Background Kinetic energy (E_kin) increases with speed by the power of 2 and is considered a major risk factor for injuries in alpine ski racing. There is no empirical knowledge about the effect of ski geometry on E_kin. Consequently, the aim of this study was to investigate the influence of sidecut radius on the progress of E_kin while skiing through a multigate section in giant slalom (GS).

Methods 5 European-Cup level athletes skied on three different pairs of GS skis varying in sidecut radii (30, 35 and 40 m). Each athlete's position over time within a six gate section (including flat and steep terrain) was captured by the use of a differential Global Navigational Satellite System. E_kin, speed, time and path length were analysed for each pair of skis used.

Results When using skis with greater sidecut radius, average E_kin was significantly lower over the entire six gate section, but not locally at every turn cycle. Particular decreases of E_kin were observed for both turns on the flat terrain, as well as for the turn at the terrain transition and the first turn on the steep terrain. The observed decreases in E_kin were found to be primarily explainable by increases in turn time.

Conclusions With respect to typical sport mechanisms that cause severe knee injuries, using skis with greater sidecut radius potentially provides additional injury preventative gain, particularly in specific areas within a run. However, this injury preventative gain during falls in GS should not be overestimated.