INTRODUCTION: Motor control is an essential part of athlete`s efficient performance. The motor control can be divided to spinal and supraspinal components, which`s contribution can be quantified using Hoffmann-reflex (H-reflex) and volitional wave (V-wave) methods, respectively, during both isometric (Aagaard et al. 2002) and dynamic conditions (Alkjaer et al. 2013). However, it is unknown how feasible these responses would be to study more challenging multi-joint dynamic tasks like cross-country skiing. Purpose was to develop this methodology for complex skiing techniques for future examination of spinal and supraspinal control mechanisms during specific phases (e.g. gliding/balance control) related to performance level, fatigue status or other factors. METHODS: A former male elite skier performed numerous trials using V2 skating technique on roller skies at treadmill (2° incline) velocities of 12 (slow) and 18 km/h (fast). H-reflex (m. soleus; conditioned with 15% Maximal M-wave [M max ]) was measured 30, 70, 110 and 580 ms after the ground contact of the roller ski to get the H-reflex responses during short-latency reflex (SLR), medium-latency reflex (MLR), highest force production and mid-glide phases, respectively. V-wave responses were measured with identical delays, but with supramaximal stimulation intensity (125% Mmax ). Both H-reflex and V-wave were normalized to M max . All date are presented descriptively as mean and standard deviation, as it was a methodological pilot study. RESULTS: H/Mmax ratio was reduced from SLR to MLR (Slow -16.7%; Fast -31.1%) and highest force (Slow -33.3%; Fast -19.8%) while being similar or elevated during mid-glide phase (Slow 3.8%; Fast 67.0%) compared to SLR. Opposite to H-reflex, V/M max increased from SLR to MLR in slow (19.1%) and fast (22.1%) velocities. However, velocity-related differences were observed at highest forces (Slow 64.7%; Fast -19.8%) and mid-glide phase (Slow 53.0%; Fast 5.8%) compared to SLR. DISCUSSION/CONCLUSION: Similar pattern of H-reflex has been observed previously during drop jumps (Taube et al. 2008), where H-reflex was reduced, and cortical activation enhanced from ground contact toward voluntary activation. H-reflex and V-wave methods seem to be potential tools to investigate motor control during skiing which could be utilized, for example, to examine training and fatigue-related changes in motor control of Nordic skiing and possibly other skiing disciplines.
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