Evidence for a physiological role of pulmonary arterial baroreceptors in sympathetic neural activation in healthy humans

Simpson, Lydia L.; Meah, Victoria L.; Steele, Andrew R.; Thapamagar, Suman; Gasho, Christopher; Anholm, James D.; Drane, Aimee L.; Dawkins, Tony G.; Busch, Stephen A.; Oliver, Samuel J.; Lawley, Justin S.; Tymko, Michael M.; Ainslie, PN; Steinback, Craig D.; Stembridge, Mike; Moore, Jonathan P.

doi:10.1113/jp278731

Cited by 21 publications

(21 citation statements)

References 54 publications

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“…Therefore, other factors may predispose individuals with CMS to cardiovascular disease. However, we cannot exclude the possibility that elevated sympathetic vasomotor outflow and/or arterial baroreflex dysfunction may develop in more severe CMS, with elevated pulmonary arterial pressure (Simpson et al, 2020), which may contribute to the greater cardiovascular disease risk reported in moderate and severe CMS.…”

Section: Discussionmentioning

confidence: 95%

Global REACH 2018: Andean highlanders, chronic mountain sickness and the integrative regulation of resting blood pressure

Simpson

Meah

Steele

et al. 2020

Experimental Physiology

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The high-altitude maladaptation syndrome chronic mountain sickness (CMS) is characterized by excessive erythrocytosis and frequently accompanied by accentuated arterial hypoxaemia. Whether altered autonomic cardiovascular regulation is apparent in CMS is unclear. Therefore, during the 2018 Global REACH expedition to Cerro de Pasco, Peru (4383 m), we assessed integrative control of blood pressure (BP) and determined basal sympathetic vasomotor outflow and arterial baroreflex function in eight Andean natives with CMS ([Hb] 22.6 ± 0.9 g⋅dL −1) and seven healthy highlanders ([Hb] 19.3 ± 0.8 g⋅dL −1). R-R interval (RRI, electrocardiogram), beat-by-beat BP (photoplethysmography) and muscle sympathetic nerve activity (MSNA; microneurography) were recorded at rest and during pharmacologically induced changes in BP (modified Oxford test). Although [Hb] and blood viscosity (7.8 ± 0.7 vs. 6.6 ± 0.7 cP; d = 1.7, P = 0.01) were elevated in CMS compared to healthy highlanders, cardiac output, total peripheral resistance and mean BP were similar between groups. The vascular sympathetic baroreflex MSNA set-point (i.e. MSNA burst incidence) and reflex gain (i.e. responsiveness) were also similar between groups (MSNA set-point, d = 0.75, P = 0.16; gain, d = 0.2, P = 0.69). In contrast, in CMS the cardiovagal baroreflex operated around a longer RRI (960 ± 159 vs. 817 ± 50 ms; d = 1.4, P = 0.04) with a greater reflex gain (17.2 ± 6.8 vs. 8.8 ± 2.6 ms⋅mmHg −1 ; d = 1.8, P = 0.01) versus healthy highlanders. Basal sympathetic vasomotor activity was also lower compared to healthy highlanders (33 ± 11 vs. 45 ± 13 bursts⋅min −1 ; d = 1.0, P = 0.08). In conclusion, our findings indicate adaptive differences in basal sympathetic vasomotor activity and heart rate This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Section: Discussionmentioning

confidence: 95%

Global REACH 2018: Andean highlanders, chronic mountain sickness and the integrative regulation of resting blood pressure

Simpson

Meah

Steele

et al. 2020

Experimental Physiology

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“…Furthermore, in normoxic anesthetised animals, isolated increases in PAP elicit increases in sympathetic outflow in a positive feedback manner, via stimulation of baroreceptors located in the extra pulmonary arteries (Moore et al., 2011). The potential sympathoexcitatory role of pulmonary arterial baroreceptors in humans at HA has since been investigated (Simpson et al., 2020). During inhalation of vasodilator nitric oxide, which selectively lowered PAP by 25%, a similar reduction in MSNA burst frequency was observed in lowlanders at 4383 m (exposure range 4–9 days).…”

Section: Mechanisms Involved In Neural Adjustments To Hamentioning

confidence: 99%

A sympathetic view of blood pressure control at high altitude: new insights from microneurographic studies

Simpson

Steinback

Stembridge

et al. 2020

Experimental Physiology

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High altitude (HA) hypoxia is a potent activator of the sympathetic nervous system, eliciting increases in sympathetic vasomotor activity. Microneurographic evidence of HA sympathoexcitation dates back to the late 20th century, yet only recently have the characteristics and underpinning mechanisms been explored in detail. This review summarises recent findings and highlights the importance of HA sympathoexcitation for the regulation of blood pressure in lowlanders and indigenous highlanders. In addition, this review identifies gaps in our knowledge and corresponding avenues for future study.

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“…One hypothesis for these findings was the parallel stimulation of cardiopulmonary afferents that can elicit opposing effects on peripheral sympathetic outflow. Other work has postulated the existence of a positive feedback sympathetic reflex originating from pulmonary baroreceptors (Simpson et al 2020). To date, human work has relied on assessing reflex responses to a variety of cardiopulmonary stimuli with limited capacity to quantify afferent activity.…”

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confidence: 99%

“…Other work has postulated the existence of a positive feedback sympathetic reflex originating from pulmonary baroreceptors (Simpson et al . 2020). To date, human work has relied on assessing reflex responses to a variety of cardiopulmonary stimuli with limited capacity to quantify afferent activity.…”

mentioning

confidence: 99%

What happens in vagus, no longer stays in vagus

Lee

Omazic

Kathia

2020

The Journal of Physiology

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Evidence for a physiological role of pulmonary arterial baroreceptors in sympathetic neural activation in healthy humans

Cited by 21 publications

References 54 publications

Global REACH 2018: Andean highlanders, chronic mountain sickness and the integrative regulation of resting blood pressure

Global REACH 2018: Andean highlanders, chronic mountain sickness and the integrative regulation of resting blood pressure

A sympathetic view of blood pressure control at high altitude: new insights from microneurographic studies

What happens in vagus, no longer stays in vagus

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