Sex differences in the vascular response to sympathetic activation during acute hypoxaemia

Jacob, Dain W.; Harper, Jennifer L.; Ivie, Clayton L.; Ott, Elizabeth; Limberg, Jacqueline K.

doi:10.1113/ep089461

Cited by 12 publications

(8 citation statements)

References 68 publications

(118 reference statements)

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“…In fact, there is compelling evidence of an upregulated β‐adrenergic responsiveness of the peripheral vasculature to sympathetic outflow in premenopausal women (Hart et al., 2011; Kneale et al., 2000) and, as such, the vasodilatory response to hypoxic exercise is higher in women compared to men (Casey et al., 2014). Moreover, Jacob and colleagues (2021) recently reported that acute hypoxia increases the vasoconstrictor response to other sympathoexcitatory stressors (e.g. cold pressor test) in men, but attenuates the response in women, a finding which further substantiates the current conclusion of the sex difference in the MMR:O 2 ‐CR interaction.…”

Section: Discussionsupporting

confidence: 79%

On the haemodynamic consequence of the chemoreflex and muscle mechanoreflex interaction in women and men: two tales, one story

Wan

Weavil

Thurston

et al. 2022

The Journal of Physiology

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Section: Discussionsupporting

confidence: 79%

On the haemodynamic consequence of the chemoreflex and muscle mechanoreflex interaction in women and men: two tales, one story

Wan

Weavil

Thurston

et al. 2022

The Journal of Physiology

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“…As a result, males may have greater vasodilatory reserve when faced with a potent local vasodilatory stimulus (i.e., local tissue hypoxia, explaining the twofold increase in vascular conductance when exposed to hypoxia we observed in males compared females ( than females, despite matched microvascular function (Kobayashi et al, 2015). Additionally, the forearm vascular response to hypoxia has been observed to be greater in males (Jacob et al, 2021), but this is not a finding shared by all studies (Casey et al, 2014).…”

Section: Isolated Effect Of Acute Hypoxiamentioning

confidence: 63%

Sex differences in the coronary vascular response to combined chemoreflex and metaboreflex stimulation in healthy humans

Boulet

Atwater

Brown

et al. 2021

Experimental Physiology

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Coronary hyperaemia is mediated through multiple signalling pathways, including local metabolic messengers and adrenergic stimulation. This study aimed to determine whether the coronary vascular response to adrenergic stressors is different between sexes in normoxia and hypoxia. Young, healthy participants (n = 32; 16F) underwent three randomized trials of isometric handgrip exercise followed by post-exercise circulatory occlusion (PECO) to activate the muscle metaboreflex. End-tidal P O 2 was controlled at (1) normoxic levels throughout the trial, (2) 50 mmHg for the duration of the trial (hypoxia trial), or (3) 50 mmHg only during PECO (mixed trial). Mean left anterior descending coronary artery velocity (LAD Vmean ; transthoracic Doppler echocardiography), heart rate and blood pressure were assessed at baseline and during PECO. In normoxia, there was no change in LAD Vmean or cardiac workload induced by PECO in males and females. Acute hypoxia increased baseline LAD Vmean to a greater extent in males compared with females (P < 0.05), despite a similar increase in cardiac workload. The change in LAD Vmean induced by PECO was similar between sexes in normoxia (P = 0.31), greater in males during the mixed trial (male: 12.8 (7.7) cm/s vs. female: 8.1 (6.3) cm/s; P = 0.02) and reduced in males but not females in acute hypoxia (male: −4.8 (4.5) cm/s vs. female: 0.8 (6.2) cm/s; P = 0.006). In summary, sex differences in the coronary vasodilatory response to hypoxia were observed, and metaboreflex activation during hypoxia caused a paradoxical reduction in coronary blood velocity in males but not females.

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“…This latter study was the first to directly compare hemodynamic stress responses in head muscles and included an extensive review of the recent literature, although head muscles were limited to the masseter muscle (Rashid and Roatta 2022 ). Limb muscles were no longer examined in the present study but sympathetic constrictory responses or increases in muscle sympathetic nerve activity in these muscles have consistently been reported in response to several stressors, including cold pressor test (Wray et al 2007 ; Jacob et al 2021 ; Coovadia et al 2022 ), post-exercise muscle ischemia (Saito et al 2000 ; Tokizawa et al 2006 ), and acute pain stimuli (Burton et al 2016 ).…”

Section: Discussionmentioning

confidence: 95%

Hemodynamic changes in the temporalis and masseter muscles during acute stress in healthy humans

Rashid,

Roatta

2023

Eur J Appl Physiol

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Purpose Autonomic control of orofacial areas is an integral part of the stress response, controlling functions such as pupil dilatation, salivation, and skin blood flow. However, the specific control of blood flow in head muscles during stress is unknown. This study aims to investigate the hemodynamic response of temporalis and masseter muscles in response to five different stressors. Methods Sixteen healthy individuals were subjected to a randomized series of stressors, including cold pressor test, mental arithmetic test, apnea, isometric handgrip, and post-handgrip muscle ischemia, while in the sitting posture. Finger-pulse photoplethysmography was used to measure arterial blood pressure, heart rate, and cardiac output. Near-infrared spectroscopy was used to measure changes in tissue oxygenation and hemoglobin indices from the temporalis and masseter muscles. Results All stressors effectively and significantly increased arterial blood pressure. Tissue oxygenation index significantly increased in both investigated head muscles during mental arithmetic test (temporalis: 4.22 ± 3.52%; masseter: 3.43 ± 3.63%) and isometric handgrip (temporalis: 3.45 ± 3.09%; masseter: 3.26 ± 3.07%), suggesting increased muscle blood flow. Neither the masseter nor the temporalis muscles evidenced a vasoconstrictive response to any of the stressors tested. Conclusion In the different conditions, temporalis and masseter muscles exhibited similar hemodynamic patterns of response, which do not include the marked vasoconstriction generally observed in limb muscles. The peculiar sympathetic control of head muscles is possibly related to the involvement of these muscles in aggressive/defensive reactions and/or to their unfavorable position with regard to hydrostatic blood levels.

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Sex differences in the vascular response to sympathetic activation during acute hypoxaemia

Cited by 12 publications

References 68 publications

On the haemodynamic consequence of the chemoreflex and muscle mechanoreflex interaction in women and men: two tales, one story

On the haemodynamic consequence of the chemoreflex and muscle mechanoreflex interaction in women and men: two tales, one story

Sex differences in the coronary vascular response to combined chemoreflex and metaboreflex stimulation in healthy humans

Hemodynamic changes in the temporalis and masseter muscles during acute stress in healthy humans

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