Abstract
The purpose of this study was to investigate the evolution of ground reaction force during alpine skiing turns. Specifically, this study investigated how turn phases and slope steepness affected the whole foot normal GRF pattern while performing giant slalom turns in a race-like setting. Moreover, the outside foot was divided into different plantar regions to see whether those parameters affected the plantar pressure distribution. Eleven skiers performed one giant slalom course at race intensity. Runs were recorded synchronously using a video camera in the frontal plane and pressure insoles under both feet’s plantar surface. Turns were divided according to kinematic criteria into four consecutive phases: initiation, steering1, steering2 and completion; both steering phases being separated by the gate passage. Component of the averaged Ground Reaction Force normal to the ski’s surface(, /BW), and Pressure Time Integral relative to the entire foot surface (relPTI, %) parameters were calculated for each turn phases based on plantar pressure data. Results indicated that under the total foot surface differed significantly depending on the slope (higher in steep sections vs. flat sections), and the turn phase (higher during steering2 vs. three other phases), although such modifications were observable only on the outside foot. Moreover, under the outside foot was significantly greater than under the inside foot.RelPTI under different foot regions of the outside foot revealed a global shift from forefoot loading during initiation phase, toward heel loading during steering2 phase, but this was dependent on the slope studied. These results suggest a differentiated role played by each foot in alpine skiing turns: the outside foot has an active role in the turning process, while the inside foot may only play a role in stability.
Highlights
Pressure insoles are a useful measurement system to assess kinetic parameters during posture, gait or dynamic activities in field situations, since they have a minimal influence on the subject’s skill (e.g. [1,2])
Depending on the results found in this first analysis, only the outside foot was considered in a second analyses of variance (ANOVA), used to study the cross effects of slope and phase on the nGRF measured on the outside foot
The results from the first ANOVA indicated that the mean nGRF varied significantly depending on the foot (F(1,10) = 99.7; p < .001)
Summary
Pressure insoles are a useful measurement system to assess kinetic parameters during posture, gait or dynamic activities in field situations, since they have a minimal influence on the subject’s skill (e.g. [1,2]). Various investigators have recently used them during alpine skiing to better understand the relationship between kinematic and kinetic parameters, and their effects on performance, training and injury [3,4,5,6,7,8]. This measurement system converts raw pressure signals into the magnitude and the distribution of one directional (compressive) force (i.e., the component of the Ground Reaction Force normal to the ski’s surface, nGRF), beneath the entire plantar surface. Analysis of the Ground Reaction Force (GRF) and CoP measured with pressure insoles may provide useful information on alpine skiing biomechanics and kinaesthetic feelings of the skiers
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