The effect of lower-limb anatomy on knee loads during seated cycling. Ruby, P., Hull, M. L., Kirby, K. A., & Jenkins, D. W. Journal of Biomechanics, 25(10):1195–1207, October, 1992.
The effect of lower-limb anatomy on knee loads during seated cycling [link]Paper  doi  abstract   bibtex   
Overuse knee joint injuries are the primary injuries to cyclists. Overuse injuries have been intuitively linked to the anatomic structure of the foot because external loads are applied to the foot in cycling. Thus, the structure and function of the foot should dictate in part how the loads are transmitted to the knee joint. Therefore, it was hypothesized that patterns in knee loads are related to the anatomic structure of the foot. To test this hypothesis, peak knee loads (dependent variables) were related to anatomical variables (independent variables) through statistical analyses. This required first the detailed evaluation (i.e. measurement) of the anatomical structure of the foot and leg for 23 subjects. Next, three-dimensional knee joint loads were determined for a standardized riding condition. The results of the statistical analyses indicated that a group of cyclists with the most extreme inversion of the forefoot relative to the transverse plane developed significantly greater average posterior knee force and extensive knee moment. In addition, a number of anatomical variables significantly accounted for the variability in peak values of the posterior force, the extensive moment, the varus/valgus moment and the external axial moment. Based on these results, the hypothesis is accepted.
@article{ruby_effect_1992,
	title = {The effect of lower-limb anatomy on knee loads during seated cycling},
	volume = {25},
	issn = {0021-9290},
	url = {http://www.sciencedirect.com/science/article/pii/002192909290075C},
	doi = {10.1016/0021-9290(92)90075-C},
	abstract = {Overuse knee joint injuries are the primary injuries to cyclists. Overuse injuries have been intuitively linked to the anatomic structure of the foot because external loads are applied to the foot in cycling. Thus, the structure and function of the foot should dictate in part how the loads are transmitted to the knee joint. Therefore, it was hypothesized that patterns in knee loads are related to the anatomic structure of the foot. To test this hypothesis, peak knee loads (dependent variables) were related to anatomical variables (independent variables) through statistical analyses. This required first the detailed evaluation (i.e. measurement) of the anatomical structure of the foot and leg for 23 subjects. Next, three-dimensional knee joint loads were determined for a standardized riding condition. The results of the statistical analyses indicated that a group of cyclists with the most extreme inversion of the forefoot relative to the transverse plane developed significantly greater average posterior knee force and extensive knee moment. In addition, a number of anatomical variables significantly accounted for the variability in peak values of the posterior force, the extensive moment, the varus/valgus moment and the external axial moment. Based on these results, the hypothesis is accepted.},
	number = {10},
	urldate = {2016-09-28},
	journal = {Journal of Biomechanics},
	author = {Ruby, Patricia and Hull, M. L. and Kirby, Kevin A. and Jenkins, David W.},
	month = oct,
	year = {1992},
	pages = {1195--1207}
}

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