Elsevier, Journal of Orthopaedic Translation, 3(3), p. 142-151, 2015
DOI: 10.1016/j.jot.2015.04.001
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Background/Objective: The greatest forces experienced by bones result from muscular contractionsdmuscles produce most force in high-velocity eccentric contractions. Bouncing movements, e.g., sprinting or hoppingdwhere such contractions occurdare highly beneficial for lower limb bones. However, there is a growing body of evidence that torsional stresses are highly osteogenic. Sports in which frequent quick turning occursdhence large torsional stresses can be expectedde.g., tennis, may also improve bone strength even in the absence of large ground reaction and muscle forces. Methods: To investigate the relative effects of bouncing and turning movements on bones, we recruited 47 older men (mean age 62.4 ± 12.9 years). They were competitive sprinters (representing exposure to bouncing movement), competitive tennis players (turning movements), and inactive controls. Peripheral quantitative computed tomography scans of tibial diaphysis at 66% distaleproximal length were taken; muscle sizes from peripheral quantitative computed tomography and countermovement jump performance were also examined. Results: Bone strength of tennis players was clearly greater than that of controls (23% greater bone mass; p 0.5). Material eccentricity analysis suggests that torsional stresses may be a significant adaptive stimulus to tibial bone.