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Impact of Cardiovascular and Metabolic Comorbidities on Long-term … – Dove Medical Press
Introduction
Chronic obstructive pulmonary disease (COPD) is a common disease characterized by persistent respiratory symptoms and airflow limitation due to airway and/or alveolar abnormalities. It is usually caused by significant exposure to noxious particles among which tobacco smoking is the main factor in France.1 Despite being preventable and treatable, COPD prevalence is still increasing and represents a major source of morbidity, mortality and a significant economic burden.2 Progression of the disease is associated with increased respiratory disability and health-related quality of life (HRQoL) alteration.
Pulmonary rehabilitation (PR) is an effective and comprehensive treatment for COPD patients combining retraining exercises, therapeutic education, nutritional and psychological supports but remains underused.3 Therefore, new models have emerge last years to improve access to PR such as home-based PR programs, which are useful for patients living far from PR centers and were also shown interesting for limiting contact during the SARS-CoV2 epidemic.4 However, impact of comorbidities on PR outcomes, particularly with these new PR modalities, is not well known.
Cardiovascular diseases such as ischemic heart disease, arrhythmia, heart failure, peripheral arterial diseases and metabolic disorders such as arterial hypertension and diabetes mellitus are frequently associated with COPD.5 These associations may be related to common underlying molecular mechanisms, but also to common risk factors such as smoking and decreased physical activity.6,7 These comorbidities were reported to be associated with higher symptoms burden and lower HRQoL in COPD.8 Moreover, cardiovascular diseases are associated with prolonged hospital length of stay after acute exacerbation of COPD and with increased mortality.9,10 However, it is proven that cardiac rehabilitation is effective in improving exercise capacity and HRQoL in patients with cardiovascular diseases.11 Only a few studies have evaluated the impact of cardiovascular comorbidities on PR-related outcomes in COPD patients and reported contrasting results.1216 Furthermore, all of these studies were center-based and none evaluated benefits up to a year after the end of the PR program.
The aim of our study was to determine whether established cardiovascular diseases and metabolic comorbidities impacted long-term effects of a home-based PR program on exercise capacity, HRQoL and anxiety-depression in COPD patients.
Data of all consecutive COPD patients addressed for the FormAction home-based PR program between January 2010 and June 2016 were prospectively collected in the computerized medical record CARE ITOU and retrospectively analyzed. All patients were addressed by a respiratory physician who confirmed the diagnosis of COPD according to GOLD definition and checked for absence of PR contraindications, ie active lung cancer, unstable cardiovascular disease, significant cognitive disorders, uncontrolled psychiatric illness, neurological sequelae or major osteoarticular restrictions.17 The choice of home-based vs center-based PR was determined according to patients wishes and/or lack of PR center close to their home. Adverse events and reasons for withdrawals were recorded with a systematic assessment of their relationship to the program. The study protocol was conducted in accordance with the Declaration of Helsinki and approved by the Observational Research Protocol Evaluation Committee of the French Society of Respiratory Disease (CEPRO 2017007). All participants signed a written informed consent prior to the start of the program which included their approval to use the collected data for research purposes and the computerized medical record declared to the National Commission for Informatics and Liberties.
Comorbidities were self-reported by patients and then completed and corrected from medical reports provided by the patient and their respiratory physician. Comorbidities were then registered in the computerized medical record when patients entered the PR program. Patients with a diagnosis of ischemic heart disease, chronic heart failure, cardiac arrhythmias, pulmonary hypertension or peripheral arterial disease were classified as having at least one established cardiovascular disease (Cardiovascular group). Patients without previous cardiovascular comorbidities but with at least one comorbidity used to diagnose a metabolic syndrome, ie hypertension, hypercholesterolemia, diabetes mellitus, or obesity (defined by a body mass index [BMI] 30 kg/m2) were classified as having metabolic comorbidities (Metabolic group). Patients having both metabolic and cardiovascular comorbidities were classified in the Cardiovascular group. Finally, patients who were not classified in these two groups were considered with no cardiovascular and metabolic comorbidities and considered as the Reference group. Underweight was defined by a BMI 21 kg/m2.18
Our home-based PR program was described in previous studies.19 Briefly, this 8-week program included exercise training and physical activities, therapeutic education, nutritional support and behavioral and motivational approaches. Patients were supervised in-person by a member of the PR team during a weekly 90-min session and encouraged to continue exercises the rest of the week in autonomy and after the end of the PR program. Patients started with individual endurance exercises on a cycle ergometer at the target heart rate in 10-min sequences, at least 5 days per week, with the goal of reaching 3045 min per sequence in one or several sessions. After the end of the program, the PR team performed home-visits at 6 and 12 months to assess encountered difficulties, find solutions and strengthen patients and caregivers motivation.
Assessments were performed at baseline before the PR program (M0), immediately at the end of the program (M2), and at 6 and 12 months after its end (M8 and M14, respectively). Exercise capacity was assessed using the 6-min stepper test (6MST) that measures the number of steps performed in 6 min on a stepper with a minimal clinically significant difference (MCID) of 40 steps.20,21 Health-related quality of life (HRQoL) was assessed using the visual simplified respiratory questionnaire (VSRQ) ranging for 0 (worse) to 80 (better) with a MCID of 3.4 points.22 Finally, anxiety and depression were assessed using the hospital anxiety and depression scale (HAD) distinguishing overall score, and anxiety and depression sub-scores. These scores increase with anxiety and depression with a MCID of 1.5 points for each score and sub-scores.23
Quantitative variables are expressed as means standard deviation (SD) and categorical variables are expressed as frequencies (percentage). Among patients who initiated PR, differences in baseline characteristics between patients evaluated and those not evaluated at 12 months after end of PR (due to death or loss to follow-up) were assessed by calculating the absolute standardized difference (ASD); an ASD >20% was interpreted as a meaningful difference. Comparisons in baseline characteristics between the three groups were performed using one-way analysis of variance (ANOVA) for quantitative variables or chi-squared tests for categorical variables. Evolution of outcomes (HRQoL, exercise capacity, anxiety, and depression) from baseline (M0) to M2, M8 and M14 were analyzed using linear mixed models for repeated measures (an unstructured covariance pattern model to account the correlation between repeated measures) by including time as fixed effect. Comparisons in evolution of outcomes from baseline (M0) to M2, M8 and M14 between the three groups were also performed using linear mixed models including groups, time, interaction time*groups, baseline outcome values and predetermined confounding factors (age, sex, BMI, FEV1, and long-term oxygen therapy (LTOT) status) as fixed effects;24 post hoc comparisons of 2-, 8- and 14-month changes were done using linear contrasts. Comparisons in evolution of outcomes between the three groups were also done after excluding underweight patients as a sensitivity analysis. Normality of residuals of linear mixed models were checked using quantile-quantile (Q-Q) plots. All statistical tests were done at the two-tailed level of 0.05 without correction for multiple comparisons. Data were analyzed using SAS software version 9.4 (SAS Institute, Cary, NC, USA).
Four hundred and nineteen consecutive COPD patients were addressed to the home-based PR program, among which 413 started the program and 380, 333, and 303 were evaluated at M2, M8 and M14, respectively (Figure 1). None of them had any contraindication to PR and no incident related to the PR program was reported. The population included 67% men. The mean age was 64.111.2 years. Most patients had severe COPD (mean FEV1 39.217% predicted, 66.3% GOLD stages III and IV) and were ex-smokers (80.9%) with cumulative smoking estimated at 4830 pack-years (Table 1). Only 23.6% did not receive LTOT, noninvasive ventilation (NIV) or continuous positive airway pressure (CPAP). The most prevalent reported comorbidities were hypertension (40.8%), obesity (30.7%), underweight (22.8%), hypercholesterolemia (22.4%), ischemic heart disease (22.2%) and diabetes (21.7%) (Tables 1 and 2). Other self-reported comorbidities are detailed in Supplementary Table 1. One hundred and twenty-two patients (29.1%) were classified as having metabolic comorbidities without an established cardiovascular disease (Metabolic group) and 102 patients (24.3%) as having no cardiovascular nor metabolic comorbidities (Reference group). Therefore, 195 patients (46.5%) were classified as having at least one established cardiovascular disease (Cardiovascular group). Altogether, 83% had at least three reported comorbidities. The 110 patients who initiated the program and were lost to follow-up during the 14 months were more likely to have an established cardiovascular comorbidity, to be underweight, to present a very severe airflow limitation and to require LTOT or NIV (Supplementary Table 2).
Table 1 Baseline Description of the Population
Table 2 Patients Reported Cardiovascular and Metabolic Comorbidities
Figure 1 Flowchart of the whole population.
Abbreviation: PR, pulmonary rehabilitation.
At baseline, patients performed 3099 steps during the 6MST and had an altered HRQoL reflected by a low VSRQ score (31.10.8) (Supplementary Table 3). They exhibited elevated anxiety and depression scores (9.70.2 and 8.00.2, respectively) with 52% and 34% of them showing anxiety and depression scores greater than or equal to 11, respectively. Patients from the Cardiovascular group were more often men (73.8%), were older (mean age 68.59.6 years) and more frequently treated with LTOT and NIV (Table 1). Patients from Metabolic and Cardiovascular groups had a higher BMI (30.56.7 and 28.18.1 kg/m2, respectively, vs 21.23.8 kg/m2 for the Reference group) and were more often treated with CPAP (13.1 and 8.7%, respectively, vs 1% for the Reference group). Proportion of GOLD stage IV COPD was higher in Reference group (45.6% vs 23.6% and 37.5% in Metabolic and Cardiovascular groups, respectively) while GOLD stages I and II COPD were more frequent in Metabolic group (29.2% vs 17.8% and 19.9% for Reference and Cardiovascular groups, respectively). At baseline, patients from Cardiovascular group performed significantly fewer steps on the 6MST (272141 steps vs 343161 and 339164 for Reference and Metabolic groups, respectively), while VSRQ and HAD scores were similar between the three groups (Supplementary Table 4). Taking into account only patients evaluated at M2 and after adjustment to age, sex, BMI, FEV1 and LTOT status, the three groups were similar for all baseline assessments (Table 3).
Table 3 Absolute Variations of Exercise Capacity, Quality of Life and Anxiety-depression for each Group of Patients
In the whole population, all outcomes significantly improved between baseline and the end of the program (M2), 6 months (M8) and 12 months after PR completion (M14) (Table 4). After adjustment on age, sex, BMI, FEV1, and LTOT status, changes in all outcomes remained significant for all three groups for all three assessments (M2, M8 and M14), except for the 6MST at M8 and M14 in Reference group (Table 5). The proportion of patients exceeding the MCID for at least one of the outcomes, ie HRQoL, anxiety-depression or exercise capacity, was 69.8%, 56.7%, and 50.7% at M2, M8 and M14, respectively (Figure 2). When comparing groups to each other, mean HAD global score was significantly more improved at M14 in patients from Metabolic group versus the two other groups and depression subscore at M14 between Metabolic and Cardiovascular groups (Table 3). There were no significant differences between groups for other time point and outcomes. Results were similar after exclusion of underweight patients (Supplementary Table 5).
Table 4 Absolute Variations of Exercise Capacity, Quality of Life and Anxiety-depression for the Whole Population
Table 5 Comparisons to Baseline of Exercise Capacity, Quality of Life and Anxiety-depression Assessed at the End of the Rehabilitation Program and after 6 and 12 Months for each Group of Patients
Figure 2 Proportion of patients exceeding the MCID for exercise capacity, quality of life and anxiety-depression score according to the group.
Abbreviations: 6MST, 6-min stepper test; HAD, hospital anxiety and depression scale; MCID, minimal clinically significant difference; VSRQ, visual simplified respiratory questionnaire.
Notes: Proportion of patients exceeding the MCID for exercise tolerance assessed by (A) the 6-min stepper test (6MST MCID 40 steps), (B) quality of life assessed by the visual simplified respiratory questionnaire (VSRQ MCID 3.4 points) and (C) anxiety-depression assessed by the hospital anxiety and depression scale global score (HAD MCID 1.5 points). Group 1, Reference Group; Group 2, Metabolic Group; Group 3, Cardiovascular Group.
This retrospective observational study evaluated the impact of cardiovascular and metabolic comorbidities on the outcomes of a home-based PR program in COPD patients over 1 year after the end of this program. COPD patients with metabolic comorbidities but no established cardiovascular disease exhibited a significant greater improvement in depression at 12 months after PR achievement compared to control group. No other outcome was significantly different between the three groups. To our knowledge, this is the first real-life study to evaluate impact of cardiovascular and metabolic comorbidities after 6 and 12 months of a home-based PR program.
Cardiovascular comorbidities are frequently associated with COPD and remain the most common causes of mortality in these patients.25 We confirm this strong association with only 24.3% of patients who had no cardiovascular disease nor cardiovascular risk-factors excluding smoking and by the observation that 81% of patients who died during the 14 month follow-up had at least one cardiovascular comorbidity. Moreover, at baseline, patients with established cardiovascular disease exhibited significant lower exercise capacity. Although in our study this group of patient was older than others, this is concordant with previous studies reporting decreased physical activity in COPD patients with concomitant cardiovascular disease, a diminished capacity partly mediated by deleterious cardiorespiratory interactions.26 Comprehensive care integrating all comorbidities is therefore essential to improve the prognosis of these patients.
We chose to group patients with established cardiovascular comorbidity regardless of metabolic comorbidity because only 24% of those patients did not have metabolic comorbidity and those cardiovascular comorbidity are associated with a significant exercise capacity limitation.2729 The choice to categorize hypertension as a metabolic comorbidity and not as a cardiovascular comorbidity is questionable. However, definitions of metabolic syndrome consider hypertension as one of their diagnostic criteria and hypertension is clearly identified as a risk factor for adverse cardiovascular outcomes.30 In a cohort of healthy adults who underwent a cardiac health check-up, Kim et al reported that exercise capacity was more reduced, the level of coronary calcification more increased and the cardiac structure on echocardiography more altered when patients had more components of the metabolic syndrome including hypertension.31 This suggests that the impact of comorbidities defining the metabolic syndrome have a cumulative effect. Conversely these comorbidities are also improved and may be reversed to some extent by physical activity.32 Therefore, we chose to group these comorbidities including hypertension for their intermediate impact on exercise tolerance and their recovery potential.
Benefits of pulmonary rehabilitation for COPD patients are well described and our home-based PR program, as center-based programs, exhibit benefits on exercise capacity, quality of life and anxiety-depression, not only at the end of the program, but up to one year after its achievement in the whole population.19,33 Ninety percent of patients completed our home-based PR program. Compared to the British Thoracic Society objectives of achieving a 70% completion rate, this suggests that this modality would remove some of the obstacles to finalizing the PR program for some patients.34 Other effective PR models including telerehabilitation have emerged in recent years to improve access and uptake to PR and address issues related to the distance to rehabilitation centers or to constraints of the SARS-CoV2 epidemic.35 Cardiovascular comorbidities may be perceived as an obstacle to out-of-center PR, but our study demonstrates that home-based PR is feasible and effective for referred patients, provided that the prescriber first assesses the stability of these comorbidities.
Specific influence of cardiovascular and metabolic comorbidities on PR and results was evaluated by some studies immediately at the end of the PR program with contrasting effects. The association between having cardiovascular comorbidities and exhibiting a greater improvement of dyspnea after PR was not observed in all studies and only one retrospective study report an association between having cardiovascular comorbidities and exhibiting greater 6MWD improvements.12,1416 In a retrospective study, Crisafulli et al reported a weaker improvement of SGRQ score in patients with cardiovascular comorbidities, but this negative association was not observed in their later prospective study nor in the Mesquita et al or Butler et al studies.1315 Conversely, Tunsupon et al reported greater improvement of quality of life assessed with the chronic respiratory disease questionnaire in patients with cardiovascular diseases.12 None of these studies have evaluated the impact on anxiety-depression nor the persistence of benefits after the end of the PR. Considering metabolic comorbidities, to our knowledge no study reported an association between having a metabolic disorder and reporting a greater dyspnea improvement after PR.12,1416 The impact of metabolic comorbidities on exercise capacity improvement after PR is more controversial. Thus, Walsh et al have reported a greater improvement associated with these metabolic comorbidities, as observed in our study, but there were no association in three other studies.13,15,16,36 Moreover, in two other studies, exercise capacity improvement was weaker in patients with metabolic comorbidities.12,14 Finally, as observed in our study, none reported an association between having metabolic comorbidities and exhibiting greater quality of life improvement. Altogether, these discrepancies may suggest that comorbidities did not impact PR outcomes per se except when they participate in the symptomatology and the impact of the disease. A more precise phenotyping of the mechanisms involved in patients symptoms may help to clarify condition when patients will benefit the most from a PR.
Our study is limited by its design as we included only patients addressed to our home-based PR program by their physicians who may have made the choice to address their patients to our home-based program based on criteria unknown to us. As our study included only patients managed in our home-based PR program, our results may not be extrapolated to a center-based program despite the fact that studies have reported that these two modalities could produce similar results and that characteristics of patients choosing one or the other of these modalities would not differ.4,37 As comorbidities were self-reported by patients, we cannot exclude that some comorbidities were misdiagnosed. While underdiagnosis of cardiovascular diseases was shown to be unlikely, overestimation is possible as hypertension or hypercholesterolemia underdiagnosis.38,39 Therefore, there is still a risk of misclassifying patients despite we systematically corrected self-reported comorbidities from medical reports provided by patients. Moreover, due to the retrospective design of our study, some information was not available including precise dyspnea evaluation, exacerbations rate, detailed evaluation of nutritional and muscular status, emphysema severity, distention level, and quantification of physical activity after PR discharge. A significant proportion of underweight patients were present in the reference group and their characteristics have similarities with the cachectic cluster described by Vanfleteren et al, a phenotype associated with poorer HRQoL, more frequent exacerbations and higher mortality.40 However, the sensitivity analysis performed after exclusion of these patients showed similar results to main analysis performed with adjustment for BMI demonstrating the modest impact of this heterogeneity in weight profile.
Stable cardiovascular and metabolic comorbidities are frequently associated with COPD and do not limit short- and long-term improvement of exercise capacity, quality of life and anxiety-depression after a home-based pulmonary rehabilitation. Whether specific personalization of the PR program is required to improve benefits for all patients according to their comorbidities remains to be determined.
6MST, 6-min stepper test; 6MWD, distance in the 6-min walking test; BMI, body mass index; COPD, chronic obstructive pulmonary disease; CPAP, continuous positive airway pressure; FEV1, forced expiratory volume in one second; FVC, forced vital capacity; GOLD, global strategy for the diagnosis, management, and prevention of chronic obstructive lung disease; HAD, hospital anxiety and depression scale; HRQoL, health-related quality of life; LTOT, long-term oxygen therapy; MCID, minimal clinically significant difference; NIV, noninvasive ventilation; PR, pulmonary rehabilitation; SGRQ, St Georges respiratory questionnaire; VSRQ, visual simplified respiratory questionnaire.
The authors would like to thank the rehabilitation team who managed the patients: G. Tywoniuk, S. Duriez, M Grosbois, V Opsomer, F. Urbain, V. Wauquier, and M. Lambinet. The authors would also like to thank Adair, Aeris Sant, Bastide, France Oxygne, Homeperf, LVL, Medopale, NorOx, Santlys, SOS Oxygne, Sysmed, VitalAire, and ARS Hauts-de-France for their support of the home-based PR program. They also thank Emeline Cailliau and Julien Labreuche who performed the new statistical analyses in response to reviewers comments.
All authors made a significant contribution to the work reported, whether that is in the conception, study design, execution, acquisition of data, analysis and interpretation, or in all these areas; took part in drafting, revising or critically reviewing the article; gave final approval of the version to be published; have agreed on the journal to which the article has been submitted; and agree to be accountable for all aspects of the work.
There is no funding to report.
JMG received financial support from Adair, Aeris Sant, Bastide, Elivie, France Oxygne, Homeperf, LVL, Medopale, NorOx, Santlys, Santo, SOS Oxygne, Sysmed, VentilHome, VitalAire, and ARS Hauts-de-France for the home-based PR program. JMG reports personal fees and nonfinancial support unrelated to the submitted work from AstraZeneca, Boehringer Ingelheim, Chiesi, CSL Behring, GlaxoSmithKlein, Novartis, Vitalaire, and Roche, unrelated to the submitted work. AD reports nonfinancial support from ALK-Abello, Amgen, AstraZeneca, Boehringer Ingelheim, Chiesi, GlaxoSmithKlein, LEO Pharma, Menarini, MSD, Novartis, Novo Nordisk, Pfizer, Resmed and Vitalaire, unrelated to the submitted work. AP reports no conflicts of interest related to the submitted work. NB reports personal fees from AstraZeneca, and nonfinancial support from AstraZeneca, Boehringer Ingelheim, GlaxoSmithKlein, Novartis, Santelys association, SOS Oxygne and TEVA, unrelated to the submitted work. TP reports grants from AstraZeneca, personal fees from AstraZeneca, Boehringer Ingelheim, Chiesi, GlaxoSmithKlein and Novartis, and congress support from AstraZeneca, GlaxoSmithKlein, Novartis and Chiesi, unrelated to the submitted work. BW reports personal fees from AstraZeneca, Boehringer Ingelheim, GlaxoSmithKlein, Roche and TEVA, and nonfinancial support from ALK-Abello, Aptalis pharma, AstraZeneca, Boehringer Ingelheim, Chiesi, Chugai pharma, France Oxygne, Kyowa Kirin, GlaxoSmithKlein, Mayoli, Mundipharma, Mylan, Novartis, Pfizer, Preciphar, Roche, SEFAM, SOS Oxygne, SYSMED, Vertex and Vitalaire, unrelated to the submitted work. CC reports grants from AstraZeneca and Santelys, personal fees from ALK-Abello, AstraZeneca, Boehringer Ingelheim, Chiesi, GlaxoSmithKlein, Novartis, Sanofi-Regeneron and TEVA, and congress support from ALK-Abello, AstraZeneca, GlaxoSmithKlein, Novartis, Pierre Fabre, Pfizer, Roche and TEVA, unrelated to the submitted work. OLR reports personal fees from AstraZeneca, Boehringer Ingelheim, Chiesi, GlaxoSmithKline and Novartis, and nonfinancial supports from AstraZeneca, Boehringer Ingelheim, Chiesi, Correvio, GlaxoSmithKlein, Mayoli, MSD, Mylan, Novartis, Pfizer, PulmonX, Santelys Association, Vertex, Vitalaire and Zambon, unrelated to the submitted work. OLR is the principal investigator in studies for Vertex and CSL Behring.
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Impact of Cardiovascular and Metabolic Comorbidities on Long-term ... - Dove Medical Press
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