Katalog Plus
Bibliothek der Frankfurt UAS
Bald neuer Katalog: sichern Sie sich schon vorab Ihre persönlichen Merklisten im Nutzerkonto: Anleitung.
Dieses Ergebnis aus BASE kann Gästen nicht angezeigt werden.  Login für vollen Zugriff.

Pulmonary arterial mechanoreceptors mediate sustained sympathoexcitation during high altitude hypoxia in humans

Title: Pulmonary arterial mechanoreceptors mediate sustained sympathoexcitation during high altitude hypoxia in humans
Authors: Ewalts, Michiel T.; Simpson, Lydia L.; Talbot, Jack S.; Jenkins, Elliott J.; Gibbons, Travis D.; Howe, Connor A.; Maier, Lauren E.; Vanden Berg, Emily R.; Williams, Alex M.; Ainslie, Philip N.; Oliver, Samuel J.; Steinback, Craig D.; Stembridge, Mike; Moore, Jonathan P.
Source: Ewalts, M T, Simpson, L L, Talbot, J S, Jenkins, E J, Gibbons, T D, Howe, C A, Maier, L E, Vanden Berg, E R, Williams, A M, Ainslie, P N, Oliver, S J, Steinback, C D, Stembridge, M & Moore, J P 2026, 'Pulmonary arterial mechanoreceptors mediate sustained sympathoexcitation during high altitude hypoxia in humans', Experimental Physiology. https://doi.org/10.1113/EP093675
Publication Year: 2026
Collection: University of Bristol: Bristol Reserach
Description: Sympathetic nervous system activation is a hallmark of high-altitude hypoxia, yet the afferent mechanisms remain incompletely defined. We examined the relative contributions of pulmonary arterial mechanoreceptors and carotid chemoreceptors – two excitatory pathways co-activated by hypoxia – to sustained sympathoexcitation at altitude. Nine healthy lowlanders (27 ± 7 years, three female) were studied after 6–9 days at 3800 m under four conditions: (1) control, (2) inhaled nitric oxide (iNO, 40 ppm) to reduce pulmonary arterial pressure, (3) low-dose dopamine infusion (2 µg kg −1 min −1 ) to suppress the carotid chemoreflex, and (4) combined iNO and dopamine. End-tidal oxygen and carbon dioxide were kept constant throughout. We assessed muscle sympathetic nerve activity (MSNA), systemic haemodynamics, ventilation and pulmonary arterial systolic pressure. iNO reduced pulmonary arterial pressure and significantly decreased MSNA (condition 1: 25 ± 8 bursts min −1 vs. condition 2: 21 ± 7 bursts min −1 ; P = 0.0415), whereas dopamine infusion reduced ventilation (P < 0.001) without a consistent effect on MSNA (condition 1: 25 ± 8 bursts min −1 vs. condition 3: 28 ± 13 bursts min −1 ; P = 0.112). Combined intervention produced a small reduction in sympathetic nerve activity (condition 3: 28 ± 13 bursts min −1 vs. condition 4: 26 ± 13 bursts min −1 ; P = 0.0643), likely due to baroreflex engagement. These findings confirm that unloading pulmonary arterial pressure attenuates MSNA, reinforcing the role of pulmonary mechanoreceptors in high altitude sympathoexcitation. Attempts to isolate a carotid chemoreflex contribution were likely confounded by dopamine's haemodynamic effect, which introduced variability and limited the specificity of this intervention. Thus, interpretation of this component remains exploratory, highlighting the integrative complexity of reflex control of high altitude sympathoexcitation in humans.
Document Type: article in journal/newspaper
Language: English
Relation: info:eu-repo/semantics/altIdentifier/pmid/41691595; info:eu-repo/semantics/altIdentifier/hdl/https://hdl.handle.net/1983/f96f8a79-52f6-44fd-b4f2-cc1c93ec30dd
DOI: 10.1113/EP093675
Availability: https://hdl.handle.net/1983/f96f8a79-52f6-44fd-b4f2-cc1c93ec30dd; https://research-information.bris.ac.uk/en/publications/f96f8a79-52f6-44fd-b4f2-cc1c93ec30dd; https://doi.org/10.1113/EP093675
Rights: info:eu-repo/semantics/openAccess ; http://creativecommons.org/licenses/by/4.0/
Accession Number: edsbas.C0939C44
Database: BASE