The current protocol is developed in the context of a large Research and Innovation (R\&I) program aiming the promotion of daily life physical activity in chronic patients registered at clinicaltrials.gov (NCT02976064) and approved by the ethical committee of the Hospital Clinic de Barcelona (HCB/2016/0883). The project is partly supported by the Smart Innovation Strategies promoted by the EU Commission (COMRDI15-1-0016). Specifically, the protocol uses retrospective information collected between 2005-2008 as part of the EU project Biobridge (LSHG-CT-2006-037939). The aims of the current analysis of the retrospective information are 1) to assess training-induced changes in muscle oxygen saturation (StO2) assessed by near-infrared spectroscopy (NIRS) during constant-work rate cycling exercise (CWRE) as a useful marker of the effects of training at limb muscle level in patients with chronic obstructive pulmonary disease (COPD), and 2) to further explore underlying mechanisms of skeletal muscle dysfunction as a characteristic systemic effect of COPD, potentially modifiable with preventive interventions as endurance muscle training. Methods: Incremental exercise (VO2 peak) and CWRE at 70% baseline peak work rate, before and after 8-week of endurance exercise training, were done in healthy sedentary subjects and COPD patients. NIRS was used to assess StO2 in the left "vastus internus" during the CWRE (before an after training program) (objective 1); and blood samples and muscle biopsies of the quadriceps were obtained at rest (before an after training program) (objective 2).
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
26
All subjects performed a supervised 8-week, 5 days-week of endurance exercise training program in cycle-ergometer Each session included 5 minutes of warm-up and cool-down pedalling at 30% of peak work-rate (WR) and 50 minutes of interval training. The interval training combined 2 minutes of high-intensity pedalling and 3 minutes of active rest. Work-rate progress during the 8-week period was tailored on individual basis, according to subjects' symptoms, to maximize the training effect. During the first 2 weeks, high intensity pedalling interval was at least 70% of peak WR and active rest interval was at least 40% of peak WR. Thereafter, work-rate was increased by approximately 5% every week up to a maximum of 100% of peak WR during the last 2 weeks for the high intensity period and 50% of peak WR for the active rest. The cycling rate during the sessions was maintained at 60-70 rpm.
Muscle oxygen saturation (StO2)
Near-infrared spectroscopy (NIRS)
Time frame: Baseline - 8 weeks
Skeletal muscle dysfunction
Quadriceps muscle biopsies
Time frame: Baseline - 8 weeks
Maximal cardiopulmonary response to exercise training
Incremental exercise test
Time frame: Baseline - 8 weeks
Submaximal cardiopulmonary response to exercise training
Constant work rate exercise test (CWRE)
Time frame: Baseline - 8 weeks
Systemic effects of COPD
Blood sample
Time frame: Baseline - 8 weeks
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