Effects of ignoring anaerobic contributions when measuring change in the energy cost of walking in chronic stroke
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Objective
To determine whether the common practice of estimating energy cost of walking (CW) using only aerobic energy (oxygen consumption, O 2 ) while excluding anaerobic energy (excess carbon dioxide production, CO 2 ) introduces systematic and/or random error into the CW change estimates in individuals with chronic stroke.
Design, setting, and participants
The HIT-Stroke Trial randomized 55 individuals with walking limitations in chronic stroke to moderate or high intensity walking training.
Intervention
Both groups performed walking exercise 3 times per week for 12 weeks.
Main Outcome
Treadmill graded exercise testing with metabolic data collection was performed after 0, 4, 8, and 12 weeks of walking training. Mean CW changes (averaged across 4, 8 and 12 weeks) were estimated using only O 2 (CW O2 ) versus using both O 2 and CO 2 (CW O2+CO2 ). CW changes were calculated during the final 3 minutes of each exercise test (i.e. peak-speed ) and during equivalent speeds of the last 3 minutes of the shortest exercise test (i.e, matched-speed ). Linear mixed-effects models and bootstrapping were used to compare CW change estimates and their standard errors (SE) between CW O2 and CW O2+CO2 .
Results
At peak-speed , CW O2 showed similar changes to CW O2+CO2 (difference: −0.04 J/kg/m, 95% CI: −0.09, 0.03), and had the same relative SE (coefficient of variation difference: 0.0% [−0.9, 0.7]). At matched-speeds , CW O2 underestimated improvements by 18.2% (0.08 J/kg/m, 95% CI: 0.04, 0.15) compared to CW O2+CO2 , and had higher relative SE (+10.3% [5.7, 13.5]).
Conclusion
Disregarding anaerobic contributions (excess CO 2 ) during CW calculation may result in underestimation of training-related improvement and reduce measurement precision when estimating CW changes at matched-speeds .
