Characterization of muscle oxygenation response in well-trained handcyclists.

Purpose:  Peripheral responses might be important in handcycling, given the involvement of small muscles compared to other exercise modalities. Therefore, the goal of this study was to compare changes in muscle oxygen saturation (∆SmO) and deoxyhemoglobin level (∆[HHb]) between different efforts and muscles.

Methods:  Handcyclists participated in a Wingate, a maximal incremental test and a 20-min time-trial (TT). Oxygen uptake (VO) as well as ∆SmO, ∆[HHb], deoxygenation and reoxygenation rates in the triceps brachii (TB), biceps brachii (BB), anterior deltoid (AD) and extensor carpi radialis brevis (ER) were measured.

Results:  ER ∆[HHb]max was 37% greater in the incremental test than in the Wingate (ES = 0.392, P = 0.031). TT mean power (W/kg) was associated with BB ∆SmOmin measured in the incremental test (r = -0.998 [-1.190, -0.806], P = 0.002) and in the Wingate (r = -0.994 [-1.327, -0.661], P = 0.006). MAP (W/kg) was associated with Wingate BB ∆SmOmin (r = -0.983 [-0.999, -0.839], P = 0.003), and Wingate peak (r = 0.649 [0.379, 0.895], P = 0.008) and mean power (W/kg) (r = 0.925 [0.752, 0.972], P = 0.003) was associated with right handgrip force. The strongest physiological predictor for TT performance was BB ∆SmOmin in the incremental test (P = 0.002, r= 0.993, SEE 0.016 W/kg), Wingate BB ∆SmOmin for MAP (P = 0.003, r= 0.956, SEE 0.058 W/kg) and right handgrip force for Wingate peak power (P = 0.005, r= 0.856, SEE 0.551 W/kg).

Conclusion:  Peripheral aerobic responses (muscle oxygenation) were predictive of handcycling performance.