Biomechanical properties of the human ankle in relation to passive stretch

doi:10.1016/0021-9290(89)90214-5

Journal of Biomechanics

Volume 22, Issues 11–12, 1989, Pages 1129-1132

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Abstract

Viscous/plastic properties were investigated in the passive tissue opposing dorsiflexion of the human ankle. The foot was rotated (dorsiflexed) and fixed. Due to viscous/plastic properties, the passive torque declined with time. After 300 s, torque, relative to the initial torque at 0 s, had fallen by 22.7%±2.6% (mean ± 1S.D.), as an expression of the relative importance of the viscous/plastic tissue properties for the passive torque. By a peel-off technique the number of different tissue elements with viscous/plastic properties was found to be at least three. After 100 s, all but one of these elements had yielded completely. Viscous/plastic properties were unchanged by stretching when measured 90 min after a single stretching program and when measured 24 h after stretching procedures had been performed twice a day for three weeks.

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Biomechanical properties of the human ankle in relation to passive stretch

Abstract

Int. Rev. Connective Tissue Res.

The relation of isometric tension to length in skeletal muscle

J. cell. comp. Physiol.

Tensile force in total striated muscle, isolated fibre and sarcolemma

Acta physiol. scand.

The frequency of muscle tightness and injuries in soccer players

Am. J. Sports Med.

The avoidability of soccer injuries

Int. J. Sports Med.

Muscle strains: prevention and treatment

Phys. Sports Med.

Relative importance of various tissues in joint stiffness

J. appl. Physiol.

Injuries to knee ligaments. Relationship to looseness and tightness in football players

J. Am. Med. Ass.

Flexibility training: Ballistic, static or proprioceptive neuromuscular facilitation

Archs. phys. Med. Rehabil.