Background-Supplemental oxygen in patients with chronic obstructive pulmona
ry disease (COPD) and exercise hypoxaemia improves exercise capacity and dy
spnoea. However, the benefit of oxygen during pulmonary rehabilitation in t
hese: patients is still unknown.
Methods-Twenty five patients with stable COPD (mean (SD) forced expiratory
volume in one second (FEV,) 0.76 (0.29) 1 and 30.0 (9.89)% predicted, arter
ial oxygen tension (Pa-O2) 8.46 (1.22) kPa, arterial carbon dioxide tension
(Par(CO2)) 6.32 (1.01) kPa) and significant arterial desaturation on exerc
ise (82.0 (10.4)0%) were entered onto a pulmonary rehabilitation programme.
Patients were randomised to train whilst breathing oxygen (OT) (n = 13) or
air (AT) (n = 12), both at 4 l/min. Assessments included exercise toleranc
e and associated dyspnoea using the shuttle walk test (SWT) and Borg dyspno
ea score, health status, mood state, and performance during daily activitie
s.
Results-The OT group showed a significant reduction in dyspnoea after rehab
ilitation compared with the AT group (Borg mean difference -1.46 (95% CI -2
.72 to -0.19)) but there were: no differences in other outcome measures: SW
T difference -23.6 m (95% CI -70.7 to 23.5), Chronic Respiratory Disease Qu
estionnaire 3.67 (95% CI -7.70 to 15.1), Hospital Anxiety and Depression Sc
ale 1.73 (95% CI -2.32 to 5.78), and London Chest Activity of Daily Living
Scale -2.18 (95% CI -7.15 to 2.79). At baseline oxygen significantly improv
ed SWT (mean difference 27.3 m (95% CI 14.7 to 39.8) and dyspnoea (-0.68 (9
5% CI -1.05 to -0.31)) compared with placebo air.
Conclusions-This study suggests that supplemental oxygen during training do
es little to enhance exercise tolerance although there is a small benefit i
n terms of dyspnoea. Patients with severe disabling dyspnoea may find sympt
omatic relief with supplemental oxygen.