Heart rate at the onset of muscle contraction and during passive muscle stretch in humans: a role for mechanoreceptors

Previous evidence suggests that the heart rate (HR) increase observed with isometric exercise is dependent on different afferent mechanisms to those eliciting the increase in blood pressure (BP). Central command and muscle metaboreceptors have been shown to contribute to this differential effect. Ho...

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Bibliographic Details
Published in:The Journal of physiology 2002-05, Vol.540 (3), p.1095-1102
Main Authors: Gladwell, V. F., Coote, J. H.
Format: Article
Language:English
Subjects:
Adult
Blood Pressure
Cardiovascular System
Heart Rate - physiology
Humans
Isometric Contraction - physiology
Mechanoreceptors - physiology
Muscle Contraction - physiology
Muscle Spindles - physiology
Research Papers
Respiratory Mechanics
Vagus Nerve - physiology
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Summary:Previous evidence suggests that the heart rate (HR) increase observed with isometric exercise is dependent on different afferent mechanisms to those eliciting the increase in blood pressure (BP). Central command and muscle metaboreceptors have been shown to contribute to this differential effect. However, in experimental animals passive stretch of the hindlimb increases HR suggesting that small fibre mechanoreceptors could also have a role. This has not been previously shown in humans and was investigated in this study. Healthy human volunteers were instrumented to record BP, ECG, respiration, EMG of rectus femoris and gastrocnemius and contraction force of triceps surae. Voluntary isometric contraction of triceps surae elicited a significant HR change in the first three respiratory cycles at 40 % of maximum voluntary contraction whereas BP did not change significantly until after 30 s. This suggests that different mechanisms are involved in the initiation of the cardiovascular changes. Sustained passive stretch of triceps surae for 1 min, by dorsiflexion of the foot, caused a significant ( P < 0.05) increase in HR (5 ± 2.6 beats min −1 ) with no significant change in BP. A time domain measure of cardiac vagal activity was reduced significantly during passive stretch from 69.7 ± 12.9 to 49.6 ± 8.9 ms. Rapid rhythmic passive stretch (0.5 Hz for 1 min) was without significant effect suggesting that large muscle proprioreceptors are not involved. We conclude that in man small fibre muscle mechanoreceptors responding to stretch, inhibit cardiac vagal activity and thus increase HR. These afferents could contribute to the initial cardiac acceleration in response to muscle contraction.
ISSN:0022-3751
1469-7793
DOI:10.1113/jphysiol.2001.013486