OBJECTIVE: To examine the impact of fitness training with recently brain-injured inpatients on exercise capacity and functional and psychologic outcome measures. DESIGN: A randomized controlled trial of exercise versus relaxation training for 3 months. Blind assessments were conducted before and after the end of a 12-week training program, as well as at follow-up assessment 12 weeks posttraining. SETTING:Four regional neurologic inpatient rehabilitation units. PATIENTS: Of 157 patients recruited 24 +/- 14 weeks after single-incident brain injury, 142 patients were assessed at week 12, and 128 patients at follow-up. INTERVENTIONS: Patients were randomized between cycle ergometer aerobic training and a relaxation training control condition, which was theoretically inert with respect to cardiovascular fitness. MAIN OUTCOME MEASURES: Validation of exercise training (peak work rate, peak heart rate, body mass index); mobility and physical function (modified Ashworth scale, Berg balance scale, Rivermead Mobility Index, 10-m walk velocity); disability and dependency (Barthel index, FIMtrade mark instrument, Nottingham Extended Activities of Daily Living); and psychologic function (fatigue questionnaire, Hospital Anxiety and Depression Scale). RESULTS: Significant improvements in exercise capacity (p <.05) in the exercise training group (n = 70) relative to the control group (n = 72) were not matched by greater improvements in functional independence, mobility, or psychologic function, at either 12 weeks or follow-up. CONCLUSIONS: The benefits of improved cardiovascular fitness did not appear to extend to measurable change in function or psychologic state.
RCT Entities:
OBJECTIVE: To examine the impact of fitness training with recently brain-injured inpatients on exercise capacity and functional and psychologic outcome measures. DESIGN: A randomized controlled trial of exercise versus relaxation training for 3 months. Blind assessments were conducted before and after the end of a 12-week training program, as well as at follow-up assessment 12 weeks posttraining. SETTING: Four regional neurologic inpatient rehabilitation units. PATIENTS: Of 157 patients recruited 24 +/- 14 weeks after single-incident brain injury, 142 patients were assessed at week 12, and 128 patients at follow-up. INTERVENTIONS:Patients were randomized between cycle ergometer aerobic training and a relaxation training control condition, which was theoretically inert with respect to cardiovascular fitness. MAIN OUTCOME MEASURES: Validation of exercise training (peak work rate, peak heart rate, body mass index); mobility and physical function (modified Ashworth scale, Berg balance scale, Rivermead Mobility Index, 10-m walk velocity); disability and dependency (Barthel index, FIMtrade mark instrument, Nottingham Extended Activities of Daily Living); and psychologic function (fatigue questionnaire, Hospital Anxiety and Depression Scale). RESULTS: Significant improvements in exercise capacity (p <.05) in the exercise training group (n = 70) relative to the control group (n = 72) were not matched by greater improvements in functional independence, mobility, or psychologic function, at either 12 weeks or follow-up. CONCLUSIONS: The benefits of improved cardiovascular fitness did not appear to extend to measurable change in function or psychologic state.
Authors: Abigail L Leddy; Mark Connolly; Carey L Holleran; Patrick W Hennessy; Jane Woodward; Ross A Arena; Elliot J Roth; T George Hornby Journal: J Neurol Phys Ther Date: 2016-10 Impact factor: 3.649
Authors: David H Saunders; Mark Sanderson; Sara Hayes; Maeve Kilrane; Carolyn A Greig; Miriam Brazzelli; Gillian E Mead Journal: Cochrane Database Syst Rev Date: 2016-03-24
Authors: Lisa M K Chin; Leighton Chan; Joshua G Woolstenhulme; Eric J Christensen; Christian N Shenouda; Randall E Keyser Journal: J Head Trauma Rehabil Date: 2015 Nov-Dec Impact factor: 2.710