十年有氧耐力训练：纤维类型转变的组织学证据。

A decade of aerobic endurance training: histological evidence for fibre type transformation.

作者信息

Thayer R, Collins J, Noble E G, Taylor A W

机构信息

Department of Biology, Lakehead University Thunder Bay, Ontario, Canada.

出版信息

J Sports Med Phys Fitness. 2000 Dec;40(4):284-9.

PMID:11296997

Abstract

BACKGROUND

Researchers employing a variety of training methods have demonstrated a fast-to-slow fibre transformation in animal skeletal muscle. The observation as to whether this occurs in exercise trained humans is limited and equivocal.

EXPERIMENTAL DESIGN

to examine this issue, skeletal muscle from seven subjects who had participated in a decade or more of high intensity aerobic training (DT) and six nontrained (NT) subjects was obtained by muscle biopsy from the vastus lateralis muscle (VL) and subjected to a modified myofibrillar ATPase technique to identify muscle fibre types. Muscle tissue was histochemically treated by exposure to an alkaline preincubation (pH 9.9), an acid preincubation (pH 4.3 or 4.6) and the formate-KCI preincubation buffer (pH 4.54), previously employed in animal studies.

RESULTS

The formate-KCl preincubation medium identified all major fibre types at a single pH in human subjects. The percentage of type I fibres in DT was 70.9% vs 37.7% in NT (p<0.01), while the type IIa fibres in DT (25.3%) was much lower (p<0.01) than NT (51.8%). Surprisingly, type IIa fibres in the DT group displayed lesser oxidative staining intensity (p<0.01) than type IIa fibres from the NT group. Mean cross-sectional area of type I fibres for DT (6233.9+/-1421.7 microm2) was greater (p<0.05) than either type I (5746.8+/-1135.2 microm2) or II (5693.5+/-1214.6 microm2) from NT.

CONCLUSIONS

The results revealed that endurance training may promote a transition from type II to type I muscle fibre types and occurs at the expense of the type II fibre population.

摘要

背景

采用多种训练方法的研究人员已在动物骨骼肌中证实了快肌纤维向慢肌纤维的转变。关于这种转变在经过运动训练的人类中是否发生的观察结果有限且存在争议。

实验设计

为研究此问题，通过对股外侧肌（VL）进行肌肉活检，获取了7名参与十年或更长时间高强度有氧训练（DT）的受试者以及6名未训练（NT）受试者的骨骼肌，并采用改良的肌原纤维ATP酶技术来识别肌纤维类型。肌肉组织经组织化学处理，分别暴露于碱性预温育（pH 9.9）、酸性预温育（pH 4.3或4.6）以及先前在动物研究中使用的甲酸盐 - 氯化钾预温育缓冲液（pH 4.54）。

结果

甲酸盐 - 氯化钾预温育培养基在单一pH值下可识别出人类受试者的所有主要纤维类型。DT组中I型纤维的百分比为70.9%，而NT组为37.7%（p<0.01），DT组中的IIa型纤维（25.3%）远低于NT组（51.8%）（p<0.01）。令人惊讶的是，DT组中的IIa型纤维比NT组中的IIa型纤维显示出更低的氧化染色强度（p<0.01）。DT组I型纤维的平均横截面积（6233.9±1421.7平方微米）大于NT组的I型纤维（5746.8±1135.2平方微米）或II型纤维（5693.5±1214.6平方微米）（p<0.05）。

结论

结果表明，耐力训练可能促进从II型肌纤维向I型肌纤维类型的转变，且这种转变是以II型纤维数量减少为代价的。

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十年有氧耐力训练：纤维类型转变的组织学证据。

A decade of aerobic endurance training: histological evidence for fibre type transformation.

作者信息

Thayer R, Collins J, Noble E G, Taylor A W

机构信息

Department of Biology, Lakehead University Thunder Bay, Ontario, Canada.

出版信息

J Sports Med Phys Fitness. 2000 Dec;40(4):284-9.

PMID:11296997

Abstract

BACKGROUND

EXPERIMENTAL DESIGN

RESULTS

CONCLUSIONS

The results revealed that endurance training may promote a transition from type II to type I muscle fibre types and occurs at the expense of the type II fibre population.

摘要

背景

实验设计

结果

结论

结果表明，耐力训练可能促进从II型肌纤维向I型肌纤维类型的转变，且这种转变是以II型纤维数量减少为代价的。

十年有氧耐力训练：纤维类型转变的组织学证据。

A decade of aerobic endurance training: histological evidence for fibre type transformation.

作者信息

机构信息

出版信息

BACKGROUND

EXPERIMENTAL DESIGN

RESULTS

CONCLUSIONS

背景

实验设计

结果

结论

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十年有氧耐力训练：纤维类型转变的组织学证据。

A decade of aerobic endurance training: histological evidence for fibre type transformation.

作者信息

机构信息

出版信息

BACKGROUND

EXPERIMENTAL DESIGN

RESULTS

CONCLUSIONS

背景

实验设计

结果

结论

相似文献

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