. "Folia Zoologica" . . . "Soumar, Libor" . "Influence of body mass and lower limb lengh on knee flexion angle during walking in humens" . "Influence of body mass and lower limb lengh on knee flexion angle during walking in humens"@en . . "Mich\u00E1lek, Tom\u00E1\u0161" . . . . "Influence of body mass and lower limb lengh on knee flexion angle during walking in humens" . . "3-4" . . . "2"^^ . "size; posture; locomotion"@en . "10"^^ . . . . . "0139-7893" . "Despite abundant knowledga about the relationship between body (i.e., body mass, lover limb length) and limb posture during locomotion on the level of interpecies variability, little is known about variation on the interspecific level. We use dan experimental approach to evaluate the relationship between body size and knee posture during walking in humans at specific gait events and at each percentage point of normalized stance phase. We detected significant negative correlation between knee flexion angle and body mass at the second peak of the vertical ground reaction force, but, in contrast to a previous study, we found no singnificant relationship between flexion angle and lower limb length. Although not significant, strengthened correlations betweenknee flexion angle and lower limb length were detected at late stance phase and these coincide well with the strengthened correlations between knee flexion angle and body mass. Our findings support the view that body size influences limb posture during locomotion even on the intraspecific level. In humans, langer individuals tend to use more extended knee postures in late stance of walking than do smaller individuals."@en . "5"^^ . "61" . . . "[3D49CE0EE350]" . "CZ - \u010Cesk\u00E1 republika" . "141343" . "RIV/49366378:_____/12:#0000121" . . "RIV/49366378:_____/12:#0000121!RIV13-MO0-49366378" . "Despite abundant knowledga about the relationship between body (i.e., body mass, lover limb length) and limb posture during locomotion on the level of interpecies variability, little is known about variation on the interspecific level. We use dan experimental approach to evaluate the relationship between body size and knee posture during walking in humans at specific gait events and at each percentage point of normalized stance phase. We detected significant negative correlation between knee flexion angle and body mass at the second peak of the vertical ground reaction force, but, in contrast to a previous study, we found no singnificant relationship between flexion angle and lower limb length. Although not significant, strengthened correlations betweenknee flexion angle and lower limb length were detected at late stance phase and these coincide well with the strengthened correlations between knee flexion angle and body mass. Our findings support the view that body size influences limb posture during locomotion even on the intraspecific level. In humans, langer individuals tend to use more extended knee postures in late stance of walking than do smaller individuals." . . . . "Influence of body mass and lower limb lengh on knee flexion angle during walking in humens"@en . "I, P(OSCASRI200901), Z(MO0CASRI00501)" .