COPD

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

Heavier smoking significantly increased mortality in adults with progressive fibrosing interstitial lung disease (PF-ILD), based on data from 377 individuals.

The negative impact of smoking on pulmonary diseases is well documented, but the specific impact on patients with PF-ILD has not been well studied, Mark Platenburg, MD, of St. Antonious Hospital, Nieuwegein, the Netherlands, and colleagues wrote in Respiratory Medicine .

GaryPhoto/ThinkStock

“Patients with PF-ILD or IPF [idiopathic pulmonary fibrosis] are prone to early mortality, indicating a need for prognostic [bio]marker studies for precision medicine,” they said.

The researchers identified adults older than 18 years with PF-ILD who were diagnosed at a single center. All study participants had at least 10% fibrosis, and showed either a decline of at least 10% in forced vital capacity, a 5.0%-9.9% relative FVC decline plus progressive respiratory symptoms and/or an increase in extent of fibrosis on subsequent high-resolution (HRCT progression), or progressive respiratory symptoms and HRCT progression over 24 months after ILD diagnosis.

Pack-years of smoking was a prognostic variable; the researchers also compared median transplant-free survival in heavy smokers and mild to moderate smokers. They also investigated the association between smoking quantity and emphysema in the study population.

Overall, the increased risk for mortality was 11%, 22%, and 44% in patients with 10, 20, and 40 pack-years of smoking, respectively.

Both the unadjusted and adjusted hazard ratio for pack-years were significant (1.014, P < .001 and 1.011, P = .022, respectively).

The median transplant-free survival of ever-smokers versus never-smokers with PF-ILD was 3.3 years versus 4.8 years; median transplant-free survival was 3.0 years for heavy smokers and 3.8 years for mild to moderate smokers. Similarly, median survival was 4.2 years in never-smokers versus 3.0 years in former smokers.

Emphysema was significantly more comment in heavy smokers, compared with never smokers and mild to moderate smokers (P < .001 for both).

“We observed a gradual decrease in survival starting from never to mild-moderate and subsequent heavy smokers supporting our finding that [pack-years] is an independent predictor for mortality in PF-ILD,” the researchers wrote. “This is an important message that clinicians could convey to their ILD patients, but also to patients at-risk for ILD.”

The study findings were limited by several factors, mainly the retrospective design, incomplete data for some patients, and lack of data on comorbidities, the researchers noted. However, the results strengthen the evidence for the detrimental effect of heavy smoking in PF-ILD, they said. Consequently, “efforts to reduce pack-years in those with, and at risk for, PF-ILD may translate into a survival benefit and should have high priority in clinical practice.”

The study was supported by grants from ZonMw TopZorg Care and TZO. The researchers had no financial conflicts to disclose.

Heavier smoking significantly increased mortality in adults with progressive fibrosing interstitial lung disease (PF-ILD), based on data from 377 individuals.

The negative impact of smoking on pulmonary diseases is well documented, but the specific impact on patients with PF-ILD has not been well studied, Mark Platenburg, MD, of St. Antonious Hospital, Nieuwegein, the Netherlands, and colleagues wrote in Respiratory Medicine .

GaryPhoto/ThinkStock

“Patients with PF-ILD or IPF [idiopathic pulmonary fibrosis] are prone to early mortality, indicating a need for prognostic [bio]marker studies for precision medicine,” they said.

The researchers identified adults older than 18 years with PF-ILD who were diagnosed at a single center. All study participants had at least 10% fibrosis, and showed either a decline of at least 10% in forced vital capacity, a 5.0%-9.9% relative FVC decline plus progressive respiratory symptoms and/or an increase in extent of fibrosis on subsequent high-resolution (HRCT progression), or progressive respiratory symptoms and HRCT progression over 24 months after ILD diagnosis.

Pack-years of smoking was a prognostic variable; the researchers also compared median transplant-free survival in heavy smokers and mild to moderate smokers. They also investigated the association between smoking quantity and emphysema in the study population.

Overall, the increased risk for mortality was 11%, 22%, and 44% in patients with 10, 20, and 40 pack-years of smoking, respectively.

Both the unadjusted and adjusted hazard ratio for pack-years were significant (1.014, P < .001 and 1.011, P = .022, respectively).

The median transplant-free survival of ever-smokers versus never-smokers with PF-ILD was 3.3 years versus 4.8 years; median transplant-free survival was 3.0 years for heavy smokers and 3.8 years for mild to moderate smokers. Similarly, median survival was 4.2 years in never-smokers versus 3.0 years in former smokers.

Emphysema was significantly more comment in heavy smokers, compared with never smokers and mild to moderate smokers (P < .001 for both).

“We observed a gradual decrease in survival starting from never to mild-moderate and subsequent heavy smokers supporting our finding that [pack-years] is an independent predictor for mortality in PF-ILD,” the researchers wrote. “This is an important message that clinicians could convey to their ILD patients, but also to patients at-risk for ILD.”

The study findings were limited by several factors, mainly the retrospective design, incomplete data for some patients, and lack of data on comorbidities, the researchers noted. However, the results strengthen the evidence for the detrimental effect of heavy smoking in PF-ILD, they said. Consequently, “efforts to reduce pack-years in those with, and at risk for, PF-ILD may translate into a survival benefit and should have high priority in clinical practice.”

The study was supported by grants from ZonMw TopZorg Care and TZO. The researchers had no financial conflicts to disclose.

Heavier smoking significantly increased mortality in adults with progressive fibrosing interstitial lung disease (PF-ILD), based on data from 377 individuals.

The negative impact of smoking on pulmonary diseases is well documented, but the specific impact on patients with PF-ILD has not been well studied, Mark Platenburg, MD, of St. Antonious Hospital, Nieuwegein, the Netherlands, and colleagues wrote in Respiratory Medicine .

GaryPhoto/ThinkStock

“Patients with PF-ILD or IPF [idiopathic pulmonary fibrosis] are prone to early mortality, indicating a need for prognostic [bio]marker studies for precision medicine,” they said.

The researchers identified adults older than 18 years with PF-ILD who were diagnosed at a single center. All study participants had at least 10% fibrosis, and showed either a decline of at least 10% in forced vital capacity, a 5.0%-9.9% relative FVC decline plus progressive respiratory symptoms and/or an increase in extent of fibrosis on subsequent high-resolution (HRCT progression), or progressive respiratory symptoms and HRCT progression over 24 months after ILD diagnosis.

Pack-years of smoking was a prognostic variable; the researchers also compared median transplant-free survival in heavy smokers and mild to moderate smokers. They also investigated the association between smoking quantity and emphysema in the study population.

Overall, the increased risk for mortality was 11%, 22%, and 44% in patients with 10, 20, and 40 pack-years of smoking, respectively.

Both the unadjusted and adjusted hazard ratio for pack-years were significant (1.014, P < .001 and 1.011, P = .022, respectively).

The median transplant-free survival of ever-smokers versus never-smokers with PF-ILD was 3.3 years versus 4.8 years; median transplant-free survival was 3.0 years for heavy smokers and 3.8 years for mild to moderate smokers. Similarly, median survival was 4.2 years in never-smokers versus 3.0 years in former smokers.

Emphysema was significantly more comment in heavy smokers, compared with never smokers and mild to moderate smokers (P < .001 for both).

“We observed a gradual decrease in survival starting from never to mild-moderate and subsequent heavy smokers supporting our finding that [pack-years] is an independent predictor for mortality in PF-ILD,” the researchers wrote. “This is an important message that clinicians could convey to their ILD patients, but also to patients at-risk for ILD.”

The study findings were limited by several factors, mainly the retrospective design, incomplete data for some patients, and lack of data on comorbidities, the researchers noted. However, the results strengthen the evidence for the detrimental effect of heavy smoking in PF-ILD, they said. Consequently, “efforts to reduce pack-years in those with, and at risk for, PF-ILD may translate into a survival benefit and should have high priority in clinical practice.”

The study was supported by grants from ZonMw TopZorg Care and TZO. The researchers had no financial conflicts to disclose.

Younger and older patients with severe chronic obstructive pulmonary disease have similar pulmonary and physical health limitations, based on data from 1,058 adults.

Although chronic obstructive pulmonary disease (COPD) generally appears in older patients, the prevalence among adults aged 45-55 years was 6.5% in 2014-2015, wrote Rosanne J.H.C.G. Beijers, PhD, of Maastricht (the Netherlands) University Medical Center, and colleagues. However, data on the early-onset COPD phenotype are limited. In particular, the extent to which younger patients with early-onset severe COPD experienced the same physical and mental health problems as older patients with similar degree of airflow limitation has not been examined, they said.

In a study published in Clinical Nutrition, the researchers analyzed data from adults with COPD who were referred for pulmonary rehabilitation at a single center between July 2013 and August 2018. Severe disease was defined as FEV1< 50%, and early onset was defined as younger than 55 years. The mean age difference between older and younger patient groups was 15.8 years.

The study population included 79 individuals with early-onset severe disease, 54 with early-onset mild to moderate disease, 158 older adults with severe disease, and 103 older adults with mild to moderate disease. The researchers compared disease markers including body composition, physical performance, and mental health between the groups. A significantly greater proportion of the early-onset group were women, compared to the older group (64% vs. 44%).

In comparing early-onset and older patients with severe COPD, the researchers found that clinical characteristics were similar for body composition, skeletal muscle index, fat percentage, and bone mineral content, and for physical performance factors including the percent predicted maximal work capacity (Wmax), 6-minute walk test, and isokinetic strength. However, a higher prevalence of depression appeared in the early-onset severe-disease patients, compared with the older severe-disease patients (51.9% vs. 32.7%; P = .029).

Although the prevalence of depression was not based on a clinical diagnosis, this finding should prompt health care professionals to pay more attention to psychosocial and emotional well-being in early-onset severe COPD patients, the researchers noted.

In comparing early-onset severe-disease patients and early-onset patients with mild to moderate disease, patients with early-onset severe COPD had significantly lower exercise performance, based on a 6-minute walk test and percent predicted Wmax. However, body composition and isokinetic muscle strength were not significantly different between both early-onset groups.

The findings were limited by several factors including the relatively small number of early-onset patients and the lack of data on whether older patients were diagnosed with severe COPD at a younger age, and more research using age and lung function at the time of diagnosis is needed, the researchers noted. However, the results highlight the importance of early identification of patients at risk for early-onset severe COPD, they said. “Within these individuals at risk, special attention should also be paid to the development of extrapulmonary disease manifestations such as exercise limitations, impaired body composition, and psychological and emotional problems,” the researchers said. “Subsequently, intervention strategies need to be applied that not only focus on the regular advice of quitting smoking but also include decreasing the exposure to air pollutants and promoting a healthy lifestyle including physical activity and a healthy diet,” they added.

The study received no outside funding. Lead author Dr. Beijers had no financial conflicts to disclose.

Younger and older patients with severe chronic obstructive pulmonary disease have similar pulmonary and physical health limitations, based on data from 1,058 adults.

Although chronic obstructive pulmonary disease (COPD) generally appears in older patients, the prevalence among adults aged 45-55 years was 6.5% in 2014-2015, wrote Rosanne J.H.C.G. Beijers, PhD, of Maastricht (the Netherlands) University Medical Center, and colleagues. However, data on the early-onset COPD phenotype are limited. In particular, the extent to which younger patients with early-onset severe COPD experienced the same physical and mental health problems as older patients with similar degree of airflow limitation has not been examined, they said.

In a study published in Clinical Nutrition, the researchers analyzed data from adults with COPD who were referred for pulmonary rehabilitation at a single center between July 2013 and August 2018. Severe disease was defined as FEV1< 50%, and early onset was defined as younger than 55 years. The mean age difference between older and younger patient groups was 15.8 years.

The study population included 79 individuals with early-onset severe disease, 54 with early-onset mild to moderate disease, 158 older adults with severe disease, and 103 older adults with mild to moderate disease. The researchers compared disease markers including body composition, physical performance, and mental health between the groups. A significantly greater proportion of the early-onset group were women, compared to the older group (64% vs. 44%).

In comparing early-onset and older patients with severe COPD, the researchers found that clinical characteristics were similar for body composition, skeletal muscle index, fat percentage, and bone mineral content, and for physical performance factors including the percent predicted maximal work capacity (Wmax), 6-minute walk test, and isokinetic strength. However, a higher prevalence of depression appeared in the early-onset severe-disease patients, compared with the older severe-disease patients (51.9% vs. 32.7%; P = .029).

Although the prevalence of depression was not based on a clinical diagnosis, this finding should prompt health care professionals to pay more attention to psychosocial and emotional well-being in early-onset severe COPD patients, the researchers noted.

In comparing early-onset severe-disease patients and early-onset patients with mild to moderate disease, patients with early-onset severe COPD had significantly lower exercise performance, based on a 6-minute walk test and percent predicted Wmax. However, body composition and isokinetic muscle strength were not significantly different between both early-onset groups.

The findings were limited by several factors including the relatively small number of early-onset patients and the lack of data on whether older patients were diagnosed with severe COPD at a younger age, and more research using age and lung function at the time of diagnosis is needed, the researchers noted. However, the results highlight the importance of early identification of patients at risk for early-onset severe COPD, they said. “Within these individuals at risk, special attention should also be paid to the development of extrapulmonary disease manifestations such as exercise limitations, impaired body composition, and psychological and emotional problems,” the researchers said. “Subsequently, intervention strategies need to be applied that not only focus on the regular advice of quitting smoking but also include decreasing the exposure to air pollutants and promoting a healthy lifestyle including physical activity and a healthy diet,” they added.

The study received no outside funding. Lead author Dr. Beijers had no financial conflicts to disclose.

Younger and older patients with severe chronic obstructive pulmonary disease have similar pulmonary and physical health limitations, based on data from 1,058 adults.

Although chronic obstructive pulmonary disease (COPD) generally appears in older patients, the prevalence among adults aged 45-55 years was 6.5% in 2014-2015, wrote Rosanne J.H.C.G. Beijers, PhD, of Maastricht (the Netherlands) University Medical Center, and colleagues. However, data on the early-onset COPD phenotype are limited. In particular, the extent to which younger patients with early-onset severe COPD experienced the same physical and mental health problems as older patients with similar degree of airflow limitation has not been examined, they said.

In a study published in Clinical Nutrition, the researchers analyzed data from adults with COPD who were referred for pulmonary rehabilitation at a single center between July 2013 and August 2018. Severe disease was defined as FEV1< 50%, and early onset was defined as younger than 55 years. The mean age difference between older and younger patient groups was 15.8 years.

The study population included 79 individuals with early-onset severe disease, 54 with early-onset mild to moderate disease, 158 older adults with severe disease, and 103 older adults with mild to moderate disease. The researchers compared disease markers including body composition, physical performance, and mental health between the groups. A significantly greater proportion of the early-onset group were women, compared to the older group (64% vs. 44%).

In comparing early-onset and older patients with severe COPD, the researchers found that clinical characteristics were similar for body composition, skeletal muscle index, fat percentage, and bone mineral content, and for physical performance factors including the percent predicted maximal work capacity (Wmax), 6-minute walk test, and isokinetic strength. However, a higher prevalence of depression appeared in the early-onset severe-disease patients, compared with the older severe-disease patients (51.9% vs. 32.7%; P = .029).

Although the prevalence of depression was not based on a clinical diagnosis, this finding should prompt health care professionals to pay more attention to psychosocial and emotional well-being in early-onset severe COPD patients, the researchers noted.

In comparing early-onset severe-disease patients and early-onset patients with mild to moderate disease, patients with early-onset severe COPD had significantly lower exercise performance, based on a 6-minute walk test and percent predicted Wmax. However, body composition and isokinetic muscle strength were not significantly different between both early-onset groups.

The findings were limited by several factors including the relatively small number of early-onset patients and the lack of data on whether older patients were diagnosed with severe COPD at a younger age, and more research using age and lung function at the time of diagnosis is needed, the researchers noted. However, the results highlight the importance of early identification of patients at risk for early-onset severe COPD, they said. “Within these individuals at risk, special attention should also be paid to the development of extrapulmonary disease manifestations such as exercise limitations, impaired body composition, and psychological and emotional problems,” the researchers said. “Subsequently, intervention strategies need to be applied that not only focus on the regular advice of quitting smoking but also include decreasing the exposure to air pollutants and promoting a healthy lifestyle including physical activity and a healthy diet,” they added.

The study received no outside funding. Lead author Dr. Beijers had no financial conflicts to disclose.

Patients with chronic obstructive pulmonary disease (COPD) who are both frail and who have poor lung function or dyspnea are at especially high risk of disability within 3 to 5 years as well as all-cause mortality years later, a prospective cohort study of community-dwelling adults has shown.

“Frailty, a widely recognized geriatric syndrome characterized by multidimensional functional decline in bio-psycho-social factors, is associated with functional disability and mortality,” senior author Tze Pin Ng, MD, National University of Singapore, and colleagues explain.“Our results ... suggest that beyond traditional prognostic markers such as FEV1% (forced expiratory volume in 1 second) and dyspnea, the physical frailty phenotype provides additional useful prognostic information on future risks of disability and mortality,” the authors suggest.

The study was published online Dec. 12 in the journal CHEST^®.

SLAS-1 and SLAS-2

Data from the Singapore Longitudinal Ageing Study (SLAS-1) and SLAS-2 were collected and analyzed. SLAS-1 recruited 2,804 participants 55 years of age and older from Sept. 2003 through Dec. 2004, while SLAS-2 recruited 3,270 participants of the same age between March 2009 and June 2013. “Follow-up visits and assessments were conducted approximately 3-5 years apart,” the investigators noted.

Mortality was determined at a mean of 9.5 years of follow-up for SLAS-1 participants and a mean of 6.5 years’ follow-up for SLAS-2 participants. A total of 4,627 participants were eventually included in the analysis, of whom 1,162 patients had COPD and 3,465 patients did not. COPD was classified as mild if FEV1% was greater than or equal to 80%; moderate if FEV1% was greater than or equal to 50% to less than 80%, and severe if FEV1% was less than 50%.

Frailty in turn was based on five clinical criteria, including weakness, slowness, low physical activity, exhaustion, and shrinking. Participants were classified as frail if they met three or more of these criteria and prefrail if they met one or two criteria.

Adverse health outcomes were judged on the basis of instrumental or basic activities of daily living (IADL/ADL), while disability was judged by self-reported difficulties in or requiring assistance with at least one IADL or ADL.
 

Frail or prefrail

Almost half of the participants were frail or prefrail, as the authors reported, while 25% had COPD. Among the participants with COPD, 30% had moderate to severe COPD, 6.4% had dyspnea, and almost half had prefrailty, while approximately 7% were classified as frail.

This percentage was 86% higher than it was for participants without COPD, among whom just 3.2% were assessed as frail, at an odds ratio of 1.86 (95% CI, 1.35-2.56). Further adjustments for possible confounders reduced the gap between frail COPD and frail non-COPD participants, but frailty remained significantly associated with COPD, at an OR of 1.61 (95% CI, 1.15-2.26), the investigators note.

Furthermore, compared to those without COPD, a diagnosis of COPD without and with dyspnea was associated with a 1.5- and 4.2-fold increase in prevalent frailty (95% CI, 1.04-2.08; 1.84-9.19), respectively, although not with prefrailty. Again, adjusting for multiple confounders, FEV1%, dyspnea, and both prefrailty and frailty were associated with an approximately twofold higher prevalence of IADL/ADL disability, while the prevalence of IADL/ADL disability for participants with COPD was approximately fourfold higher in those with co-occurring FEV1% less than 80% with either prefrailty, frailty, or dyspnea.

Furthermore, the presence of prefrailty or frailty in combination with a lower FEV1% or dyspnea was associated with a 3.7- to 3.8-fold increased risk of having an IADL or ADL disability.
 

Frailty and mortality

Some 1,116 participants with COPD were followed for a mean of 2,981 days for mortality outcomes. Both FEV1% less than 50% and the presence of prefrailty and frailty almost doubled the risk of mortality, at an adjusted hazard ratio of 1.8 (95% CI, 1.24-2.68) compared to patients with an FEV1% greater than or equal to 80%. In combination with either FEV1% less than 80% or prefrailty/frailty, dyspnea almost more than doubled the risk of mortality, at an HR of 2.4 for both combinations.

“However, the mortality risk of participants with COPD was highest among those with FEV1% less than 80% and prefrailty/frailty,” the authors note, more than tripling mortality risk at an adjusted HR of 3.25 (95% CI, 1.97-5.36). Interestingly, FEV1 less than 80% and prefrailty/frailty – both alone and in combination – were also associated with a twofold to fourfold increased risk of IADL or ADL disability in participants without COPD but were less strongly associated with mortality.

Researchers then went on to create a summary risk score containing all relevant variables with values ranging from 0 to 5. The highest risk category of 3 to 5 was associated with a 7- to 8.5-fold increased risk for IADL and ADL disability and mortality among participants with COPD, and that risk remained high after adjusting for multiple confounders.

Interestingly, frailty did not significantly predict mortality in women, while dyspnea did not significantly predict mortality in men. “Recognition and assessment of physical frailty in addition to FEV1% and dyspnea would allow for more accurate identification and targeted treatment of COPD at risk of future adverse outcomes,” the authors suggest.
 

Frailty scoring system

Asked to comment on the study, Sachin Gupta, MD, a pulmonologist and critical care specialist at Alameda Health System in Oakland, Calif., noted that the current study adds to the body of literature that outcomes in patients with COPD depend as much on objectively measured variables as on qualitative measures. “By applying a frailty scoring system, these researchers were able to categorize frailty and study its impact on patient characteristics and outcomes,” he told this news organization in an email.

The summary risk assessment tool developed and assessed is familiar: It carries parallels to the widely utilized BODE Index, replacing body mass index and 6-minute walk distance with the frailty scale, he added. “Findings from this study support the idea that what meets the eye in face-to-face visits – frailty – can be codified and be part of a tool that is predictive of outcomes,” Dr. Gupta underscored.

The authors had no conflicts of interest to declare. Dr. Gupta disclosed that he is also an employee and shareholder at Genentech.

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

Patients with chronic obstructive pulmonary disease (COPD) who are both frail and who have poor lung function or dyspnea are at especially high risk of disability within 3 to 5 years as well as all-cause mortality years later, a prospective cohort study of community-dwelling adults has shown.

“Frailty, a widely recognized geriatric syndrome characterized by multidimensional functional decline in bio-psycho-social factors, is associated with functional disability and mortality,” senior author Tze Pin Ng, MD, National University of Singapore, and colleagues explain.“Our results ... suggest that beyond traditional prognostic markers such as FEV1% (forced expiratory volume in 1 second) and dyspnea, the physical frailty phenotype provides additional useful prognostic information on future risks of disability and mortality,” the authors suggest.

The study was published online Dec. 12 in the journal CHEST^®.

SLAS-1 and SLAS-2

Data from the Singapore Longitudinal Ageing Study (SLAS-1) and SLAS-2 were collected and analyzed. SLAS-1 recruited 2,804 participants 55 years of age and older from Sept. 2003 through Dec. 2004, while SLAS-2 recruited 3,270 participants of the same age between March 2009 and June 2013. “Follow-up visits and assessments were conducted approximately 3-5 years apart,” the investigators noted.

Mortality was determined at a mean of 9.5 years of follow-up for SLAS-1 participants and a mean of 6.5 years’ follow-up for SLAS-2 participants. A total of 4,627 participants were eventually included in the analysis, of whom 1,162 patients had COPD and 3,465 patients did not. COPD was classified as mild if FEV1% was greater than or equal to 80%; moderate if FEV1% was greater than or equal to 50% to less than 80%, and severe if FEV1% was less than 50%.

Frailty in turn was based on five clinical criteria, including weakness, slowness, low physical activity, exhaustion, and shrinking. Participants were classified as frail if they met three or more of these criteria and prefrail if they met one or two criteria.

Adverse health outcomes were judged on the basis of instrumental or basic activities of daily living (IADL/ADL), while disability was judged by self-reported difficulties in or requiring assistance with at least one IADL or ADL.
 

Frail or prefrail

Almost half of the participants were frail or prefrail, as the authors reported, while 25% had COPD. Among the participants with COPD, 30% had moderate to severe COPD, 6.4% had dyspnea, and almost half had prefrailty, while approximately 7% were classified as frail.

This percentage was 86% higher than it was for participants without COPD, among whom just 3.2% were assessed as frail, at an odds ratio of 1.86 (95% CI, 1.35-2.56). Further adjustments for possible confounders reduced the gap between frail COPD and frail non-COPD participants, but frailty remained significantly associated with COPD, at an OR of 1.61 (95% CI, 1.15-2.26), the investigators note.

Furthermore, compared to those without COPD, a diagnosis of COPD without and with dyspnea was associated with a 1.5- and 4.2-fold increase in prevalent frailty (95% CI, 1.04-2.08; 1.84-9.19), respectively, although not with prefrailty. Again, adjusting for multiple confounders, FEV1%, dyspnea, and both prefrailty and frailty were associated with an approximately twofold higher prevalence of IADL/ADL disability, while the prevalence of IADL/ADL disability for participants with COPD was approximately fourfold higher in those with co-occurring FEV1% less than 80% with either prefrailty, frailty, or dyspnea.

Furthermore, the presence of prefrailty or frailty in combination with a lower FEV1% or dyspnea was associated with a 3.7- to 3.8-fold increased risk of having an IADL or ADL disability.
 

Frailty and mortality

Some 1,116 participants with COPD were followed for a mean of 2,981 days for mortality outcomes. Both FEV1% less than 50% and the presence of prefrailty and frailty almost doubled the risk of mortality, at an adjusted hazard ratio of 1.8 (95% CI, 1.24-2.68) compared to patients with an FEV1% greater than or equal to 80%. In combination with either FEV1% less than 80% or prefrailty/frailty, dyspnea almost more than doubled the risk of mortality, at an HR of 2.4 for both combinations.

“However, the mortality risk of participants with COPD was highest among those with FEV1% less than 80% and prefrailty/frailty,” the authors note, more than tripling mortality risk at an adjusted HR of 3.25 (95% CI, 1.97-5.36). Interestingly, FEV1 less than 80% and prefrailty/frailty – both alone and in combination – were also associated with a twofold to fourfold increased risk of IADL or ADL disability in participants without COPD but were less strongly associated with mortality.

Researchers then went on to create a summary risk score containing all relevant variables with values ranging from 0 to 5. The highest risk category of 3 to 5 was associated with a 7- to 8.5-fold increased risk for IADL and ADL disability and mortality among participants with COPD, and that risk remained high after adjusting for multiple confounders.

Interestingly, frailty did not significantly predict mortality in women, while dyspnea did not significantly predict mortality in men. “Recognition and assessment of physical frailty in addition to FEV1% and dyspnea would allow for more accurate identification and targeted treatment of COPD at risk of future adverse outcomes,” the authors suggest.
 

Frailty scoring system

Asked to comment on the study, Sachin Gupta, MD, a pulmonologist and critical care specialist at Alameda Health System in Oakland, Calif., noted that the current study adds to the body of literature that outcomes in patients with COPD depend as much on objectively measured variables as on qualitative measures. “By applying a frailty scoring system, these researchers were able to categorize frailty and study its impact on patient characteristics and outcomes,” he told this news organization in an email.

The summary risk assessment tool developed and assessed is familiar: It carries parallels to the widely utilized BODE Index, replacing body mass index and 6-minute walk distance with the frailty scale, he added. “Findings from this study support the idea that what meets the eye in face-to-face visits – frailty – can be codified and be part of a tool that is predictive of outcomes,” Dr. Gupta underscored.

The authors had no conflicts of interest to declare. Dr. Gupta disclosed that he is also an employee and shareholder at Genentech.

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

Patients with chronic obstructive pulmonary disease (COPD) who are both frail and who have poor lung function or dyspnea are at especially high risk of disability within 3 to 5 years as well as all-cause mortality years later, a prospective cohort study of community-dwelling adults has shown.

“Frailty, a widely recognized geriatric syndrome characterized by multidimensional functional decline in bio-psycho-social factors, is associated with functional disability and mortality,” senior author Tze Pin Ng, MD, National University of Singapore, and colleagues explain.“Our results ... suggest that beyond traditional prognostic markers such as FEV1% (forced expiratory volume in 1 second) and dyspnea, the physical frailty phenotype provides additional useful prognostic information on future risks of disability and mortality,” the authors suggest.

The study was published online Dec. 12 in the journal CHEST^®.

SLAS-1 and SLAS-2

Data from the Singapore Longitudinal Ageing Study (SLAS-1) and SLAS-2 were collected and analyzed. SLAS-1 recruited 2,804 participants 55 years of age and older from Sept. 2003 through Dec. 2004, while SLAS-2 recruited 3,270 participants of the same age between March 2009 and June 2013. “Follow-up visits and assessments were conducted approximately 3-5 years apart,” the investigators noted.

Mortality was determined at a mean of 9.5 years of follow-up for SLAS-1 participants and a mean of 6.5 years’ follow-up for SLAS-2 participants. A total of 4,627 participants were eventually included in the analysis, of whom 1,162 patients had COPD and 3,465 patients did not. COPD was classified as mild if FEV1% was greater than or equal to 80%; moderate if FEV1% was greater than or equal to 50% to less than 80%, and severe if FEV1% was less than 50%.

Frailty in turn was based on five clinical criteria, including weakness, slowness, low physical activity, exhaustion, and shrinking. Participants were classified as frail if they met three or more of these criteria and prefrail if they met one or two criteria.

Adverse health outcomes were judged on the basis of instrumental or basic activities of daily living (IADL/ADL), while disability was judged by self-reported difficulties in or requiring assistance with at least one IADL or ADL.
 

Frail or prefrail

Almost half of the participants were frail or prefrail, as the authors reported, while 25% had COPD. Among the participants with COPD, 30% had moderate to severe COPD, 6.4% had dyspnea, and almost half had prefrailty, while approximately 7% were classified as frail.

This percentage was 86% higher than it was for participants without COPD, among whom just 3.2% were assessed as frail, at an odds ratio of 1.86 (95% CI, 1.35-2.56). Further adjustments for possible confounders reduced the gap between frail COPD and frail non-COPD participants, but frailty remained significantly associated with COPD, at an OR of 1.61 (95% CI, 1.15-2.26), the investigators note.

Furthermore, compared to those without COPD, a diagnosis of COPD without and with dyspnea was associated with a 1.5- and 4.2-fold increase in prevalent frailty (95% CI, 1.04-2.08; 1.84-9.19), respectively, although not with prefrailty. Again, adjusting for multiple confounders, FEV1%, dyspnea, and both prefrailty and frailty were associated with an approximately twofold higher prevalence of IADL/ADL disability, while the prevalence of IADL/ADL disability for participants with COPD was approximately fourfold higher in those with co-occurring FEV1% less than 80% with either prefrailty, frailty, or dyspnea.

Furthermore, the presence of prefrailty or frailty in combination with a lower FEV1% or dyspnea was associated with a 3.7- to 3.8-fold increased risk of having an IADL or ADL disability.
 

Frailty and mortality

Some 1,116 participants with COPD were followed for a mean of 2,981 days for mortality outcomes. Both FEV1% less than 50% and the presence of prefrailty and frailty almost doubled the risk of mortality, at an adjusted hazard ratio of 1.8 (95% CI, 1.24-2.68) compared to patients with an FEV1% greater than or equal to 80%. In combination with either FEV1% less than 80% or prefrailty/frailty, dyspnea almost more than doubled the risk of mortality, at an HR of 2.4 for both combinations.

“However, the mortality risk of participants with COPD was highest among those with FEV1% less than 80% and prefrailty/frailty,” the authors note, more than tripling mortality risk at an adjusted HR of 3.25 (95% CI, 1.97-5.36). Interestingly, FEV1 less than 80% and prefrailty/frailty – both alone and in combination – were also associated with a twofold to fourfold increased risk of IADL or ADL disability in participants without COPD but were less strongly associated with mortality.

Researchers then went on to create a summary risk score containing all relevant variables with values ranging from 0 to 5. The highest risk category of 3 to 5 was associated with a 7- to 8.5-fold increased risk for IADL and ADL disability and mortality among participants with COPD, and that risk remained high after adjusting for multiple confounders.

Interestingly, frailty did not significantly predict mortality in women, while dyspnea did not significantly predict mortality in men. “Recognition and assessment of physical frailty in addition to FEV1% and dyspnea would allow for more accurate identification and targeted treatment of COPD at risk of future adverse outcomes,” the authors suggest.
 

Frailty scoring system

Asked to comment on the study, Sachin Gupta, MD, a pulmonologist and critical care specialist at Alameda Health System in Oakland, Calif., noted that the current study adds to the body of literature that outcomes in patients with COPD depend as much on objectively measured variables as on qualitative measures. “By applying a frailty scoring system, these researchers were able to categorize frailty and study its impact on patient characteristics and outcomes,” he told this news organization in an email.

The summary risk assessment tool developed and assessed is familiar: It carries parallels to the widely utilized BODE Index, replacing body mass index and 6-minute walk distance with the frailty scale, he added. “Findings from this study support the idea that what meets the eye in face-to-face visits – frailty – can be codified and be part of a tool that is predictive of outcomes,” Dr. Gupta underscored.

The authors had no conflicts of interest to declare. Dr. Gupta disclosed that he is also an employee and shareholder at Genentech.

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

Examining sputum from patients with chronic obstructive pulmonary disease may help predict the course of the disease.

A mass spectrometric panel of biomarkers related to mucus hydration and inflammation examined in sputa showed elevated levels of metabolites from multiple pathways in patients with COPD. These correlated with sputum neutrophil counts and COPD exacerbations. In particular, sialic acid and hypoxanthine concentrations were strongly associated with disease severity, according to a study reported in the journal CHEST^® authored by Charles R. Esther Jr. MD, PhD, and colleagues.

Given that an improved understanding of the pathways associated with airway pathophysiology in COPD will identify new predictive biomarkers and novel therapeutic targets, Dr. Esther and colleagues posed the question: Which physiologic pathways are altered and predict exacerbations in the airways of subjects with COPD?

They noted that in persons with COPD – characterized by dominant small airway obstruction associated with airway inflammation – multiple inflammatory pathways, as well as indices of oxidative stress (including oxidized glutathione and 8-isoprostane), are elevated in sputum. Because inflammation is a challenging therapeutic target, identification of other biologic pathways involved in COPD pathogenesis could point to novel biomarkers and therapeutic targets.

Using this approach in cystic fibrosis (CF), the authors have previously identified small molecule metabolites correlated with airway inflammation. Findings from that research supported development of a mass spectrometric biomarker panel for simultaneous measurement of inflammatory markers coupled to biomarkers of mucus hydration. The researchers applied this technology to sputum supernatants collected through the Subpopulations and Intermediate Outcome Measures in COPD Study (SPIROMICS), which included subjects with COPD, as well as relevant smoking and nonsmoking controls.

Addressing inflammation

“Inhaled steroids are really more effective for allergic inflammation as in asthma and less so for the neutrophilic inflammation that dominates in COPD. The challenge is that neutrophilic inflammation is also a key response to infection, and it’s really hard to find an anti-inflammatory that suppresses neutrophilic inflammation well enough to get clinical benefit but not so much that the  patient becomes vulnerable to infection. Lots of clinical trials of anti-inflammatories in cystic fibrosis or COPD have been stopped because treated subjects had more trouble with infection,” Dr. Esther stated in an interview,

The investigators analyzed cell-free sputum supernatants from 980 subjects, including samples from 77 healthy nonsmokers (NS), 341 ever-smokers with preserved spirometry (SPS), and 562 subjects with COPD (178 GOLD [Global Initiative for Chronic Obstructive Lung Disease]1, 303 GOLD 2, and 81 GOLD 3). Among the subjects with COPD, elevated biomarkers from multiple pathways correlated with sputum neutrophil counts.

The most significant analytes (at FDR [False Discovery Rate] 0.1) were sialic acid (a mucin marker), hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione, with sialic acid and hypoxanthine strongly associated with measures of disease severity. Elevation of sialic acid and hypoxanthine were associated with shorter time to exacerbation and improved prediction models of future exacerbations.
 

Study results

Sialic acid was elevated in all GOLD groups relative to NS healthy controls, with a 2.8-fold (0.44 log) increase in GOLD 2 and 3.7 fold (0.56 log) increase in GOLD 3 relative to NS. Sialic acid was also elevated in the most severe disease cohorts (GOLD 2 and GOLD 3) relative to smokers with preserved spirometry (SPS) and those with less severe disease (GOLD 1).

Because mucin secretion and inflammation are also related to the pathophysiology of pulmonary exacerbations, Dr. Esther and colleagues had hypothesized that sputum biomarkers would be predictive of future exacerbations. Within the full cohort, both sialic acid and hypoxanthine were significantly elevated in those who had multiple (two or more) pulmonary exacerbations relative to those who had none (P = .001). Similar, though less significant findings were observed for xanthine (P = .01), methylthioadenosine (P = .01), adenine (P = .01), and glutathione (P = .01).
 

Sputum tests needed

While tests still need to be developed, Dr. Esther noted in an interview that they would be based on well-established technologies commonly utilized in clinical laboratories. “Sputum biomarkers of mucus hydration and adenosine metabolism could help clinicians predict which patients with COPD are likely to experience multiple pulmonary exacerbations. Tests would be applied to patients with COPD at higher risk for exacerbations; for example, those who have low lung function or a history of prior exacerbations.”

Dr. Esther noted that these biomarkers could be helpful in developing novel therapies. “Using sialic acid to assess mucus concentrations is much easier than other methods, so it could help in developing mucolytic treatments. Also, adenosine metabolism represents a novel therapeutic target in COPD. Drugs that modify adenosine metabolism that have been approved for other diseases such as gout could be tested in COPD. As with mucus hydration, the biomarkers we identified (particularly hypoxanthine) could be utilized to make sure that novel therapies are having the intended impact on airway adenosine metabolism.”

The research was supported by SPIROMICS (funded by NIH and the COPD Foundation). Dr. Esther reported having no relevant disclosures.

Examining sputum from patients with chronic obstructive pulmonary disease may help predict the course of the disease.

A mass spectrometric panel of biomarkers related to mucus hydration and inflammation examined in sputa showed elevated levels of metabolites from multiple pathways in patients with COPD. These correlated with sputum neutrophil counts and COPD exacerbations. In particular, sialic acid and hypoxanthine concentrations were strongly associated with disease severity, according to a study reported in the journal CHEST^® authored by Charles R. Esther Jr. MD, PhD, and colleagues.

Given that an improved understanding of the pathways associated with airway pathophysiology in COPD will identify new predictive biomarkers and novel therapeutic targets, Dr. Esther and colleagues posed the question: Which physiologic pathways are altered and predict exacerbations in the airways of subjects with COPD?

They noted that in persons with COPD – characterized by dominant small airway obstruction associated with airway inflammation – multiple inflammatory pathways, as well as indices of oxidative stress (including oxidized glutathione and 8-isoprostane), are elevated in sputum. Because inflammation is a challenging therapeutic target, identification of other biologic pathways involved in COPD pathogenesis could point to novel biomarkers and therapeutic targets.

Using this approach in cystic fibrosis (CF), the authors have previously identified small molecule metabolites correlated with airway inflammation. Findings from that research supported development of a mass spectrometric biomarker panel for simultaneous measurement of inflammatory markers coupled to biomarkers of mucus hydration. The researchers applied this technology to sputum supernatants collected through the Subpopulations and Intermediate Outcome Measures in COPD Study (SPIROMICS), which included subjects with COPD, as well as relevant smoking and nonsmoking controls.

Addressing inflammation

“Inhaled steroids are really more effective for allergic inflammation as in asthma and less so for the neutrophilic inflammation that dominates in COPD. The challenge is that neutrophilic inflammation is also a key response to infection, and it’s really hard to find an anti-inflammatory that suppresses neutrophilic inflammation well enough to get clinical benefit but not so much that the  patient becomes vulnerable to infection. Lots of clinical trials of anti-inflammatories in cystic fibrosis or COPD have been stopped because treated subjects had more trouble with infection,” Dr. Esther stated in an interview,

The investigators analyzed cell-free sputum supernatants from 980 subjects, including samples from 77 healthy nonsmokers (NS), 341 ever-smokers with preserved spirometry (SPS), and 562 subjects with COPD (178 GOLD [Global Initiative for Chronic Obstructive Lung Disease]1, 303 GOLD 2, and 81 GOLD 3). Among the subjects with COPD, elevated biomarkers from multiple pathways correlated with sputum neutrophil counts.

The most significant analytes (at FDR [False Discovery Rate] 0.1) were sialic acid (a mucin marker), hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione, with sialic acid and hypoxanthine strongly associated with measures of disease severity. Elevation of sialic acid and hypoxanthine were associated with shorter time to exacerbation and improved prediction models of future exacerbations.
 

Study results

Sialic acid was elevated in all GOLD groups relative to NS healthy controls, with a 2.8-fold (0.44 log) increase in GOLD 2 and 3.7 fold (0.56 log) increase in GOLD 3 relative to NS. Sialic acid was also elevated in the most severe disease cohorts (GOLD 2 and GOLD 3) relative to smokers with preserved spirometry (SPS) and those with less severe disease (GOLD 1).

Because mucin secretion and inflammation are also related to the pathophysiology of pulmonary exacerbations, Dr. Esther and colleagues had hypothesized that sputum biomarkers would be predictive of future exacerbations. Within the full cohort, both sialic acid and hypoxanthine were significantly elevated in those who had multiple (two or more) pulmonary exacerbations relative to those who had none (P = .001). Similar, though less significant findings were observed for xanthine (P = .01), methylthioadenosine (P = .01), adenine (P = .01), and glutathione (P = .01).
 

Sputum tests needed

While tests still need to be developed, Dr. Esther noted in an interview that they would be based on well-established technologies commonly utilized in clinical laboratories. “Sputum biomarkers of mucus hydration and adenosine metabolism could help clinicians predict which patients with COPD are likely to experience multiple pulmonary exacerbations. Tests would be applied to patients with COPD at higher risk for exacerbations; for example, those who have low lung function or a history of prior exacerbations.”

Dr. Esther noted that these biomarkers could be helpful in developing novel therapies. “Using sialic acid to assess mucus concentrations is much easier than other methods, so it could help in developing mucolytic treatments. Also, adenosine metabolism represents a novel therapeutic target in COPD. Drugs that modify adenosine metabolism that have been approved for other diseases such as gout could be tested in COPD. As with mucus hydration, the biomarkers we identified (particularly hypoxanthine) could be utilized to make sure that novel therapies are having the intended impact on airway adenosine metabolism.”

The research was supported by SPIROMICS (funded by NIH and the COPD Foundation). Dr. Esther reported having no relevant disclosures.

Examining sputum from patients with chronic obstructive pulmonary disease may help predict the course of the disease.

A mass spectrometric panel of biomarkers related to mucus hydration and inflammation examined in sputa showed elevated levels of metabolites from multiple pathways in patients with COPD. These correlated with sputum neutrophil counts and COPD exacerbations. In particular, sialic acid and hypoxanthine concentrations were strongly associated with disease severity, according to a study reported in the journal CHEST^® authored by Charles R. Esther Jr. MD, PhD, and colleagues.

Given that an improved understanding of the pathways associated with airway pathophysiology in COPD will identify new predictive biomarkers and novel therapeutic targets, Dr. Esther and colleagues posed the question: Which physiologic pathways are altered and predict exacerbations in the airways of subjects with COPD?

They noted that in persons with COPD – characterized by dominant small airway obstruction associated with airway inflammation – multiple inflammatory pathways, as well as indices of oxidative stress (including oxidized glutathione and 8-isoprostane), are elevated in sputum. Because inflammation is a challenging therapeutic target, identification of other biologic pathways involved in COPD pathogenesis could point to novel biomarkers and therapeutic targets.

Using this approach in cystic fibrosis (CF), the authors have previously identified small molecule metabolites correlated with airway inflammation. Findings from that research supported development of a mass spectrometric biomarker panel for simultaneous measurement of inflammatory markers coupled to biomarkers of mucus hydration. The researchers applied this technology to sputum supernatants collected through the Subpopulations and Intermediate Outcome Measures in COPD Study (SPIROMICS), which included subjects with COPD, as well as relevant smoking and nonsmoking controls.

Addressing inflammation

“Inhaled steroids are really more effective for allergic inflammation as in asthma and less so for the neutrophilic inflammation that dominates in COPD. The challenge is that neutrophilic inflammation is also a key response to infection, and it’s really hard to find an anti-inflammatory that suppresses neutrophilic inflammation well enough to get clinical benefit but not so much that the  patient becomes vulnerable to infection. Lots of clinical trials of anti-inflammatories in cystic fibrosis or COPD have been stopped because treated subjects had more trouble with infection,” Dr. Esther stated in an interview,

The investigators analyzed cell-free sputum supernatants from 980 subjects, including samples from 77 healthy nonsmokers (NS), 341 ever-smokers with preserved spirometry (SPS), and 562 subjects with COPD (178 GOLD [Global Initiative for Chronic Obstructive Lung Disease]1, 303 GOLD 2, and 81 GOLD 3). Among the subjects with COPD, elevated biomarkers from multiple pathways correlated with sputum neutrophil counts.

The most significant analytes (at FDR [False Discovery Rate] 0.1) were sialic acid (a mucin marker), hypoxanthine, xanthine, methylthioadenosine, adenine, and glutathione, with sialic acid and hypoxanthine strongly associated with measures of disease severity. Elevation of sialic acid and hypoxanthine were associated with shorter time to exacerbation and improved prediction models of future exacerbations.
 

Study results

Sialic acid was elevated in all GOLD groups relative to NS healthy controls, with a 2.8-fold (0.44 log) increase in GOLD 2 and 3.7 fold (0.56 log) increase in GOLD 3 relative to NS. Sialic acid was also elevated in the most severe disease cohorts (GOLD 2 and GOLD 3) relative to smokers with preserved spirometry (SPS) and those with less severe disease (GOLD 1).

Because mucin secretion and inflammation are also related to the pathophysiology of pulmonary exacerbations, Dr. Esther and colleagues had hypothesized that sputum biomarkers would be predictive of future exacerbations. Within the full cohort, both sialic acid and hypoxanthine were significantly elevated in those who had multiple (two or more) pulmonary exacerbations relative to those who had none (P = .001). Similar, though less significant findings were observed for xanthine (P = .01), methylthioadenosine (P = .01), adenine (P = .01), and glutathione (P = .01).
 

Sputum tests needed

While tests still need to be developed, Dr. Esther noted in an interview that they would be based on well-established technologies commonly utilized in clinical laboratories. “Sputum biomarkers of mucus hydration and adenosine metabolism could help clinicians predict which patients with COPD are likely to experience multiple pulmonary exacerbations. Tests would be applied to patients with COPD at higher risk for exacerbations; for example, those who have low lung function or a history of prior exacerbations.”

Dr. Esther noted that these biomarkers could be helpful in developing novel therapies. “Using sialic acid to assess mucus concentrations is much easier than other methods, so it could help in developing mucolytic treatments. Also, adenosine metabolism represents a novel therapeutic target in COPD. Drugs that modify adenosine metabolism that have been approved for other diseases such as gout could be tested in COPD. As with mucus hydration, the biomarkers we identified (particularly hypoxanthine) could be utilized to make sure that novel therapies are having the intended impact on airway adenosine metabolism.”

The research was supported by SPIROMICS (funded by NIH and the COPD Foundation). Dr. Esther reported having no relevant disclosures.

Concomitant rhinosinusitis without nasal polyps (RSsNP) in patients with chronic obstructive pulmonary disease (COPD) is associated with a poorer, disease-specific, health-related quality of life (HRQoL), a Norwegian study is showing.

“Chronic rhinosinusitis has an impact on patients’ HRQoL,” lead author Marte Rystad Øie, Trondheim (Norway) University Hospital, said in an interview.

“We found that RSsNP in COPD was associated with more psychological issues, higher COPD symptom burden, and overall COPD-related HRQoL after adjusting for lung function, so RSsNP does have clinical relevance and [our findings] support previous studies that have suggested that rhinosinusitis should be recognized as a comorbidity in COPD,” she emphasized.

The study was published in the Nov. 1 issue of Respiratory Medicine.
 

Study sample

The study sample consisted of 90 patients with COPD and 93 control subjects, all age 40-80 years. “Generic HRQoL was measured with the Norwegian version of the SF-36v2 Health Survey Standard questionnaire,” the authors wrote, and responses were compared between patients with COPD and controls as well as between subgroups of patients who had COPD both with and without RSsNP.

Disease-specific HRQoL was assessed by the Sinonasal Outcome Test-22 (SNOT-22); the St. Georges Respiratory Questionnaire (SGRQ), and the COPD Assessment Test (CAT), and responses were again compared between patients who had COPD with and without RSsNP. In the COPD group, “severe” and “very severe” airflow obstruction was present in 56.5% of patients with RSsNP compared with 38.6% of patients without RSsNP, as Ms. Øie reported.

Furthermore, total SNOT-22 along with psychological subscale scores were both significantly higher in patients who had COPD with RSsNP than those without RSsNP. Among those with RSsNP, the mean value of the total SNOT-22 score was 36.8 whereas the mean value of the psychological subscale score was 22.6. Comparable mean values among patients who had COPD without RSsNP were 9.5 and 6.5, respectively (P < .05).

Total scores on the SGRQ were again significantly greater in patients who had COPD with RSsNP at a mean of 43.3 compared with a mean of 34 in those without RSsNP, investigators observe. Similarly, scores for the symptom and activity domains again on the SGRQ were significantly greater for patients who had COPD with RSsNP than those without nasal polyps. As for the total CAT score, once again it was significantly higher in patients who had COPD with RSsNP at a mean of 18.8 compared with a mean of 13.5 in those without RSsNP (P < .05).

Indeed, patients with RSsNP were four times more likely to have CAT scores indicating the condition was having a high or very high impact on their HRQoL compared with patients without RSsNP (P < .001). As the authors pointed out, having a high impact on HRQoL translates into patients having to stop their desired activities and having no good days in the week.

“This suggests that having RSsNP substantially adds to the activity limitation experienced by patients with COPD,” they emphasized. The authors also found that RSsNP was significantly associated with poorer physical functioning after adjusting for COPD as reflected by SF-36v2 findings, again suggesting that patients who had COPD with concomitant RSsNP have an additional limitation in activity and a heavier symptom burden.

As Ms. Øie explained, rhinosinusitis has two clinical phenotypes: that with nasal polyps and that without nasal polyps, the latter being twice as prevalent. In fact, rhinosinusitis with nasal polyps is associated with asthma, as she pointed out. Given, however, that rhinosinusitis without polyps is amenable to treatment with daily use of nasal steroids, it is possible to reduce the burden of symptoms and psychological stress associated with RSsNP in COPD.

Limitations of the study include the fact that investigators did not assess patients for the presence of any comorbidities that could contribute to poorer HRQoL in this patient population.

The study was funded by Liaison Committee between the Central Norway Regional Health Authority and the Norwegian University of Science and Technology. The authors have disclosed no relevant financial relationships.

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

Concomitant rhinosinusitis without nasal polyps (RSsNP) in patients with chronic obstructive pulmonary disease (COPD) is associated with a poorer, disease-specific, health-related quality of life (HRQoL), a Norwegian study is showing.

“Chronic rhinosinusitis has an impact on patients’ HRQoL,” lead author Marte Rystad Øie, Trondheim (Norway) University Hospital, said in an interview.

“We found that RSsNP in COPD was associated with more psychological issues, higher COPD symptom burden, and overall COPD-related HRQoL after adjusting for lung function, so RSsNP does have clinical relevance and [our findings] support previous studies that have suggested that rhinosinusitis should be recognized as a comorbidity in COPD,” she emphasized.

The study was published in the Nov. 1 issue of Respiratory Medicine.
 

Study sample

The study sample consisted of 90 patients with COPD and 93 control subjects, all age 40-80 years. “Generic HRQoL was measured with the Norwegian version of the SF-36v2 Health Survey Standard questionnaire,” the authors wrote, and responses were compared between patients with COPD and controls as well as between subgroups of patients who had COPD both with and without RSsNP.

Disease-specific HRQoL was assessed by the Sinonasal Outcome Test-22 (SNOT-22); the St. Georges Respiratory Questionnaire (SGRQ), and the COPD Assessment Test (CAT), and responses were again compared between patients who had COPD with and without RSsNP. In the COPD group, “severe” and “very severe” airflow obstruction was present in 56.5% of patients with RSsNP compared with 38.6% of patients without RSsNP, as Ms. Øie reported.

Furthermore, total SNOT-22 along with psychological subscale scores were both significantly higher in patients who had COPD with RSsNP than those without RSsNP. Among those with RSsNP, the mean value of the total SNOT-22 score was 36.8 whereas the mean value of the psychological subscale score was 22.6. Comparable mean values among patients who had COPD without RSsNP were 9.5 and 6.5, respectively (P < .05).

Total scores on the SGRQ were again significantly greater in patients who had COPD with RSsNP at a mean of 43.3 compared with a mean of 34 in those without RSsNP, investigators observe. Similarly, scores for the symptom and activity domains again on the SGRQ were significantly greater for patients who had COPD with RSsNP than those without nasal polyps. As for the total CAT score, once again it was significantly higher in patients who had COPD with RSsNP at a mean of 18.8 compared with a mean of 13.5 in those without RSsNP (P < .05).

Indeed, patients with RSsNP were four times more likely to have CAT scores indicating the condition was having a high or very high impact on their HRQoL compared with patients without RSsNP (P < .001). As the authors pointed out, having a high impact on HRQoL translates into patients having to stop their desired activities and having no good days in the week.

“This suggests that having RSsNP substantially adds to the activity limitation experienced by patients with COPD,” they emphasized. The authors also found that RSsNP was significantly associated with poorer physical functioning after adjusting for COPD as reflected by SF-36v2 findings, again suggesting that patients who had COPD with concomitant RSsNP have an additional limitation in activity and a heavier symptom burden.

As Ms. Øie explained, rhinosinusitis has two clinical phenotypes: that with nasal polyps and that without nasal polyps, the latter being twice as prevalent. In fact, rhinosinusitis with nasal polyps is associated with asthma, as she pointed out. Given, however, that rhinosinusitis without polyps is amenable to treatment with daily use of nasal steroids, it is possible to reduce the burden of symptoms and psychological stress associated with RSsNP in COPD.

Limitations of the study include the fact that investigators did not assess patients for the presence of any comorbidities that could contribute to poorer HRQoL in this patient population.

The study was funded by Liaison Committee between the Central Norway Regional Health Authority and the Norwegian University of Science and Technology. The authors have disclosed no relevant financial relationships.

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

Concomitant rhinosinusitis without nasal polyps (RSsNP) in patients with chronic obstructive pulmonary disease (COPD) is associated with a poorer, disease-specific, health-related quality of life (HRQoL), a Norwegian study is showing.

“Chronic rhinosinusitis has an impact on patients’ HRQoL,” lead author Marte Rystad Øie, Trondheim (Norway) University Hospital, said in an interview.

“We found that RSsNP in COPD was associated with more psychological issues, higher COPD symptom burden, and overall COPD-related HRQoL after adjusting for lung function, so RSsNP does have clinical relevance and [our findings] support previous studies that have suggested that rhinosinusitis should be recognized as a comorbidity in COPD,” she emphasized.

The study was published in the Nov. 1 issue of Respiratory Medicine.
 

Study sample

The study sample consisted of 90 patients with COPD and 93 control subjects, all age 40-80 years. “Generic HRQoL was measured with the Norwegian version of the SF-36v2 Health Survey Standard questionnaire,” the authors wrote, and responses were compared between patients with COPD and controls as well as between subgroups of patients who had COPD both with and without RSsNP.

Disease-specific HRQoL was assessed by the Sinonasal Outcome Test-22 (SNOT-22); the St. Georges Respiratory Questionnaire (SGRQ), and the COPD Assessment Test (CAT), and responses were again compared between patients who had COPD with and without RSsNP. In the COPD group, “severe” and “very severe” airflow obstruction was present in 56.5% of patients with RSsNP compared with 38.6% of patients without RSsNP, as Ms. Øie reported.

Furthermore, total SNOT-22 along with psychological subscale scores were both significantly higher in patients who had COPD with RSsNP than those without RSsNP. Among those with RSsNP, the mean value of the total SNOT-22 score was 36.8 whereas the mean value of the psychological subscale score was 22.6. Comparable mean values among patients who had COPD without RSsNP were 9.5 and 6.5, respectively (P < .05).

Total scores on the SGRQ were again significantly greater in patients who had COPD with RSsNP at a mean of 43.3 compared with a mean of 34 in those without RSsNP, investigators observe. Similarly, scores for the symptom and activity domains again on the SGRQ were significantly greater for patients who had COPD with RSsNP than those without nasal polyps. As for the total CAT score, once again it was significantly higher in patients who had COPD with RSsNP at a mean of 18.8 compared with a mean of 13.5 in those without RSsNP (P < .05).

Indeed, patients with RSsNP were four times more likely to have CAT scores indicating the condition was having a high or very high impact on their HRQoL compared with patients without RSsNP (P < .001). As the authors pointed out, having a high impact on HRQoL translates into patients having to stop their desired activities and having no good days in the week.

“This suggests that having RSsNP substantially adds to the activity limitation experienced by patients with COPD,” they emphasized. The authors also found that RSsNP was significantly associated with poorer physical functioning after adjusting for COPD as reflected by SF-36v2 findings, again suggesting that patients who had COPD with concomitant RSsNP have an additional limitation in activity and a heavier symptom burden.

As Ms. Øie explained, rhinosinusitis has two clinical phenotypes: that with nasal polyps and that without nasal polyps, the latter being twice as prevalent. In fact, rhinosinusitis with nasal polyps is associated with asthma, as she pointed out. Given, however, that rhinosinusitis without polyps is amenable to treatment with daily use of nasal steroids, it is possible to reduce the burden of symptoms and psychological stress associated with RSsNP in COPD.

Limitations of the study include the fact that investigators did not assess patients for the presence of any comorbidities that could contribute to poorer HRQoL in this patient population.

The study was funded by Liaison Committee between the Central Norway Regional Health Authority and the Norwegian University of Science and Technology. The authors have disclosed no relevant financial relationships.

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

Dr Darcy Marciniuk, of the University of Saskatchewan in Saskatchewan, Canada, discusses essential abstracts in the management of patients with COPD presented at the American College of Chest Physicians' annual meeting, CHEST 2020, which was held virtually this year because of the coronavirus.

Dr Marciniuk reviews new data from a phase 3 ETHOS substudy evaluating lung function decline in patients receiving inhaled corticosteroid (ICS)-containing therapies vs non–ICS-containing therapies. He also discusses a retrospective cohort study using Medicare data from 2012-2017 evaluating the association of noninvasive ventilation at home with risk for death, hospitalizations, and emergency room visits.

Additionally, he highlights a multi-institutional, post hoc analysis of the phase 3 IMPACT trial to estimate cardiovascular event risk following acute exacerbation in patients with COPD.

From another post hoc analysis, this one from the SUMMIT trial comparing fluticasone, vilanterol, and ICS/LABA with placebo, Dr Marciniuk reports on an investigation of all-cause mortality and severe exacerbation risk in a subgroup of patients with a history of exacerbation.

Finally, he highlights a retrospective cohort study using data from the US 2015 Inpatient Sample, which compared outcomes of patients admitted to hospitals with COPD exacerbations with and without mobility impairment.

--

Darcy D. Marciniuk, MD, Master FCCP, Professor, Department of Medicine, Division of Respirology, Critical Care, and Sleep Medicine, University of Saskatoon, Saskatoon, Saskatchewan, Canada.

Darcy D. Marciniuk, MD, Master FCCP, has disclosed the following relevant financial relationships:
Serve(d) as a consultant for: Alberta Lung Association; AstraZeneca; Boehringer Ingelheim; Canadian Foundation for Healthcare Improvement; GlaxoSmithKline; Heath Canada; Lung Association of Saskatchewan; Mylan; Novartis; Saskatchewan Ministry of Health; Saskatchewan Health Authority; Yukon Health and Social Services
Received research funding (managed by University of Saskatchewan) from: AstraZeneca; Boehringer Ingelheim; Canada Health Infoway; Canadian Institute of Health Research; GlaxoSmithKline; Grifols; Lung Association of Saskatchewan; Lung Health Institute of Canada; Novartis; Sanofi; Saskatchewan Health Research Foundation; Schering-Plough
Serve(s) as deputy editor of: CHEST Journal.

Dr Darcy Marciniuk, of the University of Saskatchewan in Saskatchewan, Canada, discusses essential abstracts in the management of patients with COPD presented at the American College of Chest Physicians' annual meeting, CHEST 2020, which was held virtually this year because of the coronavirus.

Dr Marciniuk reviews new data from a phase 3 ETHOS substudy evaluating lung function decline in patients receiving inhaled corticosteroid (ICS)-containing therapies vs non–ICS-containing therapies. He also discusses a retrospective cohort study using Medicare data from 2012-2017 evaluating the association of noninvasive ventilation at home with risk for death, hospitalizations, and emergency room visits.

Additionally, he highlights a multi-institutional, post hoc analysis of the phase 3 IMPACT trial to estimate cardiovascular event risk following acute exacerbation in patients with COPD.

From another post hoc analysis, this one from the SUMMIT trial comparing fluticasone, vilanterol, and ICS/LABA with placebo, Dr Marciniuk reports on an investigation of all-cause mortality and severe exacerbation risk in a subgroup of patients with a history of exacerbation.

Finally, he highlights a retrospective cohort study using data from the US 2015 Inpatient Sample, which compared outcomes of patients admitted to hospitals with COPD exacerbations with and without mobility impairment.

--

Darcy D. Marciniuk, MD, Master FCCP, Professor, Department of Medicine, Division of Respirology, Critical Care, and Sleep Medicine, University of Saskatoon, Saskatoon, Saskatchewan, Canada.

Darcy D. Marciniuk, MD, Master FCCP, has disclosed the following relevant financial relationships:
Serve(d) as a consultant for: Alberta Lung Association; AstraZeneca; Boehringer Ingelheim; Canadian Foundation for Healthcare Improvement; GlaxoSmithKline; Heath Canada; Lung Association of Saskatchewan; Mylan; Novartis; Saskatchewan Ministry of Health; Saskatchewan Health Authority; Yukon Health and Social Services
Received research funding (managed by University of Saskatchewan) from: AstraZeneca; Boehringer Ingelheim; Canada Health Infoway; Canadian Institute of Health Research; GlaxoSmithKline; Grifols; Lung Association of Saskatchewan; Lung Health Institute of Canada; Novartis; Sanofi; Saskatchewan Health Research Foundation; Schering-Plough
Serve(s) as deputy editor of: CHEST Journal.

Dr Darcy Marciniuk, of the University of Saskatchewan in Saskatchewan, Canada, discusses essential abstracts in the management of patients with COPD presented at the American College of Chest Physicians' annual meeting, CHEST 2020, which was held virtually this year because of the coronavirus.

Dr Marciniuk reviews new data from a phase 3 ETHOS substudy evaluating lung function decline in patients receiving inhaled corticosteroid (ICS)-containing therapies vs non–ICS-containing therapies. He also discusses a retrospective cohort study using Medicare data from 2012-2017 evaluating the association of noninvasive ventilation at home with risk for death, hospitalizations, and emergency room visits.

Additionally, he highlights a multi-institutional, post hoc analysis of the phase 3 IMPACT trial to estimate cardiovascular event risk following acute exacerbation in patients with COPD.

From another post hoc analysis, this one from the SUMMIT trial comparing fluticasone, vilanterol, and ICS/LABA with placebo, Dr Marciniuk reports on an investigation of all-cause mortality and severe exacerbation risk in a subgroup of patients with a history of exacerbation.

Finally, he highlights a retrospective cohort study using data from the US 2015 Inpatient Sample, which compared outcomes of patients admitted to hospitals with COPD exacerbations with and without mobility impairment.

--

Darcy D. Marciniuk, MD, Master FCCP, Professor, Department of Medicine, Division of Respirology, Critical Care, and Sleep Medicine, University of Saskatoon, Saskatoon, Saskatchewan, Canada.

Darcy D. Marciniuk, MD, Master FCCP, has disclosed the following relevant financial relationships:
Serve(d) as a consultant for: Alberta Lung Association; AstraZeneca; Boehringer Ingelheim; Canadian Foundation for Healthcare Improvement; GlaxoSmithKline; Heath Canada; Lung Association of Saskatchewan; Mylan; Novartis; Saskatchewan Ministry of Health; Saskatchewan Health Authority; Yukon Health and Social Services
Received research funding (managed by University of Saskatchewan) from: AstraZeneca; Boehringer Ingelheim; Canada Health Infoway; Canadian Institute of Health Research; GlaxoSmithKline; Grifols; Lung Association of Saskatchewan; Lung Health Institute of Canada; Novartis; Sanofi; Saskatchewan Health Research Foundation; Schering-Plough
Serve(s) as deputy editor of: CHEST Journal.

Patients with idiopathic pulmonary fibrosis (IPF) complete and respond to pulmonary rehabilitation at rates similar to patients with chronic obstructive pulmonary disease (COPD), according to results of a real-world study. The findings reported in an article published in the journal CHEST^® reinforce pulmonary rehabilitation’s benefits for this population.

A progressive decline in respiratory and physical function characterizes IPF, with median survival from diagnosis of 3-5 years, according to Claire Nolan, PhD, of Harefield Hospital, Middlesex, England, and colleagues. The effects of pharmacologic therapies on IPF on symptom burden and quality of life are modest, although lung function decline may be slowed. Supporting evidence for pulmonary rehabilitation benefit in IPF is more modest than it is for COPD, for which exercise capacity, dyspnea, and health-related quality of life improvement have been demonstrated.

“We did not design a randomized, controlled trial,” Dr. Nolan said in an interview, “as it was considered unethical by the local ethics committee to withhold pulmonary rehabilitation based on clinical guidance in the United Kingdom.” She pointed out that initial pulmonary rehabilitation trials in COPD included an intervention (pulmonary rehabilitation) and a control (standard medical care) arm.

The study aims were to compare the effects of pulmonary rehabilitation with real-world data between IPF and COPD with respect to magnitude of effect and survival. The authors’ hypothesis was that IPF patients would have a blunted response to pulmonary rehabilitation with reduced completion rates, compared with a matched COPD group, and with increased mortality.
 

Study details

Investigators use propensity score matching of 163 IPF patients with a control group of 163 patients with COPD referred to pulmonary rehabilitation. Completion rates, responses, and survival status were recorded for 1-year following pulmonary rehabilitation discharge. The 8-week outpatient program was composed of two supervised exercise and education sessions with additional unsupervised home-based exercise each week.

While spirometry data, as expected, showed a higher proportion of IPF patients using supplemental oxygen, pulmonary rehabilitation completion rates were similar for both groups (IPF, 69%; COPD, 63%; P = .24) and there was no between group difference in the number of sessions attended (P = .39). Medical Research Council (muscle strength) (MRC), incremental shuttle walk test (ISW), and Chronic Respiratory Questionnaire total score (CRQ-T) improved significantly in both groups, again with no significant difference between groups.

Over the study course, there was progressive, significant worsening of forced vital capacity percentage, predicted, prescription supplemental oxygen, resting peripheral oxygen saturation, exercise capacity, health-related quality of life and pulmonary rehabilitation adherence across groups of responders (n = 63; 38%), nonresponders (n = 50; 31%) and noncompleters (n = 50; 31%). Among the IPF patients, 6 died before completing pulmonary rehabilitation, with 42 (27%) dying during follow-up.
 

Benefits of rehabilitation

Multivariable analyses showed that noncompletion and nonresponse were associated with significantly higher risk of all-cause mortality at 1-year. Also, time to all-cause mortality was shorter (P = .001) for noncompleters and nonresponders, compared with completers. A trend toward higher completion rates in the IPF group, compared with the COPD group, may be explained, the researchers explained, by fewer hospitalizations over the prior 12 months in the IPF group.

“Although many programs are designed for people with COPD,” Dr. Nolan and colleagues concluded, “our study demonstrates that people with IPF have similar clinical benefits and completion rates to those with COPD. These data reinforce the importance of referral to and engagement in pulmonary rehabilitation amongst the IPF population.”

These findings, Dr. Nolan emphasized, emerged from a single center, and validation in other settings is needed.

This study was funded by a National Institute for Health Research Doctoral Research Fellowship (2014-07-089) and a Medical Research Council New Investigator Research Grant (98576).

Patients with idiopathic pulmonary fibrosis (IPF) complete and respond to pulmonary rehabilitation at rates similar to patients with chronic obstructive pulmonary disease (COPD), according to results of a real-world study. The findings reported in an article published in the journal CHEST^® reinforce pulmonary rehabilitation’s benefits for this population.

A progressive decline in respiratory and physical function characterizes IPF, with median survival from diagnosis of 3-5 years, according to Claire Nolan, PhD, of Harefield Hospital, Middlesex, England, and colleagues. The effects of pharmacologic therapies on IPF on symptom burden and quality of life are modest, although lung function decline may be slowed. Supporting evidence for pulmonary rehabilitation benefit in IPF is more modest than it is for COPD, for which exercise capacity, dyspnea, and health-related quality of life improvement have been demonstrated.

“We did not design a randomized, controlled trial,” Dr. Nolan said in an interview, “as it was considered unethical by the local ethics committee to withhold pulmonary rehabilitation based on clinical guidance in the United Kingdom.” She pointed out that initial pulmonary rehabilitation trials in COPD included an intervention (pulmonary rehabilitation) and a control (standard medical care) arm.

The study aims were to compare the effects of pulmonary rehabilitation with real-world data between IPF and COPD with respect to magnitude of effect and survival. The authors’ hypothesis was that IPF patients would have a blunted response to pulmonary rehabilitation with reduced completion rates, compared with a matched COPD group, and with increased mortality.
 

Study details

Investigators use propensity score matching of 163 IPF patients with a control group of 163 patients with COPD referred to pulmonary rehabilitation. Completion rates, responses, and survival status were recorded for 1-year following pulmonary rehabilitation discharge. The 8-week outpatient program was composed of two supervised exercise and education sessions with additional unsupervised home-based exercise each week.

While spirometry data, as expected, showed a higher proportion of IPF patients using supplemental oxygen, pulmonary rehabilitation completion rates were similar for both groups (IPF, 69%; COPD, 63%; P = .24) and there was no between group difference in the number of sessions attended (P = .39). Medical Research Council (muscle strength) (MRC), incremental shuttle walk test (ISW), and Chronic Respiratory Questionnaire total score (CRQ-T) improved significantly in both groups, again with no significant difference between groups.

Over the study course, there was progressive, significant worsening of forced vital capacity percentage, predicted, prescription supplemental oxygen, resting peripheral oxygen saturation, exercise capacity, health-related quality of life and pulmonary rehabilitation adherence across groups of responders (n = 63; 38%), nonresponders (n = 50; 31%) and noncompleters (n = 50; 31%). Among the IPF patients, 6 died before completing pulmonary rehabilitation, with 42 (27%) dying during follow-up.
 

Benefits of rehabilitation

Multivariable analyses showed that noncompletion and nonresponse were associated with significantly higher risk of all-cause mortality at 1-year. Also, time to all-cause mortality was shorter (P = .001) for noncompleters and nonresponders, compared with completers. A trend toward higher completion rates in the IPF group, compared with the COPD group, may be explained, the researchers explained, by fewer hospitalizations over the prior 12 months in the IPF group.

“Although many programs are designed for people with COPD,” Dr. Nolan and colleagues concluded, “our study demonstrates that people with IPF have similar clinical benefits and completion rates to those with COPD. These data reinforce the importance of referral to and engagement in pulmonary rehabilitation amongst the IPF population.”

These findings, Dr. Nolan emphasized, emerged from a single center, and validation in other settings is needed.

This study was funded by a National Institute for Health Research Doctoral Research Fellowship (2014-07-089) and a Medical Research Council New Investigator Research Grant (98576).

Patients with idiopathic pulmonary fibrosis (IPF) complete and respond to pulmonary rehabilitation at rates similar to patients with chronic obstructive pulmonary disease (COPD), according to results of a real-world study. The findings reported in an article published in the journal CHEST^® reinforce pulmonary rehabilitation’s benefits for this population.

A progressive decline in respiratory and physical function characterizes IPF, with median survival from diagnosis of 3-5 years, according to Claire Nolan, PhD, of Harefield Hospital, Middlesex, England, and colleagues. The effects of pharmacologic therapies on IPF on symptom burden and quality of life are modest, although lung function decline may be slowed. Supporting evidence for pulmonary rehabilitation benefit in IPF is more modest than it is for COPD, for which exercise capacity, dyspnea, and health-related quality of life improvement have been demonstrated.

“We did not design a randomized, controlled trial,” Dr. Nolan said in an interview, “as it was considered unethical by the local ethics committee to withhold pulmonary rehabilitation based on clinical guidance in the United Kingdom.” She pointed out that initial pulmonary rehabilitation trials in COPD included an intervention (pulmonary rehabilitation) and a control (standard medical care) arm.

The study aims were to compare the effects of pulmonary rehabilitation with real-world data between IPF and COPD with respect to magnitude of effect and survival. The authors’ hypothesis was that IPF patients would have a blunted response to pulmonary rehabilitation with reduced completion rates, compared with a matched COPD group, and with increased mortality.
 

Study details

Investigators use propensity score matching of 163 IPF patients with a control group of 163 patients with COPD referred to pulmonary rehabilitation. Completion rates, responses, and survival status were recorded for 1-year following pulmonary rehabilitation discharge. The 8-week outpatient program was composed of two supervised exercise and education sessions with additional unsupervised home-based exercise each week.

While spirometry data, as expected, showed a higher proportion of IPF patients using supplemental oxygen, pulmonary rehabilitation completion rates were similar for both groups (IPF, 69%; COPD, 63%; P = .24) and there was no between group difference in the number of sessions attended (P = .39). Medical Research Council (muscle strength) (MRC), incremental shuttle walk test (ISW), and Chronic Respiratory Questionnaire total score (CRQ-T) improved significantly in both groups, again with no significant difference between groups.

Over the study course, there was progressive, significant worsening of forced vital capacity percentage, predicted, prescription supplemental oxygen, resting peripheral oxygen saturation, exercise capacity, health-related quality of life and pulmonary rehabilitation adherence across groups of responders (n = 63; 38%), nonresponders (n = 50; 31%) and noncompleters (n = 50; 31%). Among the IPF patients, 6 died before completing pulmonary rehabilitation, with 42 (27%) dying during follow-up.
 

Benefits of rehabilitation

Multivariable analyses showed that noncompletion and nonresponse were associated with significantly higher risk of all-cause mortality at 1-year. Also, time to all-cause mortality was shorter (P = .001) for noncompleters and nonresponders, compared with completers. A trend toward higher completion rates in the IPF group, compared with the COPD group, may be explained, the researchers explained, by fewer hospitalizations over the prior 12 months in the IPF group.

“Although many programs are designed for people with COPD,” Dr. Nolan and colleagues concluded, “our study demonstrates that people with IPF have similar clinical benefits and completion rates to those with COPD. These data reinforce the importance of referral to and engagement in pulmonary rehabilitation amongst the IPF population.”

These findings, Dr. Nolan emphasized, emerged from a single center, and validation in other settings is needed.

This study was funded by a National Institute for Health Research Doctoral Research Fellowship (2014-07-089) and a Medical Research Council New Investigator Research Grant (98576).

Several emerging bronchoscopic treatments have the potential to improve the quality of life for patients with chronic obstructive pulmonary disease, an investigator reported at the annual meeting of the American College of Chest Physicians.

Courtesy of Dr. Ghattas

Targeted lung denervation is one promising novel therapeutic option that is safe and may improve clinical outcomes according to investigator Christian Ghattas, MD.

Data from an ongoing phase 3 randomized controlled trial may provide new information on the efficacy of targeted lung denervation in patients with chronic obstructive pulmonary disease (COPD), said Dr. Ghattas, assistant professor of medicine and associate program director for the interventional pulmonary fellowship at The Ohio State University Medical Center in Columbus.

“Outcome data of longer follow-up on previously treated patients will provide us with more information on the durability and the effect of this treatment,” Dr. Ghattas said in an online presentation at the CHEST meeting, which was held virtually this year.

Meanwhile, a few compelling bronchoscopic treatment modalities for patients with chronic bronchitis are in earlier stages of clinical development. “Larger randomized, controlled trials are ongoing to confirm the available data and to evaluate treatment durability,” said Dr. Ghattas.
 

Targeted lung denervation

The targeted lung denervation system under study (dNerva^®, Nuvaira Inc.) involves the use of a radiofrequency catheter to ablate the peribronchial branches of the vagus nerve, Dr. Ghattas said.

The goal of disrupting pulmonary nerve input is to achieve sustained bronchodilation and reduce mucous secretion, thereby simulating the effect of anticholinergic drugs, he added.

In pilot studies, the targeted lung denervation system demonstrated its feasibility and safety, while modifications to the system reduced the rate of serious adverse events, according to Dr. Ghattas.

In the AIRFLOW-1 study, which evaluated the safety of the latest generation version of the system, 30 patients with COPD were randomized to targeted lung denervation at one of two doses, 29 or 32 watts.

Of those 30 patients, 29 (96.7%) had procedural success, meaning the catheter was inserted, guided to its intended location, and removed intact with no reported in-hospital serious adverse events, according to results published in Respiration.

There was no difference between arms in the primary endpoint, which was the rate of adverse airway effects requiring intervention that were associated with targeted lung denervation, investigators reported. Four such events occurred, in 3 of 15 patients treated with 32 watts and 1 of 15 patients treated with 29 watts.

Procedural success, defined as device success without an in-hospital serious adverse event, was 96.7% (29/30). The rate of TLD-associated adverse airway effects requiring intervention was 3/15 in the 32 W versus 1/15 in the 29 W group (P = .6). However, serious gastric events were noted in five patients, prompting safety improvements and procedural enhancements that reduced both gastrointestinal and airway events, according to the study report.

Further data are available from AIRFLOW-2, a randomized, sham-controlled trial enrolling patients with symptomatic COPD.

In that study, targeted lung denervation plus optimal drug treatment led to fewer respiratory adverse events of interest, including hospitalizations for COPD exacerbation, according to a report on the study that appears in The American Journal of Respiratory and Critical Care Medicine.

Respiratory adverse events occurred in 32% of treated patients versus 71% of sham-treated patients in a predefined 3- to 6.5-month postprocedure window, the report says.

Currently underway is AIRFLOW-3, a randomized study of targeted lung denervation versus sham procedure in patients with COPD. The study has a primary outcome measure of moderate or severe COPD exacerbations over 12 months and is slated to enroll 480 patients.

To be eligible for AIRFLOW-3, patients must have had at least two moderate or one severe COPD exacerbation in the previous year, Dr. Ghattas said.
 

Metered cryospray

One novel intervention with the potential to benefit patients with chronic bronchitis is metered cryospray (RejuvenAir), which works by delivering liquid nitrogen to the tracheobronchial airways, according to Dr. Ghattas.

This targeted delivery ablates abnormal epithelium, facilitating the regeneration of healthy mucosa, according to investigators in a recently published single-arm prospective trial.

Metered cryospray was safe, feasible, and linked to clinically meaningful improvements in patient-reported outcomes among patients with COPD, according to authors of the study, which appears in the European Respiratory Journal.

In the study, 34 of 35 participants received three treatments 4-6 weeks apart.

Investigators reported that at 3 months there were significant reductions in the COPD Assessment Test that were durable to 6 months, and changes in the St. George’s Respiratory Questionnaire and the Leicester Cough Questionnaire that were durable to 9 months.

There were 14 serious adverse events, none of which were device- or procedure related, according to investigators.

An ongoing randomized study called SPRAY-CB is comparing metered cryospray to sham procedure in an anticipated 210 patients with COPD with chronic bronchitis.
 

Bronchial rheoplasty

Bronchial rheoplasty (RheOx, Gala Therapeutics), is another promising intervention under investigation for the treatment of chronic bronchitis, according to Dr. Ghattas.

This system delivers nonthermal pulsed electrical energy, Dr. Ghattas said, with the intention of ablating goblet cells in the airways.

“The preclinical studies have demonstrated epithelial ablation, followed by regeneration of normalized epithelium,” he said in his presentation.

In 12-month results of multicenter clinical trial, bronchial rheoplasty was technically feasible and safe, with reductions in goblet cell hyperplasia and changes in patient-reported quality of life seen following the procedure, investigators reported in The American Journal of Respiratory and Critical Care Medicine.

The mean goblet cell hyperplasia score was reduced by 39% from baseline to treatment, according to study results. Four procedure-related serious adverse events were observed through 6 months, and there were no procedure- or device-related serious adverse events over the next 6 months. Mild hemoptysis occurred in 47% of patients, investigators reported.

A larger randomized, double-blind prospective trial with a sham control arm is underway and will include 270 patients, according to Dr. Ghattas. “We’re going to have to wait for the results,” he said.

Dr. Ghattas reported serving as a site principal investigator for clinical trials involving the bronchoscopic interventions he discussed, including AIRFLOW-3 (evaluating the targeted lung denervation system), SPRAY-CB (metered cryospray), and RheSolve (bronchial rheoplasty).

Several emerging bronchoscopic treatments have the potential to improve the quality of life for patients with chronic obstructive pulmonary disease, an investigator reported at the annual meeting of the American College of Chest Physicians.

Courtesy of Dr. Ghattas

Targeted lung denervation is one promising novel therapeutic option that is safe and may improve clinical outcomes according to investigator Christian Ghattas, MD.

Data from an ongoing phase 3 randomized controlled trial may provide new information on the efficacy of targeted lung denervation in patients with chronic obstructive pulmonary disease (COPD), said Dr. Ghattas, assistant professor of medicine and associate program director for the interventional pulmonary fellowship at The Ohio State University Medical Center in Columbus.

“Outcome data of longer follow-up on previously treated patients will provide us with more information on the durability and the effect of this treatment,” Dr. Ghattas said in an online presentation at the CHEST meeting, which was held virtually this year.

Meanwhile, a few compelling bronchoscopic treatment modalities for patients with chronic bronchitis are in earlier stages of clinical development. “Larger randomized, controlled trials are ongoing to confirm the available data and to evaluate treatment durability,” said Dr. Ghattas.
 

Targeted lung denervation

The targeted lung denervation system under study (dNerva^®, Nuvaira Inc.) involves the use of a radiofrequency catheter to ablate the peribronchial branches of the vagus nerve, Dr. Ghattas said.

The goal of disrupting pulmonary nerve input is to achieve sustained bronchodilation and reduce mucous secretion, thereby simulating the effect of anticholinergic drugs, he added.

In pilot studies, the targeted lung denervation system demonstrated its feasibility and safety, while modifications to the system reduced the rate of serious adverse events, according to Dr. Ghattas.

In the AIRFLOW-1 study, which evaluated the safety of the latest generation version of the system, 30 patients with COPD were randomized to targeted lung denervation at one of two doses, 29 or 32 watts.

Of those 30 patients, 29 (96.7%) had procedural success, meaning the catheter was inserted, guided to its intended location, and removed intact with no reported in-hospital serious adverse events, according to results published in Respiration.

There was no difference between arms in the primary endpoint, which was the rate of adverse airway effects requiring intervention that were associated with targeted lung denervation, investigators reported. Four such events occurred, in 3 of 15 patients treated with 32 watts and 1 of 15 patients treated with 29 watts.

Procedural success, defined as device success without an in-hospital serious adverse event, was 96.7% (29/30). The rate of TLD-associated adverse airway effects requiring intervention was 3/15 in the 32 W versus 1/15 in the 29 W group (P = .6). However, serious gastric events were noted in five patients, prompting safety improvements and procedural enhancements that reduced both gastrointestinal and airway events, according to the study report.

Further data are available from AIRFLOW-2, a randomized, sham-controlled trial enrolling patients with symptomatic COPD.

In that study, targeted lung denervation plus optimal drug treatment led to fewer respiratory adverse events of interest, including hospitalizations for COPD exacerbation, according to a report on the study that appears in The American Journal of Respiratory and Critical Care Medicine.

Respiratory adverse events occurred in 32% of treated patients versus 71% of sham-treated patients in a predefined 3- to 6.5-month postprocedure window, the report says.

Currently underway is AIRFLOW-3, a randomized study of targeted lung denervation versus sham procedure in patients with COPD. The study has a primary outcome measure of moderate or severe COPD exacerbations over 12 months and is slated to enroll 480 patients.

To be eligible for AIRFLOW-3, patients must have had at least two moderate or one severe COPD exacerbation in the previous year, Dr. Ghattas said.
 

Metered cryospray

One novel intervention with the potential to benefit patients with chronic bronchitis is metered cryospray (RejuvenAir), which works by delivering liquid nitrogen to the tracheobronchial airways, according to Dr. Ghattas.

This targeted delivery ablates abnormal epithelium, facilitating the regeneration of healthy mucosa, according to investigators in a recently published single-arm prospective trial.

Metered cryospray was safe, feasible, and linked to clinically meaningful improvements in patient-reported outcomes among patients with COPD, according to authors of the study, which appears in the European Respiratory Journal.

In the study, 34 of 35 participants received three treatments 4-6 weeks apart.

Investigators reported that at 3 months there were significant reductions in the COPD Assessment Test that were durable to 6 months, and changes in the St. George’s Respiratory Questionnaire and the Leicester Cough Questionnaire that were durable to 9 months.

There were 14 serious adverse events, none of which were device- or procedure related, according to investigators.

An ongoing randomized study called SPRAY-CB is comparing metered cryospray to sham procedure in an anticipated 210 patients with COPD with chronic bronchitis.
 

Bronchial rheoplasty

Bronchial rheoplasty (RheOx, Gala Therapeutics), is another promising intervention under investigation for the treatment of chronic bronchitis, according to Dr. Ghattas.

This system delivers nonthermal pulsed electrical energy, Dr. Ghattas said, with the intention of ablating goblet cells in the airways.

“The preclinical studies have demonstrated epithelial ablation, followed by regeneration of normalized epithelium,” he said in his presentation.

In 12-month results of multicenter clinical trial, bronchial rheoplasty was technically feasible and safe, with reductions in goblet cell hyperplasia and changes in patient-reported quality of life seen following the procedure, investigators reported in The American Journal of Respiratory and Critical Care Medicine.

The mean goblet cell hyperplasia score was reduced by 39% from baseline to treatment, according to study results. Four procedure-related serious adverse events were observed through 6 months, and there were no procedure- or device-related serious adverse events over the next 6 months. Mild hemoptysis occurred in 47% of patients, investigators reported.

A larger randomized, double-blind prospective trial with a sham control arm is underway and will include 270 patients, according to Dr. Ghattas. “We’re going to have to wait for the results,” he said.

Dr. Ghattas reported serving as a site principal investigator for clinical trials involving the bronchoscopic interventions he discussed, including AIRFLOW-3 (evaluating the targeted lung denervation system), SPRAY-CB (metered cryospray), and RheSolve (bronchial rheoplasty).

Several emerging bronchoscopic treatments have the potential to improve the quality of life for patients with chronic obstructive pulmonary disease, an investigator reported at the annual meeting of the American College of Chest Physicians.

Courtesy of Dr. Ghattas

Targeted lung denervation is one promising novel therapeutic option that is safe and may improve clinical outcomes according to investigator Christian Ghattas, MD.

Data from an ongoing phase 3 randomized controlled trial may provide new information on the efficacy of targeted lung denervation in patients with chronic obstructive pulmonary disease (COPD), said Dr. Ghattas, assistant professor of medicine and associate program director for the interventional pulmonary fellowship at The Ohio State University Medical Center in Columbus.

“Outcome data of longer follow-up on previously treated patients will provide us with more information on the durability and the effect of this treatment,” Dr. Ghattas said in an online presentation at the CHEST meeting, which was held virtually this year.

Meanwhile, a few compelling bronchoscopic treatment modalities for patients with chronic bronchitis are in earlier stages of clinical development. “Larger randomized, controlled trials are ongoing to confirm the available data and to evaluate treatment durability,” said Dr. Ghattas.
 

Targeted lung denervation

The targeted lung denervation system under study (dNerva^®, Nuvaira Inc.) involves the use of a radiofrequency catheter to ablate the peribronchial branches of the vagus nerve, Dr. Ghattas said.

The goal of disrupting pulmonary nerve input is to achieve sustained bronchodilation and reduce mucous secretion, thereby simulating the effect of anticholinergic drugs, he added.

In pilot studies, the targeted lung denervation system demonstrated its feasibility and safety, while modifications to the system reduced the rate of serious adverse events, according to Dr. Ghattas.

In the AIRFLOW-1 study, which evaluated the safety of the latest generation version of the system, 30 patients with COPD were randomized to targeted lung denervation at one of two doses, 29 or 32 watts.

Of those 30 patients, 29 (96.7%) had procedural success, meaning the catheter was inserted, guided to its intended location, and removed intact with no reported in-hospital serious adverse events, according to results published in Respiration.

There was no difference between arms in the primary endpoint, which was the rate of adverse airway effects requiring intervention that were associated with targeted lung denervation, investigators reported. Four such events occurred, in 3 of 15 patients treated with 32 watts and 1 of 15 patients treated with 29 watts.

Procedural success, defined as device success without an in-hospital serious adverse event, was 96.7% (29/30). The rate of TLD-associated adverse airway effects requiring intervention was 3/15 in the 32 W versus 1/15 in the 29 W group (P = .6). However, serious gastric events were noted in five patients, prompting safety improvements and procedural enhancements that reduced both gastrointestinal and airway events, according to the study report.

Further data are available from AIRFLOW-2, a randomized, sham-controlled trial enrolling patients with symptomatic COPD.

In that study, targeted lung denervation plus optimal drug treatment led to fewer respiratory adverse events of interest, including hospitalizations for COPD exacerbation, according to a report on the study that appears in The American Journal of Respiratory and Critical Care Medicine.

Respiratory adverse events occurred in 32% of treated patients versus 71% of sham-treated patients in a predefined 3- to 6.5-month postprocedure window, the report says.

Currently underway is AIRFLOW-3, a randomized study of targeted lung denervation versus sham procedure in patients with COPD. The study has a primary outcome measure of moderate or severe COPD exacerbations over 12 months and is slated to enroll 480 patients.

To be eligible for AIRFLOW-3, patients must have had at least two moderate or one severe COPD exacerbation in the previous year, Dr. Ghattas said.
 

Metered cryospray

One novel intervention with the potential to benefit patients with chronic bronchitis is metered cryospray (RejuvenAir), which works by delivering liquid nitrogen to the tracheobronchial airways, according to Dr. Ghattas.

This targeted delivery ablates abnormal epithelium, facilitating the regeneration of healthy mucosa, according to investigators in a recently published single-arm prospective trial.

Metered cryospray was safe, feasible, and linked to clinically meaningful improvements in patient-reported outcomes among patients with COPD, according to authors of the study, which appears in the European Respiratory Journal.

In the study, 34 of 35 participants received three treatments 4-6 weeks apart.

Investigators reported that at 3 months there were significant reductions in the COPD Assessment Test that were durable to 6 months, and changes in the St. George’s Respiratory Questionnaire and the Leicester Cough Questionnaire that were durable to 9 months.

There were 14 serious adverse events, none of which were device- or procedure related, according to investigators.

An ongoing randomized study called SPRAY-CB is comparing metered cryospray to sham procedure in an anticipated 210 patients with COPD with chronic bronchitis.
 

Bronchial rheoplasty

Bronchial rheoplasty (RheOx, Gala Therapeutics), is another promising intervention under investigation for the treatment of chronic bronchitis, according to Dr. Ghattas.

This system delivers nonthermal pulsed electrical energy, Dr. Ghattas said, with the intention of ablating goblet cells in the airways.

“The preclinical studies have demonstrated epithelial ablation, followed by regeneration of normalized epithelium,” he said in his presentation.

In 12-month results of multicenter clinical trial, bronchial rheoplasty was technically feasible and safe, with reductions in goblet cell hyperplasia and changes in patient-reported quality of life seen following the procedure, investigators reported in The American Journal of Respiratory and Critical Care Medicine.

The mean goblet cell hyperplasia score was reduced by 39% from baseline to treatment, according to study results. Four procedure-related serious adverse events were observed through 6 months, and there were no procedure- or device-related serious adverse events over the next 6 months. Mild hemoptysis occurred in 47% of patients, investigators reported.

A larger randomized, double-blind prospective trial with a sham control arm is underway and will include 270 patients, according to Dr. Ghattas. “We’re going to have to wait for the results,” he said.

Dr. Ghattas reported serving as a site principal investigator for clinical trials involving the bronchoscopic interventions he discussed, including AIRFLOW-3 (evaluating the targeted lung denervation system), SPRAY-CB (metered cryospray), and RheSolve (bronchial rheoplasty).

Although slightly fewer than 1% of hospitalizations for chronic obstructive pulmonary disease (COPD) are complicated by sepsis, this complication increases the risk for in-hospital mortality fivefold, investigators who studied a representative national sample found.

Among nearly 7 million hospitalizations in which the primary diagnosis was COPD, nearly 65,000 (0.93%) patients experienced sepsis as a complication. In all, 31% of patients with COPD and sepsis were discharged from the hospital to another care facility, and 19% of patients died in hospital, report Harshil Shah, MD, from Guthrie Corning (N.Y.) Hospital and colleagues.

“Our study highlights the need for better risk stratification in patients with COPD developing sepsis to improve the outcomes. Further studies are warranted to consider factoring some of the modifiable factors into account and to ameliorate the outcomes of sepsis during COPD hospitalizations,” Dr. Shah and colleagues write in a poster presented during the at the annual meeting of the American College of Chest Physicians, held virtually this year.

COPD has been associated with increased risk for sepsis because of the use of corticosteroids, underlying comorbidities, and, potentially, because of impaired barrier function, the authors note.
 

Nationwide sample

To determine the effects of sepsis and predictors of poor outcomes among patients hospitalized for COPD, the investigators used standard diagnostic codes to identify patients with a primary diagnosis of COPD from the Nationwide Inpatient Sample for the period 2007 through 2018 and sepsis from codes in secondary fields in the International Classification of Diseases (9th/10th Editions) Clinical Modification.

They identified a total of 6,940,615 hospitalizations in which the primary diagnosis was COPD; in 64,748 of those cases, sepsis was a complication.

As noted, the in-hospital death rate, one of two primary outcomes, was 19% for patients with COPD and sepsis, and the rate of discharge to other facilities was 31%.

In analysis adjusted for confounding factors, sepsis was associated with an odds ratio for mortality of 4.9 (P < .01) and an OR for discharge to a facility of 2.2 (P < .01).

With regard to trends, the investigators saw that, although the adjusted odds for in-hospital mortality remained stable over time, discharge to facilities increased significantly. In 2007, the adjusted OR was 2.2, whereas in 2018, it was 2.6 (P for trend = .02).

Predictors of in-hospital mortality among patients with sepsis included increasing age (OR, not shown), White ethnicity (OR, 1.2), treatment in the Northeast region (OR, 1.4), disseminated intravascular coagulation (OR, 3.7), pneumococcal infection (OR, 1.2), congestive heart failure (OR, 1.2), and renal failure (OR, 1.4; P < .01 for all comparisons).
 

Mortality risk for many patients

A COPD specialist who was not involved in the study told this news organization that sepsis is an uncommon but serious complication, not just for patients with COPD but also for those with other severe illnesses.

“Sepsis has a high risk for mortality whether a person has COPD or not,” commented David M. Mannino III MD, FCCP, FERS, professor of medicine at the University of Kentucky, Lexington, and a cofounder and co–medical director of the COPD Foundation.

“It’s not surprising that sepsis is lethal in this population; the question is, if you have COPD, are you more likely to have sepsis? And I think the answer is probably yes. The connection there is that people with COPD have a higher risk for pneumonia, and pneumonia itself is probably one of the biggest risk factors, or certainly an important risk factor, for the development of sepsis,” he said in an interview.

It would be interesting to see the relationship between sepsis and in-hospital mortality for patients with other chronic diseases or people without COPD, he said, and he would have liked to have seen more detailed information about trends over time than Dr. Shah and colleagues provided.

No funding source for the study was reported. Dr. Shah and colleagues and Dr. Mannino have disclosed no relevant financial relationships.

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

Although slightly fewer than 1% of hospitalizations for chronic obstructive pulmonary disease (COPD) are complicated by sepsis, this complication increases the risk for in-hospital mortality fivefold, investigators who studied a representative national sample found.

Among nearly 7 million hospitalizations in which the primary diagnosis was COPD, nearly 65,000 (0.93%) patients experienced sepsis as a complication. In all, 31% of patients with COPD and sepsis were discharged from the hospital to another care facility, and 19% of patients died in hospital, report Harshil Shah, MD, from Guthrie Corning (N.Y.) Hospital and colleagues.

“Our study highlights the need for better risk stratification in patients with COPD developing sepsis to improve the outcomes. Further studies are warranted to consider factoring some of the modifiable factors into account and to ameliorate the outcomes of sepsis during COPD hospitalizations,” Dr. Shah and colleagues write in a poster presented during the at the annual meeting of the American College of Chest Physicians, held virtually this year.

COPD has been associated with increased risk for sepsis because of the use of corticosteroids, underlying comorbidities, and, potentially, because of impaired barrier function, the authors note.
 

Nationwide sample

To determine the effects of sepsis and predictors of poor outcomes among patients hospitalized for COPD, the investigators used standard diagnostic codes to identify patients with a primary diagnosis of COPD from the Nationwide Inpatient Sample for the period 2007 through 2018 and sepsis from codes in secondary fields in the International Classification of Diseases (9th/10th Editions) Clinical Modification.

They identified a total of 6,940,615 hospitalizations in which the primary diagnosis was COPD; in 64,748 of those cases, sepsis was a complication.

As noted, the in-hospital death rate, one of two primary outcomes, was 19% for patients with COPD and sepsis, and the rate of discharge to other facilities was 31%.

In analysis adjusted for confounding factors, sepsis was associated with an odds ratio for mortality of 4.9 (P < .01) and an OR for discharge to a facility of 2.2 (P < .01).

With regard to trends, the investigators saw that, although the adjusted odds for in-hospital mortality remained stable over time, discharge to facilities increased significantly. In 2007, the adjusted OR was 2.2, whereas in 2018, it was 2.6 (P for trend = .02).

Predictors of in-hospital mortality among patients with sepsis included increasing age (OR, not shown), White ethnicity (OR, 1.2), treatment in the Northeast region (OR, 1.4), disseminated intravascular coagulation (OR, 3.7), pneumococcal infection (OR, 1.2), congestive heart failure (OR, 1.2), and renal failure (OR, 1.4; P < .01 for all comparisons).
 

Mortality risk for many patients

A COPD specialist who was not involved in the study told this news organization that sepsis is an uncommon but serious complication, not just for patients with COPD but also for those with other severe illnesses.

“Sepsis has a high risk for mortality whether a person has COPD or not,” commented David M. Mannino III MD, FCCP, FERS, professor of medicine at the University of Kentucky, Lexington, and a cofounder and co–medical director of the COPD Foundation.

“It’s not surprising that sepsis is lethal in this population; the question is, if you have COPD, are you more likely to have sepsis? And I think the answer is probably yes. The connection there is that people with COPD have a higher risk for pneumonia, and pneumonia itself is probably one of the biggest risk factors, or certainly an important risk factor, for the development of sepsis,” he said in an interview.

It would be interesting to see the relationship between sepsis and in-hospital mortality for patients with other chronic diseases or people without COPD, he said, and he would have liked to have seen more detailed information about trends over time than Dr. Shah and colleagues provided.

No funding source for the study was reported. Dr. Shah and colleagues and Dr. Mannino have disclosed no relevant financial relationships.

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

Although slightly fewer than 1% of hospitalizations for chronic obstructive pulmonary disease (COPD) are complicated by sepsis, this complication increases the risk for in-hospital mortality fivefold, investigators who studied a representative national sample found.

Among nearly 7 million hospitalizations in which the primary diagnosis was COPD, nearly 65,000 (0.93%) patients experienced sepsis as a complication. In all, 31% of patients with COPD and sepsis were discharged from the hospital to another care facility, and 19% of patients died in hospital, report Harshil Shah, MD, from Guthrie Corning (N.Y.) Hospital and colleagues.

“Our study highlights the need for better risk stratification in patients with COPD developing sepsis to improve the outcomes. Further studies are warranted to consider factoring some of the modifiable factors into account and to ameliorate the outcomes of sepsis during COPD hospitalizations,” Dr. Shah and colleagues write in a poster presented during the at the annual meeting of the American College of Chest Physicians, held virtually this year.

COPD has been associated with increased risk for sepsis because of the use of corticosteroids, underlying comorbidities, and, potentially, because of impaired barrier function, the authors note.
 

Nationwide sample

To determine the effects of sepsis and predictors of poor outcomes among patients hospitalized for COPD, the investigators used standard diagnostic codes to identify patients with a primary diagnosis of COPD from the Nationwide Inpatient Sample for the period 2007 through 2018 and sepsis from codes in secondary fields in the International Classification of Diseases (9th/10th Editions) Clinical Modification.

They identified a total of 6,940,615 hospitalizations in which the primary diagnosis was COPD; in 64,748 of those cases, sepsis was a complication.

As noted, the in-hospital death rate, one of two primary outcomes, was 19% for patients with COPD and sepsis, and the rate of discharge to other facilities was 31%.

In analysis adjusted for confounding factors, sepsis was associated with an odds ratio for mortality of 4.9 (P < .01) and an OR for discharge to a facility of 2.2 (P < .01).

With regard to trends, the investigators saw that, although the adjusted odds for in-hospital mortality remained stable over time, discharge to facilities increased significantly. In 2007, the adjusted OR was 2.2, whereas in 2018, it was 2.6 (P for trend = .02).

Predictors of in-hospital mortality among patients with sepsis included increasing age (OR, not shown), White ethnicity (OR, 1.2), treatment in the Northeast region (OR, 1.4), disseminated intravascular coagulation (OR, 3.7), pneumococcal infection (OR, 1.2), congestive heart failure (OR, 1.2), and renal failure (OR, 1.4; P < .01 for all comparisons).
 

Mortality risk for many patients

A COPD specialist who was not involved in the study told this news organization that sepsis is an uncommon but serious complication, not just for patients with COPD but also for those with other severe illnesses.

“Sepsis has a high risk for mortality whether a person has COPD or not,” commented David M. Mannino III MD, FCCP, FERS, professor of medicine at the University of Kentucky, Lexington, and a cofounder and co–medical director of the COPD Foundation.

“It’s not surprising that sepsis is lethal in this population; the question is, if you have COPD, are you more likely to have sepsis? And I think the answer is probably yes. The connection there is that people with COPD have a higher risk for pneumonia, and pneumonia itself is probably one of the biggest risk factors, or certainly an important risk factor, for the development of sepsis,” he said in an interview.

It would be interesting to see the relationship between sepsis and in-hospital mortality for patients with other chronic diseases or people without COPD, he said, and he would have liked to have seen more detailed information about trends over time than Dr. Shah and colleagues provided.

No funding source for the study was reported. Dr. Shah and colleagues and Dr. Mannino have disclosed no relevant financial relationships.

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