Determining the force-length-velocity relations of the quadriceps muscles:I. Anatomical and geometric parameters

The purpose of this study was to determine the coordinates of the origin an d insertion, muscle volumes, lengths, lines of action, and effective moment arm of the quadriceps muscles in vivo using magnetic resonance imaging (MR I) and radiography for a pilot study involving musculoskeletal modeling. Tw o magnetic resonance scans were performed, and axial images were obtained f or the left thigh of a female subject in the anatomical position to measure muscle volume, coordinates of the origin and insertion, and muscle belly l ength at the anatomical position of each quadriceps muscle. Six knee radiog raphs were used to determine the effective moment arm of the quadriceps for ce at different knee flexion angles. A combination of MRT and radiography d ata was used to compute the muscle lengths at different knee flexion angles . The coordinates of the vastus lateralis, muscle volumes of individual qua driceps muscles, and effective moment arms were clearly different from the corresponding values from cadaver data reported in the literature. These co mparisons demonstrate the advantages of using personalized muscle parameter s instead of those collected from cadavers and dry-bone specimens.