Pdf Estimating Thigh Skeletal Muscle Volume Using Multi Frequency

Pdf Estimating Thigh Skeletal Muscle Volume Using Multi Frequency Background the primary aim of this study was to investigate whether using the extracellular water intracellular water (ecw icw) index and phase angle combined with segmental bioimpedance analysis (bia) improved the model fitting of skeletal muscle volume (smv) estimation. the secondary aim was to compare the accuracy of segmental bia with that of ultrasound for estimating the quadriceps smv. Estimating thigh skeletal muscle volume using multi frequency segmental bioelectrical impedance analysis december 2021 journal of physiological anthropology 40(1).

Estimating Thigh Skeletal Muscle Volume Using Multi Fre The icw index using multi frequency segmental bia is more accurate than the 50 khz bi when estimating the alst of thigh muscles. ese data suggest that the icw index may be a useful independent factor for estimating thigh smv, when not accounting for electrical properties related to muscle quality, i.e. the ecw icw index and the phase angle. Doi: 10.1186 s40101 021 00263 z corpus id: 238234364; estimating thigh skeletal muscle volume using multi frequency segmental bioelectrical impedance analysis @article{taniguchi2021estimatingts, title={estimating thigh skeletal muscle volume using multi frequency segmental bioelectrical impedance analysis}, author={masashi taniguchi and yosuke yamada and masahide yagi and ryusuke nakai and. Segmental bia was applied to the thigh region, and data on the 50 khz bioelectrical impedance (bi) index, icw index, ecw icw index, and phase angle were obtained. the muscle thickness index was calculated as the product of the mid thigh muscle thickness, determined using ultrasound, and thigh length. In vivo values of the muscle electrical conductivity constant were computed using data from sbia and mri gathered in the right thigh of 10 healthy participants. lean muscle volume (lvbia ) was.

Estimating Thigh Skeletal Muscle Volume Using Multi Fre Segmental bia was applied to the thigh region, and data on the 50 khz bioelectrical impedance (bi) index, icw index, ecw icw index, and phase angle were obtained. the muscle thickness index was calculated as the product of the mid thigh muscle thickness, determined using ultrasound, and thigh length. In vivo values of the muscle electrical conductivity constant were computed using data from sbia and mri gathered in the right thigh of 10 healthy participants. lean muscle volume (lvbia ) was. C y 2= 10.3 × muscle thickness index 35.3; r = 0.543; see = 178.1 cm3, 9.7% title correction to: estimating thigh skeletal muscle volume using multi frequency segmental bioelectrical impedance analysis. A previous study has reported that the icw index using multi frequency segmental bia is more accurate than the 50 khz bi when estimating the alst of thigh muscles. these data suggest that the icw index may be a useful independent factor for estimating thigh smv, when not accounting for electrical properties related to muscle quality, i.e. the.