H. Broman scite author profile

Reports on measurement of muscle fiber conduction velocity in humans are scarce. Inferences on the behavior of conduction velocity have been drawn from the behavior of myoelectric spectral parameters. The present report contains information on conduction velocity and spectral parameters studied at various muscle contraction levels and during and after sustained contractions. The following results have been obtained from measurements on the tibialis anterior muscle. Conduction velocity demonstrated a positive correlation with limb circumference and with muscle force output. Thus we conclude that the diameters of the muscle fibers of high-threshold motor units are, on an average, larger than those of low-threshold motor units. The study of a sustained contraction and on the recovery after such a contraction revealed that conduction velocity consistently decreased during a strong contraction as did various myoelectric spectral parameters. However, the spectral parameters decreased approximately twice as much as did the conduction velocity, and we conclude that factors other than the conduction velocity along the muscle fibers affect the myoelectric signal during a high-level contraction. These other factors appertain to changes in the firing statistics of individual motor units as well as the correlation between the firings of different motor units.

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A Note on the Noninvasive Estimation of Muscle Fiber Conduction Velocity

Broman

Bilotto

Luca

1985

IEEE Trans. Biomed. Eng.

126

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Electromyographic studies of the lumbar trunk musculature during the development of axial torques

Pope

Andersson

Broman

et al. 1986

Journal Orthopaedic Research

107

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Summary:The myoelectric activity of selected trunk muscles at the L3 level was studied during the development of a controlled isometric axial torque. Muscle activity was recorded with surface electrodes bilaterally over the erector spinae muscles, the rectus abdominus, the obliques externus, and the obliques internus. Subjects applied graded isometric axial torque efforts with the addition of a Valsalva. The largest myoelectric activities were recorded over the obliques externus and internus. The side of the muscle developing the torque did show the greatest myoelectric activity, but considerable antagonistic activity was also present. Neither the rectus abdominus nor the internal oblique muscles showed any difference from side to side. The calculated forces in the rectus abdominus and the erectores spinae were high, suggesting that a considerable amount of the muscle contraction was used to control the posture. A Valsalva did not decrease myoelectric activity, but did increase the torque developed.

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Back muscle fatigue and seated whole body vibrations: an experimental study in man

Hansson

Magnusson

Broman

1991

Clinical Biomechanics

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Motor unit recruitment and firing rates interaction in the control of human muscles

1985

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H. Broman

Myoelectric signal conduction velocity and spectral parameters: influence of force and time

A Note on the Noninvasive Estimation of Muscle Fiber Conduction Velocity

Electromyographic studies of the lumbar trunk musculature during the development of axial torques

Back muscle fatigue and seated whole body vibrations: an experimental study in man

Motor unit recruitment and firing rates interaction in the control of human muscles

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