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Soreness-related changes in three-dimensional running biomechanics following eccentric knee extensor exercise
Authors:Max R. Paquette  Shelby A. Peel  Brian K. Schilling  Dan A. Melcher  Richard J. Bloomer
Affiliation:1. The University of Memphis, School of Health Studies, Memphis, TN, USAmrpqette@memphis.edu;3. The University of Memphis, School of Health Studies, Memphis, TN, USA;4. Department of Kinesiology and Nutrition Sciences, The University of Las Vegas, Las Vegas, NV, USA
Abstract:Runners often experience delayed onset muscle soreness (DOMS), especially of the knee extensors, following prolonged running. Sagittal knee joint biomechanics are altered in the presence of knee extensor DOMS but it is unclear how muscle soreness affects lower limb biomechanics in other planes of motion. The purpose of this study was to assess the effects of knee extensor DOMS on three-dimensional (3D) lower limb biomechanics during running. Thirty-three healthy men (25.8?±?6.8 years; 84.1?±?9.2?kg; 1.77?±?0.07?m) completed an isolated eccentric knee extensor damaging protocol to elicit DOMS. Biomechanics of over-ground running at a set speed of 3.35?m?s?1±5% were measured before eccentric exercise (baseline) and, 24?h and 48?h following exercise in the presence of knee extensor DOMS. Knee flexion ROM was reduced at 48?h (P?=?0.01; d?=?0.26), and peak knee extensor moment was reduced at 24?h (P?=?0.001; d?=?0.49) and 48?h (P?d?=?0.68) compared to baseline. Frontal and transverse plane biomechanics were unaffected by the presence of DOMS (P?>?0.05). Peak positive ankle and knee joint powers and, peak negative knee joint power were all reduced from baseline to 24?h and 48?h (P?
Keywords:DOMS  running  kinematics  kinetics  stiffness
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