Effect of head down tilt on heart rate variability

Malhotra, Varun; Thakare, Avinash; Hulke, Sandip Meghnad; Wakode, Santosh; Parashar, Rachna; Ravi, Naveen

doi:10.4103/jfmpc.jfmpc_1642_20

Cited by 2 publications

(1 citation statement)

References 17 publications

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“…In addition, cardiac output is the amount of blood pumped by the heart per unit of time and is the product of HR and output per beat [ 42 ]. In the present study, the decrease in HR indicates a decrease in sympathetic nerve activity during HDT [ 43 ], which not only leads to a decrease in cardiac output but also results in a decrease in the amount of blood delivered to different parts of the body, a condition that may lead to tissue hypoxia as well as an increase in cardiac loading, which may affect brain function as well as cardiac disorders, among others. These results suggest that the use of an inverted position in PDLS during the treatment of RFs may adversely affect subjects’ cerebral perfusion.…”

Section: Discussionmentioning

confidence: 83%

Investigating the effects of tilting the postural drainage lithotripsy system on cerebral blood flow, intracranial pressure, heart rate, and blood pressure

Dai,

Li,

Yang

et al. 2024

World J Urol

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Purpose To investigate the effect of the postural drainage lithotripsy system developed by our experimental team on the vital signs of patient with urinary stones during the stone removal process. Methods Four groups of 15 subjects (0°, 10°, 40°, and 70°) were subjected to different angles of head-down tilt to measure middle cerebral artery blood flow velocity (MCAv), cerebrovascular conductance coefficient (CVCi), intracranial pressure (nICP), heart rate (HR), and mean arterial blood pressure (MAP). Results As the angle of HDT changed, MCAv values, nICP values, CVCi values, HR values, and MAP values changed significantly (all P ≤ 0.001), and the difference was statistically significant. During 10°HDT, despite a slight increase in nICP, the other measurements remained stable. During 40°HDT, only the MCAv values did not change significantly, whereas the rest of the measures were significantly altered. During 70°HDT, all indicators changed significantly. Conclusions The significant alterations in cerebral blood flow, intracranial pressure, and hemodynamics induced during the treatment of renal residual fragments with postural drainage should be used with caution in individuals with cerebrovascular accidents. China Clinical Trials Registry ChiCTR2300070671; Registration date: 2023-04-18.

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Section: Discussionmentioning

confidence: 83%

Investigating the effects of tilting the postural drainage lithotripsy system on cerebral blood flow, intracranial pressure, heart rate, and blood pressure

Dai,

Li,

Yang

et al. 2024

World J Urol

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Gravitational Dose‐Response Curves for Acute Cardiovascular Hemodynamics and Autonomic Responses in a Tilt Paradigm

Whittle

Keller

Hall

et al. 2022

JAHA

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Background The cardiovascular system is strongly dependent on the gravitational environment. Gravitational changes cause mechanical fluid shifts and, in turn, autonomic effectors influence systemic circulation and cardiac control. We implemented a tilt paradigm to (1) investigate the acute hemodynamic response across a range of directions of the gravitational vector, and (2) to generate specific dose‐response relationships of this gravitational dependency. Methods and Results Twelve male subjects were tilted from 45° head‐up tilt to 45° head‐down tilt in 15° increments, in both supine and prone postures. We measured the steady‐state hemodynamic response in a range of variables including heart rate, stroke volume, cardiac output, oxygen consumption, total peripheral resistance, blood pressure, and autonomic indices derived from heart rate variability analysis. There is a strong gravitational dependence in almost all variables considered, with the exception of oxygen consumption, whereas systolic blood pressure remained controlled to within ≈3% across the tilt range. Hemodynamic responses are primarily driven by differential loading on the baroreflex receptors, combined with differences in venous return to the heart. Thorax compression in the prone position leads to reduced venous return and increased sympathetic nervous activity, raising heart rate, and systemic vascular resistance while lowering cardiac output and stroke volume. Conclusions Gravitational dose‐response curves generated from these data provide a comprehensive baseline from which to assess the efficacy of potential spaceflight countermeasures. Results also assist clinical management of terrestrial surgery in prone posture or head‐down tilt positions.

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Effect of head down tilt on heart rate variability

Cited by 2 publications

References 17 publications

Investigating the effects of tilting the postural drainage lithotripsy system on cerebral blood flow, intracranial pressure, heart rate, and blood pressure

Investigating the effects of tilting the postural drainage lithotripsy system on cerebral blood flow, intracranial pressure, heart rate, and blood pressure

Gravitational Dose‐Response Curves for Acute Cardiovascular Hemodynamics and Autonomic Responses in a Tilt Paradigm

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