Miura Akira, Endo Masako, Sato Hironori, Sato Haruhiko, Barstow Thomas J, Fukuba Yoshiyuki
Department of Exercise Science and Physiology, Hiroshima Prefectural Women's University, 1-1-71, Ujina-Higashi, Minami-ku, Hiroshima, 734-8558 Japan.
Eur J Appl Physiol. 2002 Jul;87(3):238-44. doi: 10.1007/s00421-002-0623-3. Epub 2002 May 15.
For high-intensity cycle ergometer exercise, the relationship between power output ( P) and its tolerable duration ( t) has been well characterized by the hyperbolic relationship: ( P- theta;(F)). t=W', where theta;(F) has been termed the "critical power" or "fatigue threshold". The curvature constant (W') reflects a constant amount of work which can be performed above theta;(F), and it may be regarded as a muscle energy store. The relationship of this energy store to muscle mass is not known. Therefore, the purpose of this study was to determine the relationships among W', accumulated peak oxygen deficit (accumulated peak O(2)-deficit), and muscle cross-sectional area (CSA) of the thigh for high-intensity cycle ergometry in humans. A group of 17 healthy male subjects (aged 21-41 years) participated in this study. The theta;(F) and W' of the P- t hyperbolic relationship and the accumulated peak O(2)-deficit was calculated by standard procedures. The CSA of muscle, fat and bone in the right thigh were measured using ultrasonography. The mean (SD) of theta;(F), W', accumulated peak O(2)-deficit, and muscle CSA of the thigh were 200.0 (17.8) W, 12.60 (2.94) kJ, 2.29 (0.41) l, and 185.3 (22.6) cm(2), respectively. The muscle CSA of the thigh was positively correlated with W' ( r=0.59, P<0.01) and with accumulated peak O(2)-deficit ( r=0.54, P<0.05). The relationship between W' and accumulated peak O(2)-deficit also showed a positive correlation ( r=0.63, P<0.005). Our results indicated that W' derived from the P- t hyperbolic curve as anaerobic working capacity is related to the CSA of muscle.
对于高强度自行车测力计运动,功率输出(P)与其可耐受持续时间(t)之间的关系已通过双曲线关系得到很好的描述:(P - θ(F))·t = W',其中θ(F)被称为“临界功率”或“疲劳阈值”。曲率常数(W')反映了在θ(F)之上可完成的恒定工作量,它可被视为一种肌肉能量储备。这种能量储备与肌肉质量的关系尚不清楚。因此,本研究的目的是确定人体高强度自行车测力计运动中W'、累积峰值氧亏缺(累积峰值O₂ - 亏缺)和大腿肌肉横截面积(CSA)之间的关系。一组17名健康男性受试者(年龄21 - 41岁)参与了本研究。通过标准程序计算P - t双曲线关系的θ(F)和W'以及累积峰值O₂ - 亏缺。使用超声测量右大腿肌肉、脂肪和骨骼的CSA。大腿的θ(F)、W'、累积峰值O₂ - 亏缺和肌肉CSA的平均值(标准差)分别为200.0(17.8)W、12.60(2.94)kJ、2.29(0.41)l和185.3(22.6)cm²。大腿肌肉CSA与W'呈正相关(r = 0.59,P < 0.01),与累积峰值O₂ - 亏缺呈正相关(r = 0.54,P < 0.05)。W'与累积峰值O₂ - 亏缺之间的关系也呈正相关(r = 0.63,P < 0.005)。我们的结果表明,作为无氧工作能力从P - t双曲线曲线得出的W'与肌肉CSA相关。