Inhibition of muscle sympathetic nerve activity in premenopausal women: responses to sudden sensory stimuli predict responses to mental stress

Inhibition of muscle sympathetic nerve activity in premenopausal women: responses to sudden sensory stimuli predict responses to mental stress

Muscle sympathetic neural responses to sudden sensory stimuli in premenopausal women showed interindividual differences and the distribution of sympathetic responses was similar to that previously found in men. Despite this similarity, the associated differences in transient blood pressure responses...

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Bibliographic Details
Published in:Journal of applied physiology (1985) Vol. 137; no. 3; pp. 757 - 764
Main Authors: Lundblad, Linda C., Eskelin, John J., Karlsson, Tomas, Elam, Mikael
Format: Journal Article
Language:English
Published: Bethesda American Physiological Society 01-09-2024
Subjects:
Blood pressure
Electrical stimuli
Excitation
Fysiologi
Men
Menopause
mental stress
microneurography
muscle sympathetic nerve activity
Muscles
Nerves
Peroneal nerve
Physiology
Psychological stress
Sensory evaluation
Sensory stimulation
Sensory stimuli
Sympathetic nerves
Women
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Summary:Muscle sympathetic neural responses to sudden sensory stimuli in premenopausal women showed interindividual differences and the distribution of sympathetic responses was similar to that previously found in men. Despite this similarity, the associated differences in transient blood pressure responses seen in men were not found in women. The increased risk of developing hypertension in postmenopausal women warrants an investigation of whether these response patterns are altered after menopause. Muscle sympathetic nerve responses to sudden sensory stimuli have been elucidated in several studies on young healthy men, showing reproducible interindividual differences ranging from varying degrees of inhibition to no significant change, with very few subjects showing significant excitation. These individual response patterns have been shown to predict the neural response to mental stress and coupled blood pressure responses. The aim of this study was to investigate whether premenopausal healthy women show similar neural and blood pressure responses. Muscle sympathetic nerve recordings from the peroneal nerve were performed in 34 healthy women (mean age 27 ± 8 yr) during sudden sensory stimuli (electrical stimuli to a finger) and 3 min of mental stress (forced arithmetics). After sensory stimuli, 18 women showed varying degrees of inhibition of muscle sympathetic nerve activity (burst amplitude mean reduction 60%, range 34–100%). The remaining 16 showed no inhibition (mean 5%, range –31 to 28%; one subject exhibiting excitation). During 3 min of mental stress, the normalized change in burst incidence for muscle sympathetic nerve activity correlated with the percentage change of muscle sympathetic nerve activity induced by the sensory stimulation protocol (r = 0.64, P = 0.0042). In contrast to men, the neural responses did not predict changes in blood pressure. Thus, premenopausal females show a similar range of individual differences in defense-related muscle sympathetic neural responses as men, but no associated differences in blood pressure responses. Whether these patterns are unchanged after menopause remains to be investigated. NEW & NOTEWORTHY Muscle sympathetic neural responses to sudden sensory stimuli in premenopausal women showed interindividual differences and the distribution of sympathetic responses was similar to that previously found in men. Despite this similarity, the associated differences in transient blood pressure responses seen in men were not found in women. The increased risk of developing hypertension in postmenopausal women warrants an investigation of whether these response patterns are altered after menopause.
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content type line 23
ISSN:8750-7587
1522-1601
1522-1601
DOI:10.1152/japplphysiol.00748.2023