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在脊椎动物骨骼肌纤维强直收缩期间通过拉伸增强机械性能。

Enhancement of mechanical performance by stretch during tetanic contractions of vertebrate skeletal muscle fibres.

作者信息

Edman K A, Elzinga G, Noble M I

出版信息

J Physiol. 1978 Aug;281:139-55. doi: 10.1113/jphysiol.1978.sp012413.

DOI:10.1113/jphysiol.1978.sp012413
PMID:309001
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1282688/
Abstract
  1. Single fibres from the semitendinosus muscle of Rana temporaria were stretched during fused tetanic contractions and tension and sarcomere length (laser diffraction) responses were recorded. 2. Stretch of the fibres caused proportional increases in length of the sarcomeres. The force increased to a plateau value which was maintained during stretch or increased to a plateau value which was maintained during stretch or increased slightly. 3. The plateau value of force during stretch was dependent upon the velocity of stretch, was independent of the amplitude of stretch and was not proportional to overlap of thick and thin filaments. 4. There was enhancement of force after stretch compared with that produced at the same sarcomere length during isometric tetani. This force enhancement was independent of the velocity at which the stretch had been applied. 5. At sarcomere lengths between 1.9 and 2.3 micrometer, the force enhancement after stretch declayed rapidly, was independent of amplitude of stretch above approximately 25 nm per sarcomere not associated with a shift of the force--velocity curve. At sarcomere lengths above 2.3 micrometer the force enhancement after stretch decayed very slowly and was still present after 4 sec in long tetani. 6. At sarcomere lengths above 2.3 micrometer, force enhancement after stretch increased with amplitude of stretch and increased for any given stretch amplitude with sarcomere length. The force recorded after stretch was thus not proportional to overlap of thick and thin filaments. 7. At sarcomere lengths above 2.3 micrometer, the force enhancement after stretch was associated with a shift towards higher force value of the force--velocity curve. The velocity of shortening and zero load (V max) derived by hyperbolic extrapolation of the force--velocity curve was not affected. 8. Tension enhancement during and after stretch has a stabilizing effect in preventing dispersion of sarcomere length, particularly on the descending limb of the length--tension curve.
摘要
  1. 在融合强直收缩期间,对林蛙半腱肌的单根肌纤维进行拉伸,并记录张力和肌节长度(激光衍射)反应。2. 纤维的拉伸导致肌节长度成比例增加。力增加到一个平台值,该值在拉伸过程中保持不变,或者增加到一个在拉伸过程中保持的平台值,或者略有增加。3. 拉伸过程中力的平台值取决于拉伸速度,与拉伸幅度无关,且与粗细肌丝的重叠不成比例。4. 与等长强直收缩期间相同肌节长度下产生的力相比,拉伸后力有所增强。这种力的增强与施加拉伸的速度无关。5. 在肌节长度为1.9至2.3微米之间时,拉伸后的力增强迅速衰减,与每个肌节约25纳米以上的拉伸幅度无关,且与力-速度曲线的移位无关。在肌节长度超过2.3微米时,拉伸后的力增强衰减非常缓慢,在长时间强直收缩4秒后仍存在。6. 在肌节长度超过2.3微米时,拉伸后的力增强随拉伸幅度增加,并且对于任何给定的拉伸幅度,随肌节长度增加。因此,拉伸后记录的力与粗细肌丝的重叠不成比例。7. 在肌节长度超过2.3微米时,拉伸后的力增强与力-速度曲线向更高力值的移位相关。通过力-速度曲线的双曲线外推得出的缩短速度和零负荷(V max)不受影响。8. 拉伸期间和之后的张力增强在防止肌节长度分散方面具有稳定作用,特别是在长度-张力曲线的下降支上。
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6c88/1282688/73cde3bff7bd/jphysiol00764-0160-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6c88/1282688/73cde3bff7bd/jphysiol00764-0160-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6c88/1282688/73cde3bff7bd/jphysiol00764-0160-a.jpg

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本文引用的文献

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2
The relation between the work performed and the energy liberated in muscular contraction.肌肉收缩时所做的功与释放的能量之间的关系。
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Changes of energy in a muscle during very slow stretches.肌肉在非常缓慢伸展过程中的能量变化。
Pflugers Arch. 2023 Apr;475(4):421-435. doi: 10.1007/s00424-023-02794-z. Epub 2023 Feb 15.
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Numerical instability of Hill-type muscle models.Hill 型肌肉模型的数值不稳定性。
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Residual force enhancement is affected more by quadriceps muscle length than stretch amplitude.残余肌力增强受股四头肌长度的影响大于拉伸幅度。
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Fast stretching of skeletal muscle fibres abolishes residual force enhancement.快速拉伸骨骼肌纤维会消除残余力增强。
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From fibre to function: are we accurately representing muscle architecture and performance?从纤维到功能:我们是否准确地描述了肌肉结构和性能?
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