Qazi S L, Rikkonen T, Kröger H, Honkanen R, Isanejad M, Airaksinen O, Sirola J
Kuopio Musculoskeletal Research Unit (KMRU), Mediteknia Building, University of Eastern Finland, P.O. Box 1627, 70211 Kuopio, Finland.
J Musculoskelet Neuronal Interact. 2017 Sep 1;17(3):192-196.
400 healthy women aged 20-40 were recruited as a reference population. Body composition, limb length, grip strength and knee extension strength were measured. New relative muscle mass indexes were computed by adjusting upper limb muscle mass for upper limb length (ULRSMI) and lower limb muscle mass for lower limb length (LLRSMI).
Height correlated strongest with all muscle mass measures. Height had the highest R² values for predicting variability in appendicular skeletal muscle mass (0.33), upper limb skeletal muscle mass (0.20), lower limb skeletal muscle mass (0.34) and total skeletal muscle mass (0.36). Correlation of relative skeletal muscle mass index (RSMI) with grip and knee extension strength (r=0.47 and 0.43) was higher when compared with correlation of ULRSMI and LLRSMI with these measures.
Compared to limb length, height correlates better with regional and total muscle mass. Muscle mass adjusted for height correlates better with grip strength and knee strength when compared with muscle mass adjusted for limb length.
1)研究肢体长度是否比身高能更好地解释附属肌肉质量和总肌肉质量的变异性;2)经肢体长度而非身高调整后的肌肉质量与握力和膝关节伸展力量的相关性是否更好。
招募400名年龄在20 - 40岁的健康女性作为参考人群。测量身体成分、肢体长度、握力和膝关节伸展力量。通过将上肢肌肉质量除以上肢长度计算新的相对肌肉质量指数(上肢相对肌肉质量指数,ULRSMI),将下肢肌肉质量除以下肢长度计算新的相对肌肉质量指数(下肢相对肌肉质量指数,LLRSMI)。
身高与所有肌肉质量测量指标的相关性最强。在预测附属骨骼肌质量(0.33)、上肢骨骼肌质量(0.20)、下肢骨骼肌质量(0.34)和总骨骼肌质量(0.36)的变异性方面,身高具有最高的R²值。与ULRSMI和LLRSMI与这些指标的相关性相比,相对骨骼肌质量指数(RSMI)与握力和膝关节伸展力量的相关性更高(r = 0.47和0.43)。
与肢体长度相比,身高与局部和总肌肉质量的相关性更好。与经肢体长度调整后的肌肉质量相比,经身高调整后的肌肉质量与握力和膝关节力量的相关性更好。