hypnotic prescription for at least 30 doses during any of these years.

Insomnia with COPD was prevalent in this sample of veterans at 37.3%. Compared with veterans without comorbid insomnia, those who had both COPD and insomnia (575,539 of the total 1,542,642) were older (69 vs. 64 years), more likely to be female (6.3% vs. 3.7%), more likely to be Black (14% vs. 11%) and more likely to be a current smoker (46.1% vs. 35.5%).

Those with both COPD and insomnia were also more likely to have a service-connected disability rating of 50% of greater; use supplemental oxygen; be divorced, widowed, or separated; have a higher body mass index; or have other medical or psychiatric conditions – in particular obstructive sleep apnea (39% vs. 7%), depression (21% vs. 5%), and PTSD (33% vs. 3%).

P values were < .001 for all of these demographic and clinical variables, Dr. Luyster reported at the meeting.

Comorbid insomnia clearly impacted health care utilization, she said. Veterans with insomnia in addition to COPD had more outpatient and ED visits (10.5 vs 6.9, and 1.6 vs. 1.4, respectively) and more hospitalizations (2.2 vs. 1.8) with a primary diagnostic code for COPD or COPD exacerbation (P < .001).

A negative binomial regression analysis (P < .001) showed that “even after controlling for demographic and other medical conditions, COPD patients with insomnia had greater rates of health care utilization relative to COPD patients without insomnia,” Dr. Luyster said in the interview.

Prior studies have suggested that disturbed sleep is a predictor of poorer longitudinal outcomes in COPD, even after controlling for COPD severity, but have not looked specifically at insomnia, she said.

Commenting on the study Octavian C. Ioachimescu, MD, PhD, of Emory University, Atlanta, and the Atlanta VA Medical Center in Decatur, said the criteria used to define insomnia – unadjudicated ICD diagnoses as well as sedative-hypnotic prescriptions – may explain part of the reported prevalence of insomnia. Even so, the findings add to existing literature demonstrating that COPD and insomnia are both common disorders among VHA patients, and that their frequent coexistence “could have adverse consequences on the overall health, functional status, long-term outcomes, and quality of life of these patients.”

Questions of causation are yet to be answered, he said. “Is it that uncontrolled or severe airflow obstruction causing frequent nocturnal arousals, dyspnea, orthopnea, overuse of inhaled sympathomimetics and heightened anxiety leads to insomnia? Or is it that insomnia – possibly in a cluster with other affective disorders such as depression, anxiety disorders, or PTSD – elicits more frequent or more severe symptoms of shortness of breath in those with smoking-induced airway and parenchymal lung disease, making the latter diagnosis more overt than in others?

“My bet is on a bidirectional causal relationship,” said Dr. Ioachimescu, an editorial board advisor of CHEST Physician.

“Regardless of the etiology [of insomnia in veterans with COPD],” Dr. Luyster said, “it’s important that [insomnia] be addressed and treated appropriately, whether that be through pharmacological treatment, or probably more ideally through [cognitive behavioral therapy] for insomnia.”

The study did not control for COPD severity, she said, because of the difficulty of extracting this data from the VA Corporate Data Warehouse. The study was funded by the VA Competitive Career Development Fund.Dr. Luyster reported that she had no disclosures. Dr. Ioachimescu also said he had no relevant disclosures.
 

Insomnia is “highly prevalent” in veterans with chronic pulmonary obstructive disease and is significantly associated with greater COPD-related health care utilization, according to an analysis of national Veterans Health Administration data.

“The study highlights the importance of exploring potential sleep disturbances and disorders in this population and suggests that a targeted treatment for insomnia may help to improve COPD outcomes in veterans with COPD and insomnia,” said Faith Luyster, PhD, assistant professor at the University of Pittsburgh, in an interview after the virtual annual meeting of the Associated Professional Sleep Societies, where she presented the findings.

Dr. Luyster and coinvestigators used an administrative database from the Veterans Affairs Corporate Data Warehouse to identify more than 1.5 million patients with COPD who used VHA services over a 6-year period (fiscal years 2011-2017). Insomnia was defined by ICD-9/10 diagnostic codes and/or a sedative-hypnotic prescription for at least 30 doses during any of these years.

Insomnia with COPD was prevalent in this sample of veterans at 37.3%. Compared with veterans without comorbid insomnia, those who had both COPD and insomnia (575,539 of the total 1,542,642) were older (69 vs. 64 years), more likely to be female (6.3% vs. 3.7%), more likely to be Black (14% vs. 11%) and more likely to be a current smoker (46.1% vs. 35.5%).

Those with both COPD and insomnia were also more likely to have a service-connected disability rating of 50% of greater; use supplemental oxygen; be divorced, widowed, or separated; have a higher body mass index; or have other medical or psychiatric conditions – in particular obstructive sleep apnea (39% vs. 7%), depression (21% vs. 5%), and PTSD (33% vs. 3%).

P values were < .001 for all of these demographic and clinical variables, Dr. Luyster reported at the meeting.

Comorbid insomnia clearly impacted health care utilization, she said. Veterans with insomnia in addition to COPD had more outpatient and ED visits (10.5 vs 6.9, and 1.6 vs. 1.4, respectively) and more hospitalizations (2.2 vs. 1.8) with a primary diagnostic code for COPD or COPD exacerbation (P < .001).

A negative binomial regression analysis (P < .001) showed that “even after controlling for demographic and other medical conditions, COPD patients with insomnia had greater rates of health care utilization relative to COPD patients without insomnia,” Dr. Luyster said in the interview.

Prior studies have suggested that disturbed sleep is a predictor of poorer longitudinal outcomes in COPD, even after controlling for COPD severity, but have not looked specifically at insomnia, she said.

Commenting on the study Octavian C. Ioachimescu, MD, PhD, of Emory University, Atlanta, and the Atlanta VA Medical Center in Decatur, said the criteria used to define insomnia – unadjudicated ICD diagnoses as well as sedative-hypnotic prescriptions – may explain part of the reported prevalence of insomnia. Even so, the findings add to existing literature demonstrating that COPD and insomnia are both common disorders among VHA patients, and that their frequent coexistence “could have adverse consequences on the overall health, functional status, long-term outcomes, and quality of life of these patients.”

Questions of causation are yet to be answered, he said. “Is it that uncontrolled or severe airflow obstruction causing frequent nocturnal arousals, dyspnea, orthopnea, overuse of inhaled sympathomimetics and heightened anxiety leads to insomnia? Or is it that insomnia – possibly in a cluster with other affective disorders such as depression, anxiety disorders, or PTSD – elicits more frequent or more severe symptoms of shortness of breath in those with smoking-induced airway and parenchymal lung disease, making the latter diagnosis more overt than in others?

“My bet is on a bidirectional causal relationship,” said Dr. Ioachimescu, an editorial board advisor of CHEST Physician.

“Regardless of the etiology [of insomnia in veterans with COPD],” Dr. Luyster said, “it’s important that [insomnia] be addressed and treated appropriately, whether that be through pharmacological treatment, or probably more ideally through [cognitive behavioral therapy] for insomnia.”

The study did not control for COPD severity, she said, because of the difficulty of extracting this data from the VA Corporate Data Warehouse. The study was funded by the VA Competitive Career Development Fund.Dr. Luyster reported that she had no disclosures. Dr. Ioachimescu also said he had no relevant disclosures.
 

Insomnia is “highly prevalent” in veterans with chronic pulmonary obstructive disease and is significantly associated with greater COPD-related health care utilization, according to an analysis of national Veterans Health Administration data.

“The study highlights the importance of exploring potential sleep disturbances and disorders in this population and suggests that a targeted treatment for insomnia may help to improve COPD outcomes in veterans with COPD and insomnia,” said Faith Luyster, PhD, assistant professor at the University of Pittsburgh, in an interview after the virtual annual meeting of the Associated Professional Sleep Societies, where she presented the findings.

Dr. Luyster and coinvestigators used an administrative database from the Veterans Affairs Corporate Data Warehouse to identify more than 1.5 million patients with COPD who used VHA services over a 6-year period (fiscal years 2011-2017). Insomnia was defined by ICD-9/10 diagnostic codes and/or a sedative-hypnotic prescription for at least 30 doses during any of these years.

Insomnia with COPD was prevalent in this sample of veterans at 37.3%. Compared with veterans without comorbid insomnia, those who had both COPD and insomnia (575,539 of the total 1,542,642) were older (69 vs. 64 years), more likely to be female (6.3% vs. 3.7%), more likely to be Black (14% vs. 11%) and more likely to be a current smoker (46.1% vs. 35.5%).

Those with both COPD and insomnia were also more likely to have a service-connected disability rating of 50% of greater; use supplemental oxygen; be divorced, widowed, or separated; have a higher body mass index; or have other medical or psychiatric conditions – in particular obstructive sleep apnea (39% vs. 7%), depression (21% vs. 5%), and PTSD (33% vs. 3%).

P values were < .001 for all of these demographic and clinical variables, Dr. Luyster reported at the meeting.

Comorbid insomnia clearly impacted health care utilization, she said. Veterans with insomnia in addition to COPD had more outpatient and ED visits (10.5 vs 6.9, and 1.6 vs. 1.4, respectively) and more hospitalizations (2.2 vs. 1.8) with a primary diagnostic code for COPD or COPD exacerbation (P < .001).

A negative binomial regression analysis (P < .001) showed that “even after controlling for demographic and other medical conditions, COPD patients with insomnia had greater rates of health care utilization relative to COPD patients without insomnia,” Dr. Luyster said in the interview.

Prior studies have suggested that disturbed sleep is a predictor of poorer longitudinal outcomes in COPD, even after controlling for COPD severity, but have not looked specifically at insomnia, she said.

Commenting on the study Octavian C. Ioachimescu, MD, PhD, of Emory University, Atlanta, and the Atlanta VA Medical Center in Decatur, said the criteria used to define insomnia – unadjudicated ICD diagnoses as well as sedative-hypnotic prescriptions – may explain part of the reported prevalence of insomnia. Even so, the findings add to existing literature demonstrating that COPD and insomnia are both common disorders among VHA patients, and that their frequent coexistence “could have adverse consequences on the overall health, functional status, long-term outcomes, and quality of life of these patients.”

Questions of causation are yet to be answered, he said. “Is it that uncontrolled or severe airflow obstruction causing frequent nocturnal arousals, dyspnea, orthopnea, overuse of inhaled sympathomimetics and heightened anxiety leads to insomnia? Or is it that insomnia – possibly in a cluster with other affective disorders such as depression, anxiety disorders, or PTSD – elicits more frequent or more severe symptoms of shortness of breath in those with smoking-induced airway and parenchymal lung disease, making the latter diagnosis more overt than in others?

“My bet is on a bidirectional causal relationship,” said Dr. Ioachimescu, an editorial board advisor of CHEST Physician.

“Regardless of the etiology [of insomnia in veterans with COPD],” Dr. Luyster said, “it’s important that [insomnia] be addressed and treated appropriately, whether that be through pharmacological treatment, or probably more ideally through [cognitive behavioral therapy] for insomnia.”

The study did not control for COPD severity, she said, because of the difficulty of extracting this data from the VA Corporate Data Warehouse. The study was funded by the VA Competitive Career Development Fund.Dr. Luyster reported that she had no disclosures. Dr. Ioachimescu also said he had no relevant disclosures.
 

Patients with chronic obstructive pulmonary disease who also had certain interstitial lung abnormalities experienced more exacerbations and reduced lung function than those without such abnormalities, findings from a retrospective study has shown.

Interstitial lung abnormalities (ILA) are considered precursor lesions of interstitial lung disease and previous studies suggested an association with poor outcomes among chronic obstructive pulmonary disease (COPD) patients, but data on long-term clinical relevance are limited, wrote Tae Seung Lee, MD, of Seoul (South Korea) National University Hospital, and colleagues.

In a study published in Chest, the researchers reviewed data from 363 COPD patients including 44 with equivocal ILA and 103 with definite ILA. Overall, the ILA patients were older and had poorer lung function than non-ILA patients. Patients received chest CT scan and longitudinal pulmonary function tests between January 2013 and December 2018.

Over an average follow-up period of 5.4 years, patients with ILA experienced significantly more acute COPD exacerbations than did those without ILA (adjusted odds ratio, 2.03). The percentages of frequent exacerbators among patients with no ILA, equivocal ILA, and definite ILA were 8.3%, 15.9%, and 20.4%, respectively.

“Acute exacerbation is an important event during the clinical course of COPD, because it is associated with temporary or persistent reductions in lung function, lower quality of life, hospitalization, and mortality,” the researchers noted.

In a multivariate analysis, the annual decline in lung function (FEV₁) was –35.7 in patients with equivocal ILA, compared with –28.0 in patients with no ILA and –15.9 in those with definite ILA.

“This may be due to the distribution of the spirometric stages in each group, and to the resulting changes in lung function,” the researchers wrote. In this study, “the equivocal ILA group had a significantly lower baseline FEV₁ than the other groups. In our study population, the lower the spirometric stage, the faster the annual decline in FEV₁, consistent with the results of a prior prospective study of a COPD cohort.”

The findings were limited by several factors including the retrospective design and relatively small number of ILA patients, as well as the limited evaluation of ILA and potential for selection bias, the researchers noted. However, the result support the impact of ILA on exacerbations and accelerated decline in lung function in COPD patients.

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

SOURCE: Lee TS et al. Chest. 2020 Aug 13. doi: 10.1016/j.chest.2020.08.017.

Patients with chronic obstructive pulmonary disease who also had certain interstitial lung abnormalities experienced more exacerbations and reduced lung function than those without such abnormalities, findings from a retrospective study has shown.

Interstitial lung abnormalities (ILA) are considered precursor lesions of interstitial lung disease and previous studies suggested an association with poor outcomes among chronic obstructive pulmonary disease (COPD) patients, but data on long-term clinical relevance are limited, wrote Tae Seung Lee, MD, of Seoul (South Korea) National University Hospital, and colleagues.

In a study published in Chest, the researchers reviewed data from 363 COPD patients including 44 with equivocal ILA and 103 with definite ILA. Overall, the ILA patients were older and had poorer lung function than non-ILA patients. Patients received chest CT scan and longitudinal pulmonary function tests between January 2013 and December 2018.

Over an average follow-up period of 5.4 years, patients with ILA experienced significantly more acute COPD exacerbations than did those without ILA (adjusted odds ratio, 2.03). The percentages of frequent exacerbators among patients with no ILA, equivocal ILA, and definite ILA were 8.3%, 15.9%, and 20.4%, respectively.

“Acute exacerbation is an important event during the clinical course of COPD, because it is associated with temporary or persistent reductions in lung function, lower quality of life, hospitalization, and mortality,” the researchers noted.

In a multivariate analysis, the annual decline in lung function (FEV₁) was –35.7 in patients with equivocal ILA, compared with –28.0 in patients with no ILA and –15.9 in those with definite ILA.

“This may be due to the distribution of the spirometric stages in each group, and to the resulting changes in lung function,” the researchers wrote. In this study, “the equivocal ILA group had a significantly lower baseline FEV₁ than the other groups. In our study population, the lower the spirometric stage, the faster the annual decline in FEV₁, consistent with the results of a prior prospective study of a COPD cohort.”

The findings were limited by several factors including the retrospective design and relatively small number of ILA patients, as well as the limited evaluation of ILA and potential for selection bias, the researchers noted. However, the result support the impact of ILA on exacerbations and accelerated decline in lung function in COPD patients.

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

SOURCE: Lee TS et al. Chest. 2020 Aug 13. doi: 10.1016/j.chest.2020.08.017.

Patients with chronic obstructive pulmonary disease who also had certain interstitial lung abnormalities experienced more exacerbations and reduced lung function than those without such abnormalities, findings from a retrospective study has shown.

Interstitial lung abnormalities (ILA) are considered precursor lesions of interstitial lung disease and previous studies suggested an association with poor outcomes among chronic obstructive pulmonary disease (COPD) patients, but data on long-term clinical relevance are limited, wrote Tae Seung Lee, MD, of Seoul (South Korea) National University Hospital, and colleagues.

In a study published in Chest, the researchers reviewed data from 363 COPD patients including 44 with equivocal ILA and 103 with definite ILA. Overall, the ILA patients were older and had poorer lung function than non-ILA patients. Patients received chest CT scan and longitudinal pulmonary function tests between January 2013 and December 2018.

Over an average follow-up period of 5.4 years, patients with ILA experienced significantly more acute COPD exacerbations than did those without ILA (adjusted odds ratio, 2.03). The percentages of frequent exacerbators among patients with no ILA, equivocal ILA, and definite ILA were 8.3%, 15.9%, and 20.4%, respectively.

“Acute exacerbation is an important event during the clinical course of COPD, because it is associated with temporary or persistent reductions in lung function, lower quality of life, hospitalization, and mortality,” the researchers noted.

In a multivariate analysis, the annual decline in lung function (FEV₁) was –35.7 in patients with equivocal ILA, compared with –28.0 in patients with no ILA and –15.9 in those with definite ILA.

“This may be due to the distribution of the spirometric stages in each group, and to the resulting changes in lung function,” the researchers wrote. In this study, “the equivocal ILA group had a significantly lower baseline FEV₁ than the other groups. In our study population, the lower the spirometric stage, the faster the annual decline in FEV₁, consistent with the results of a prior prospective study of a COPD cohort.”

The findings were limited by several factors including the retrospective design and relatively small number of ILA patients, as well as the limited evaluation of ILA and potential for selection bias, the researchers noted. However, the result support the impact of ILA on exacerbations and accelerated decline in lung function in COPD patients.

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

SOURCE: Lee TS et al. Chest. 2020 Aug 13. doi: 10.1016/j.chest.2020.08.017.

Pulmonary rehabilitation reduces the likelihood that patients with chronic obstructive pulmonary disease (COPD) will be readmitted to the hospital in the year after discharge by 33%, new research shows, but few patients participate in those programs.

In fact, in a retrospective cohort of 197,376 patients from 4446 hospitals, only 1.5% of patients initiated pulmonary rehabilitation in the 90 days after hospital discharge.

“This is a striking finding,” said Mihaela Stefan, PhD, from the University of Massachusetts Medical School–Baystate in Springfield. “Our study demonstrates that we need to increase access to rehabilitation to reduce the risk of readmissions.”

Not enough patients are initiating rehabilitation, but the onus is not only on them; the system is failing them. “We wanted to understand how much pulmonary rehabilitation lowers the readmission rate,” Stefan told Medscape Medical News.

So she and her colleagues examined the records of patients who were hospitalized for COPD in 2014 to see whether they had begun rehabilitation in the 90 days after discharge and whether they were readmitted to the hospital in the subsequent 12 months.

Patients who were unlikely to initiate pulmonary rehabilitation — such as those with dementia or metastatic cancer and those discharged to hospice care or a nursing home — were excluded from the analysis, Stefan said during her presentation at the study results at the virtual American Thoracic Society (ATS) 2020 International Conference.

The risk analysis was complex because many patients died before the year was out, and “a patient who dies has no risk of being readmitted,” she explained. Selection bias was also a factor because patients who do pulmonary rehab tend to be in better shape.

The researchers used propensity score matching and Anderson–Gill models of cumulative rehospitalizations or death at 1 year with time-varying exposure to pulmonary rehabilitation to account for clustering of individual events and adjust for covariates. “It was a complicated risk analysis,” she said.

In the year after discharge, 130,660 patients (66%) were readmitted to the hospital. The rate of rehospitalization was lower for those who initiated rehabilitation than for those who did not (59% vs 66%), as was the mean number of readmissions per patient (1.4 vs 1.8).

Rehabilitation was associated with a lower risk for readmission or death (hazard ratio, 0.67; 95% CI, 0.66 - 0.69).

“We know the referral rates are low and that pulmonary rehabilitation is effective in clinical trials,” said Stefan, and now “we see that pulmonary rehabilitation is effective when you look at patients in real life.”

From a provider perspective, “we need to make sure that hospitals get more money for pulmonary rehabilitation. Cardiac rehabilitation is paid for,” she explained. "But pulmonary rehab is not a lucrative business. I don›t know why the CMS pays more for cardiac."

A rehabilitation program generally consists of 36 sessions, held two or three times a week, and many patients can’t afford that on their own, she noted. Transportation is another huge issue.

A recent study in which semi-structured interviews were conducted with 15 COPD patients showed that the main barriers to enrollment in a pulmonary rehabilitation program are lack of awareness, family obligations, transportation, and lack of motivation, said Stefan, who was involved in that research.

Telehealth rehabilitation programs might become more available in the near future, given the COVID pandemic. But “currently, Medicare doesn’t pay for telerehab,” she said. Virtual sessions might attract more patients, but lack of computer access and training could present another barrier for some.

PAH rehab

Uptake for pulmonary rehabilitation is as low for patients with pulmonary arterial hypertension (PAH) as it is for those with COPD, according to another study presented at the virtual ATS meeting.

An examination of the electronic health records of 111,356 veterans who experienced incident PAH from 2010 to 2016 showed that only 1,737 (1.6%) followed through on pulmonary rehabilitation.

“Exercise therapy is safe and effective at improving outcomes,” lead author Thomas Cascino, MD, from the University of Michigan in Ann Arbor, said in an ATS press release. “Recognizing that it is being underutilized is a necessary first step in working toward increasing patient access to rehab.

His group is currently working on a trial for home-based rehabilitation “using wearable technology as a means to expand access for people unable to come to center-based rehab for a variety of reasons,” he explained.

“The goal of all our treatments is to help people feel better and live longer,” Cascino added.

Stefan and Cascino have disclosed no relevant financial relationships.
 

This article first appeared on Medscape.com.

Pulmonary rehabilitation reduces the likelihood that patients with chronic obstructive pulmonary disease (COPD) will be readmitted to the hospital in the year after discharge by 33%, new research shows, but few patients participate in those programs.

In fact, in a retrospective cohort of 197,376 patients from 4446 hospitals, only 1.5% of patients initiated pulmonary rehabilitation in the 90 days after hospital discharge.

“This is a striking finding,” said Mihaela Stefan, PhD, from the University of Massachusetts Medical School–Baystate in Springfield. “Our study demonstrates that we need to increase access to rehabilitation to reduce the risk of readmissions.”

Not enough patients are initiating rehabilitation, but the onus is not only on them; the system is failing them. “We wanted to understand how much pulmonary rehabilitation lowers the readmission rate,” Stefan told Medscape Medical News.

So she and her colleagues examined the records of patients who were hospitalized for COPD in 2014 to see whether they had begun rehabilitation in the 90 days after discharge and whether they were readmitted to the hospital in the subsequent 12 months.

Patients who were unlikely to initiate pulmonary rehabilitation — such as those with dementia or metastatic cancer and those discharged to hospice care or a nursing home — were excluded from the analysis, Stefan said during her presentation at the study results at the virtual American Thoracic Society (ATS) 2020 International Conference.

The risk analysis was complex because many patients died before the year was out, and “a patient who dies has no risk of being readmitted,” she explained. Selection bias was also a factor because patients who do pulmonary rehab tend to be in better shape.

The researchers used propensity score matching and Anderson–Gill models of cumulative rehospitalizations or death at 1 year with time-varying exposure to pulmonary rehabilitation to account for clustering of individual events and adjust for covariates. “It was a complicated risk analysis,” she said.

In the year after discharge, 130,660 patients (66%) were readmitted to the hospital. The rate of rehospitalization was lower for those who initiated rehabilitation than for those who did not (59% vs 66%), as was the mean number of readmissions per patient (1.4 vs 1.8).

Rehabilitation was associated with a lower risk for readmission or death (hazard ratio, 0.67; 95% CI, 0.66 - 0.69).

“We know the referral rates are low and that pulmonary rehabilitation is effective in clinical trials,” said Stefan, and now “we see that pulmonary rehabilitation is effective when you look at patients in real life.”

From a provider perspective, “we need to make sure that hospitals get more money for pulmonary rehabilitation. Cardiac rehabilitation is paid for,” she explained. "But pulmonary rehab is not a lucrative business. I don›t know why the CMS pays more for cardiac."

A rehabilitation program generally consists of 36 sessions, held two or three times a week, and many patients can’t afford that on their own, she noted. Transportation is another huge issue.

A recent study in which semi-structured interviews were conducted with 15 COPD patients showed that the main barriers to enrollment in a pulmonary rehabilitation program are lack of awareness, family obligations, transportation, and lack of motivation, said Stefan, who was involved in that research.

Telehealth rehabilitation programs might become more available in the near future, given the COVID pandemic. But “currently, Medicare doesn’t pay for telerehab,” she said. Virtual sessions might attract more patients, but lack of computer access and training could present another barrier for some.

PAH rehab

Uptake for pulmonary rehabilitation is as low for patients with pulmonary arterial hypertension (PAH) as it is for those with COPD, according to another study presented at the virtual ATS meeting.

An examination of the electronic health records of 111,356 veterans who experienced incident PAH from 2010 to 2016 showed that only 1,737 (1.6%) followed through on pulmonary rehabilitation.

“Exercise therapy is safe and effective at improving outcomes,” lead author Thomas Cascino, MD, from the University of Michigan in Ann Arbor, said in an ATS press release. “Recognizing that it is being underutilized is a necessary first step in working toward increasing patient access to rehab.

His group is currently working on a trial for home-based rehabilitation “using wearable technology as a means to expand access for people unable to come to center-based rehab for a variety of reasons,” he explained.

“The goal of all our treatments is to help people feel better and live longer,” Cascino added.

Stefan and Cascino have disclosed no relevant financial relationships.
 

This article first appeared on Medscape.com.

Pulmonary rehabilitation reduces the likelihood that patients with chronic obstructive pulmonary disease (COPD) will be readmitted to the hospital in the year after discharge by 33%, new research shows, but few patients participate in those programs.

In fact, in a retrospective cohort of 197,376 patients from 4446 hospitals, only 1.5% of patients initiated pulmonary rehabilitation in the 90 days after hospital discharge.

“This is a striking finding,” said Mihaela Stefan, PhD, from the University of Massachusetts Medical School–Baystate in Springfield. “Our study demonstrates that we need to increase access to rehabilitation to reduce the risk of readmissions.”

Not enough patients are initiating rehabilitation, but the onus is not only on them; the system is failing them. “We wanted to understand how much pulmonary rehabilitation lowers the readmission rate,” Stefan told Medscape Medical News.

So she and her colleagues examined the records of patients who were hospitalized for COPD in 2014 to see whether they had begun rehabilitation in the 90 days after discharge and whether they were readmitted to the hospital in the subsequent 12 months.

Patients who were unlikely to initiate pulmonary rehabilitation — such as those with dementia or metastatic cancer and those discharged to hospice care or a nursing home — were excluded from the analysis, Stefan said during her presentation at the study results at the virtual American Thoracic Society (ATS) 2020 International Conference.

The risk analysis was complex because many patients died before the year was out, and “a patient who dies has no risk of being readmitted,” she explained. Selection bias was also a factor because patients who do pulmonary rehab tend to be in better shape.

The researchers used propensity score matching and Anderson–Gill models of cumulative rehospitalizations or death at 1 year with time-varying exposure to pulmonary rehabilitation to account for clustering of individual events and adjust for covariates. “It was a complicated risk analysis,” she said.

In the year after discharge, 130,660 patients (66%) were readmitted to the hospital. The rate of rehospitalization was lower for those who initiated rehabilitation than for those who did not (59% vs 66%), as was the mean number of readmissions per patient (1.4 vs 1.8).

Rehabilitation was associated with a lower risk for readmission or death (hazard ratio, 0.67; 95% CI, 0.66 - 0.69).

“We know the referral rates are low and that pulmonary rehabilitation is effective in clinical trials,” said Stefan, and now “we see that pulmonary rehabilitation is effective when you look at patients in real life.”

From a provider perspective, “we need to make sure that hospitals get more money for pulmonary rehabilitation. Cardiac rehabilitation is paid for,” she explained. "But pulmonary rehab is not a lucrative business. I don›t know why the CMS pays more for cardiac."

A rehabilitation program generally consists of 36 sessions, held two or three times a week, and many patients can’t afford that on their own, she noted. Transportation is another huge issue.

A recent study in which semi-structured interviews were conducted with 15 COPD patients showed that the main barriers to enrollment in a pulmonary rehabilitation program are lack of awareness, family obligations, transportation, and lack of motivation, said Stefan, who was involved in that research.

Telehealth rehabilitation programs might become more available in the near future, given the COVID pandemic. But “currently, Medicare doesn’t pay for telerehab,” she said. Virtual sessions might attract more patients, but lack of computer access and training could present another barrier for some.

PAH rehab

Uptake for pulmonary rehabilitation is as low for patients with pulmonary arterial hypertension (PAH) as it is for those with COPD, according to another study presented at the virtual ATS meeting.

An examination of the electronic health records of 111,356 veterans who experienced incident PAH from 2010 to 2016 showed that only 1,737 (1.6%) followed through on pulmonary rehabilitation.

“Exercise therapy is safe and effective at improving outcomes,” lead author Thomas Cascino, MD, from the University of Michigan in Ann Arbor, said in an ATS press release. “Recognizing that it is being underutilized is a necessary first step in working toward increasing patient access to rehab.

His group is currently working on a trial for home-based rehabilitation “using wearable technology as a means to expand access for people unable to come to center-based rehab for a variety of reasons,” he explained.

“The goal of all our treatments is to help people feel better and live longer,” Cascino added.

Stefan and Cascino have disclosed no relevant financial relationships.
 

This article first appeared on Medscape.com.