Dehydration reduces stroke volume and cardiac output during exercise because of impaired cardiac filling and venous return, not left ventricular function

verfasst von: Kazuhito Watanabe, Eric J. Stöhr, Koichi Akiyama, Sumie Watanabe, José González-Alonso
Abstract: Dehydration accrued during intense prolonged whole-body exercise in the heat compromises peripheral blood flow and cardiac output ((Formula presented.)). A markedly reduced stroke volume (SV) is a key feature of the dehydration-induced cardiovascular strain, but whether the lower output of the heart is mediated by peripheral or cardiac factors remains unknown. Therefore, we repeatedly quantified left ventricular (LV) volumes, LV mechanics (LV twist, a marker of systolic muscle function, and LV untwisting rate, an independent marker of LV muscle relaxation), left intra-ventricular pressure gradients, blood volume and peripheral blood flow during 2 hr of cycling in the heat with and without dehydration (DEH: 4.0 ± 0.2% body mass loss and EUH: euhydration control, respectively) in eight participants (three females and five males). While brachial and carotid blood flow, blood volume, SV, LV end-diastolic volume (LVEDV), cardiac filling time, systemic vascular conductance and (Formula presented.) were reduced in DEH compared to EUH after 2 hr, LV twist and untwisting rate tended to be higher (p =.09 and.06, respectively) and intra-ventricular pressure gradients were not different between the two conditions (p =.22). Furthermore, LVEDV in DEH correlated strongly with blood volume (r =.995, p <.01), head and forearms beat volume (r =.98, p <.05), and diastolic LV filling time (r =.98, p <.05). These findings suggest that the decline in SV underpinning the blunted (Formula presented.) with exercise-induced dehydration is caused by compromised LV filling and venous return, but not intrinsic systolic or diastolic LV function.
Externe Organisation(en): Brunel University
Akita University
Cardiff Metropolitan University
Columbia University
Yodogawa Christian Hospital
Typ: Artikel
Journal: Physiological Reports
Band: 8
Publikationsdatum: 01.06.2020
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Physiologie, Physiologie (medizinische)
Elektronische Version(en): https://doi.org/10.14814/phy2.14433 (Zugang: Offen)

BibTeX

@article{6c12836cfaec4a70b8fe79e30ef658dc,
title = "Dehydration reduces stroke volume and cardiac output during exercise because of impaired cardiac filling and venous return, not left ventricular function",
abstract = "Dehydration accrued during intense prolonged whole-body exercise in the heat compromises peripheral blood flow and cardiac output ((Formula presented.)). A markedly reduced stroke volume (SV) is a key feature of the dehydration-induced cardiovascular strain, but whether the lower output of the heart is mediated by peripheral or cardiac factors remains unknown. Therefore, we repeatedly quantified left ventricular (LV) volumes, LV mechanics (LV twist, a marker of systolic muscle function, and LV untwisting rate, an independent marker of LV muscle relaxation), left intra-ventricular pressure gradients, blood volume and peripheral blood flow during 2 hr of cycling in the heat with and without dehydration (DEH: 4.0 ± 0.2% body mass loss and EUH: euhydration control, respectively) in eight participants (three females and five males). While brachial and carotid blood flow, blood volume, SV, LV end-diastolic volume (LVEDV), cardiac filling time, systemic vascular conductance and (Formula presented.) were reduced in DEH compared to EUH after 2 hr, LV twist and untwisting rate tended to be higher (p =.09 and.06, respectively) and intra-ventricular pressure gradients were not different between the two conditions (p =.22). Furthermore, LVEDV in DEH correlated strongly with blood volume (r =.995, p <.01), head and forearms beat volume (r =.98, p <.05), and diastolic LV filling time (r =.98, p <.05). These findings suggest that the decline in SV underpinning the blunted (Formula presented.) with exercise-induced dehydration is caused by compromised LV filling and venous return, but not intrinsic systolic or diastolic LV function.",
keywords = "blood flow, intraventricular pressure gradients, left ventricular volumes, twist and untwisting rate",
author = "Kazuhito Watanabe and St{\"o}hr, {Eric J.} and Koichi Akiyama and Sumie Watanabe and Jos{\'e} Gonz{\'a}lez-Alonso",
year = "2020",
month = jun,
day = "1",
doi = "10.14814/phy2.14433",
language = "English",
volume = "8",
journal = "Physiological Reports",
issn = "2051-817X",
publisher = "John Wiley & Sons Inc.",
number = "11",
}