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Literature DB >> 2317547

New insights into the behavior of muscle during active lengthening.

Abstract

A muscle fiber was modeled as a series-connected string of sarcomeres, using an A. V. Hill type model for each sarcomere and allowing for some random variation in the properties of the sarcomeres. Applying stretches to this model led to the prediction that lengthening of active muscle on or beyond the plateau of the length tension curve will take place very nonuniformly, essentially by rapid, uncontrolled elongation of individual sarcomeres, one at a time, in order from the weakest toward the strongest. Such a "popped" sarcomere, at least in a single fiber, will be stretched to a length where there is no overlap between thick and thin filaments, and the tension is borne by passive components. This prediction allows modeling of many results that have previously been inexplicable, notably the permanent extra tension after stretch on the descending limb of the length tension curve, and the continued rise of tension during a continued stretch.

Mesh：

Year: 1990 PMID： 2317547 PMCID： PMC1280663 DOI： 10.1016/S0006-3495(90)82524-8

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

25 in total

9. Force enhancement following muscle stretch of electrically stimulated and voluntarily activated human adductor pollicis.

Authors: Hae-Dong Lee; Walter Herzog
Journal: J Physiol Date: 2002-11-15 Impact factor: 5.182

10. The influence of fatigue on damage from eccentric contractions in the gastrocnemius muscle of the cat.

Authors: D L Morgan; J E Gregory; U Proske
Journal: J Physiol Date: 2004-10-14 Impact factor: 5.182

New insights into the behavior of muscle during active lengthening.

1. The maximum length for contraction in vertebrate straiated muscle.

2. The mechanisms of force enhancement during constant velocity lengthening in tetanized single fibres of frog muscle.

3. Muscle stiffness changes during enhancement and deficit of isometric force in response to slow length changes.

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

5. The effect on tension of non-uniform distribution of length changes applied to frog muscle fibres.

6. Intersarcomere dynamics during fixed-end tetanic contractions of frog muscle fibres.

7. Ultrastructural changes after concentric and eccentric contractions of human muscle.

8. The variation in isometric tension with sarcomere length in vertebrate muscle fibres.

9. Eccentric exercise-induced injury to rat skeletal muscle.

10. Malleability of the motor system: a comparative approach.

1. Effect of stretching on undamped elasticity in muscle fibres from Rana temporaria.

Review 2. Exercise-induced muscle damage and potential mechanisms for the repeated bout effect.

3. History-dependent mechanical properties of permeabilized rat soleus muscle fibers.

4. Passive stretching does not protect against acute contraction-induced injury in mouse EDL muscle.

5. Energy transfer during stress relaxation of contracting frog muscle fibres.

Review 6. Muscle damage from eccentric exercise: mechanism, mechanical signs, adaptation and clinical applications.

7. Passive mechanical properties of the medial gastrocnemius muscle of the cat.

8. Energy storage during stretch of active single fibres from frog skeletal muscle.

9. Force enhancement following muscle stretch of electrically stimulated and voluntarily activated human adductor pollicis.

10. The influence of fatigue on damage from eccentric contractions in the gastrocnemius muscle of the cat.