温度对人体股四头肌连续等长收缩直至疲劳过程中肌肉能量代谢及耐力的影响。
Effect of temperature on muscle energy metabolism and endurance during successive isometric contractions, sustained to fatigue, of the quadriceps muscle in man.
作者信息
Edwards R H, Harris R C, Hultman E, Kaijser L, Koh D, Nordesjö L O
出版信息
J Physiol. 1972 Jan;220(2):335-52. doi: 10.1113/jphysiol.1972.sp009710.
Abstract
- The effects of altered tissue temperature on muscle metabolism during successive isometric contractions, sustained to fatigue, have been studied in the quadriceps muscle of man by combining biochemical analyses of metabolites in needle biopsy samples with measurements of endurance time with a force of 2/3 maximum voluntary contraction. Fatigue and recovery were observed repeatedly in a series of seven contractions at intervals of 20 sec, following immersion of the test leg in water at 12, 26 or 44 degrees C for 45 min. Muscle temperatures corresponding to these water temperatures were 22.5, 32.6 and 38.6 degrees C respectively.2. Increased levels of several glycolytic intermediates at rest in the heated muscle suggested an increased rate of glycolysis. ATP and phosphoryl creatine were lower at the end of the first contraction and the calculated rate of ATP utilization (including the contribution from anaerobic glycolysis) was highest in the heated nuscle.3. Significantly shorter endurance times were found for the heated muscle. These could not be attributed to depletion of local energy resources in muscle. Fatigue may be due to a reduction in the rate of regeneration of ATP from anaerobic glycolysis below that needed to maintain the contraction force. Lower values for the ratio of fructose 1,6-diphosphate: fructose 6-phosphate at the end of contractions, particularly at the highest temperature, are compatible with the hypothesis that there is partial inhibition of the rate controlling enzyme phosphofructokinase, possibly due to the accumulation of hydrogen ions in muscle.
摘要
通过对针吸活检样本中的代谢物进行生化分析,并结合以最大自主收缩力的2/3进行耐力时间测量,研究了在连续等长收缩直至疲劳过程中,人体股四头肌组织温度改变对肌肉代谢的影响。在将测试腿浸入12、26或44摄氏度的水中45分钟后,以20秒的间隔在一系列七次收缩中反复观察疲劳和恢复情况。与这些水温相对应的肌肉温度分别为22.5、32.6和38.6摄氏度。
受热肌肉在静息状态下几种糖酵解中间产物水平升高,表明糖酵解速率增加。在第一次收缩结束时,三磷酸腺苷(ATP)和磷酸肌酸含量较低,并且计算得出的ATP利用速率(包括无氧糖酵解的贡献)在受热肌肉中最高。
发现受热肌肉的耐力时间明显缩短。这些不能归因于肌肉中局部能量资源的耗尽。疲劳可能是由于无氧糖酵解产生ATP的再生速率降低到维持收缩力所需速率以下。在收缩结束时,尤其是在最高温度下,1,6 - 二磷酸果糖与6 - 磷酸果糖的比值较低,这与以下假设相符:可能由于肌肉中氢离子的积累,对限速酶磷酸果糖激酶有部分抑制作用。
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