ABSTRACT
This study aimed to identify baseline variables predicting improvement in ADLs following an exercise training program in subjects with COPD. Sixty-seven patients with COPD underwent assessment of spirometry, modified Medical Research Council scale, COPD Assesment Test (CAT), Six Minute Walk Test (6MWT), London Chest Activity of Daily Living (LCADL) scale and Glittre-ADL test (TGlittre). After 24 sessions, they were reassessed for limitation in ADLs (LCADL and TGlittre). The main outcome was the achieving of minimal important difference (MID) of TGlittre, LCADL and both (ADLs). The cut-off points to discriminate the subjects who achieved the MID of TGlittre, LCADL and ADLs were established using the ROC curve. A cut-off point of 3.7 min in baseline TGlittre was able to discriminate subjects who achieved the MID of TGlittre (AUC = 0.77). Subjects with baseline TGlittre ≥3.7 min were 6.92 (95%CI 2.2-20.9) times more likely to achieve the MID of TGlittre post-exercise training. A cut-off point of 32% in LCADL was able to discriminate subjects who achieved the MID of LCADL (AUC = 0.81) and in ADLs (AUC = 0.78). Subjects with baseline LCADL ≥32% were 12.3 (95% CI 2.50 - 60.7) times more likely to achieve the MID of LCADL. In conclusion, the baseline variables that best predict the improvement of individuals after exercise training are TGlittre and LCADL, showing that subjects with significant functional impairment are more likely to clinically significantly improve their ADLs.
Subject(s)
Pulmonary Disease, Chronic Obstructive , Activities of Daily Living , Exercise , Exercise Test , Humans , Pulmonary Disease, Chronic Obstructive/therapy , Spirometry , Walk TestABSTRACT
BACKGROUND: Chronic hypoxemia in patients with COPD is a limiting factor that is associated with disease progression and significantly contributes to decreased physical activity. Although correction of hypoxemia results in physiological improvements, oxygen therapy may be related to social isolation and inactivity. However, few studies have objectively investigated the level of physical activity in daily life (PADL) in these patients. The objective of this study was to compare the level of PADL in subjects with COPD on home oxygen therapy and in subjects with no oxygen therapy, and to investigate whether home oxygen therapy is associated with the level of PADL. METHODS: In this study, 29 subjects with COPD composed the home oxygen therapy group, and 30 subjects with COPD composed the control group. All of them underwent assessment of anthropometric measurements, spirometry, peripheral muscle strength, limitations in activities of dalily living, perception of dyspnea, health status, as well as PADL monitoring. RESULTS: Home oxygen therapy subjects showed less time walking (P = .001), in active physical activities (P = .003), in physical activities ≥ 3 METs (P = .001), and in physical activities < 1.5 METs (P = .042), as well as fewer steps (P = .001). Physical inactivity was present in 24 home oxygen subjects (82.8%) and 18 control subjects (60%). Oxygen therapy was associated with severe physical inactivity (Cramer's V = 0.29, P = .040). The time using oxygen therapy (h/d) was the strongest predictor of the level of PADL (r2 = 0.38-0.43, P < .001). CONCLUSION: Subjects with COPD using oxygen at home showed reduced level of PADL. The results indicate that oxygen therapy is associated with severe physical inactivity and may be a predictor of the level of PADL.