Training implications of maximal forces on a computer-controlled and motor-driven leg press by age group, sex, footplate direction, and speed

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• 作者：Brian W. Schulz^a ; ^{Brian.Schulz@va.gov} ; ^{bwschulz@gmail.com} ; Stephanie Hart-Hughes^a ; Mark T. Gordon^b ; Tatjana Bulat^a ; ^c
• 关键词：ROM ; Range of motion
• 刊名：Experimental Gerontology
• 出版年：2012
• 期刊代码：99_05315565
• 类别：med
• 出版时间：April, 2012
• 卷：47
• 期：4
• 页码：295-303
• 文件大小：751 K

摘要

Strength training that overloads lengthening muscle fibers may result in greater strength gains with less effort and perceived exertion than conventional training modalities. This study evaluates a device capable of this overloading (a motor-driven and computer-controlled leg press) to develop recommendations for future training interventions. Unimpaired younger and older men and women (7/group, total n = 28) performed three maximal-effort trials for both directions of footplate motion (IN and OUT) at three speed profiles (knee rotation speeds of 15, 25, and 35掳/s) on a motor-driven and computer-controlled leg press. Normalized forces were tested for effects of age group, sex, direction of footplate motion, and knee rotation speed. Peak forces were 57%greater for younger and 20%greater for IN. Trends of greater IN relative to OUT forces (IN overloading) were present in women, but this was due to an inverse correlation between strength and IN overloading that was independent of age group and sex. Leg press strength training on a device that is capable of overloading lengthening muscle fibers is a promising new training method that appears to have the greatest potential benefits for the weakest participants. Training target profiles on the device tested and others similar to it should be set based on participant-specific maximums across the ROM in both IN and OUT directions at a speed in the middle of the range to be trained.