Inspiratory impedance effects on hemodynamic responses to orthostasis in normal subjects

Victor A. Convertino, Duane A. Ratliff, Kevin C. Eisenhower, Colie Warren, Donald F. Doerr, Ahamed H. Idris, Keith G. Lurie

Research output: Contribution to journalArticle

14 Citations (Scopus)

Abstract

Background: Breathing through an impedance threshold device (ITD) might prove effective as a countermeasure against post-spaceflight orthostatic hypotension since it increased blood pressure (BP) and cardiac output in supine human subjects. Objective: We tested the hypothesis that spontaneous breathing through an ITD would attenuate the reduction in stroke volume and BP during orthostasis in human subjects. Methods: There were 19 volunteers (10 men, 9 women) who completed two 80° head-up tilt (HUT) protocols with (active) and without (sham control) an ITD set to open at -7 cm H2O pressure. Heart rate (HR), stroke volume (SV), cardiac output (CO), mean arterial pressure (MAP), and total peripheral resistance (TPR) were measured non-invasively during transition from supine to HUT. Results: HUT caused significant elevation in HR and reductions in SV, CO, TPR, and MAP. Hemodynamic effects of HUT were similar for sham and active ITD. Further analysis revealed a subset (n = 11) of subjects who demonstrated a > 20% decrease in SV during HUT with the sham ITD. In this subset of subjects, the ITD attenuated (p = 0.004) the %ΔSV (-22.5 ± 3.0%) during HUT compared with the sham ITD (%ΔSV = -37.4 ± 2.6%). There was no statistical effect of ITD use in the subgroup who demonstrated < 20% reduction in SV (-16.6 ± 0.4%). Conclusions: Use of an ITD may provide significant protection against orthostatic compromise in individuals with greater than 20% reductions in SV, such as astronauts returning from space.

Original languageEnglish (US)
Pages (from-to)486-493
Number of pages8
JournalAviation Space and Environmental Medicine
Volume77
Issue number5
StatePublished - May 2006

Fingerprint

Hemodynamics
Dizziness
Electric Impedance
Stroke Volume
Equipment and Supplies
Blood pressure
Head
Cardiac Output
Vascular Resistance
Arterial Pressure
Respiration
Heart Rate
Astronauts
Blood Pressure
Space Flight
Orthostatic Hypotension
Volunteers
Pressure

Keywords

  • Cardiac output
  • Heart rate
  • Hypotension
  • Impedance threshold device
  • Peripheral vascular resistance
  • Respiration
  • Stroke volume
  • Tilt test

ASJC Scopus subject areas

  • Public Health, Environmental and Occupational Health
  • Pollution
  • Medicine(all)

Cite this

Convertino, V. A., Ratliff, D. A., Eisenhower, K. C., Warren, C., Doerr, D. F., Idris, A. H., & Lurie, K. G. (2006). Inspiratory impedance effects on hemodynamic responses to orthostasis in normal subjects. Aviation Space and Environmental Medicine, 77(5), 486-493.

Inspiratory impedance effects on hemodynamic responses to orthostasis in normal subjects. / Convertino, Victor A.; Ratliff, Duane A.; Eisenhower, Kevin C.; Warren, Colie; Doerr, Donald F.; Idris, Ahamed H.; Lurie, Keith G.

In: Aviation Space and Environmental Medicine, Vol. 77, No. 5, 05.2006, p. 486-493.

Research output: Contribution to journalArticle

Convertino, VA, Ratliff, DA, Eisenhower, KC, Warren, C, Doerr, DF, Idris, AH & Lurie, KG 2006, 'Inspiratory impedance effects on hemodynamic responses to orthostasis in normal subjects', Aviation Space and Environmental Medicine, vol. 77, no. 5, pp. 486-493.
Convertino VA, Ratliff DA, Eisenhower KC, Warren C, Doerr DF, Idris AH et al. Inspiratory impedance effects on hemodynamic responses to orthostasis in normal subjects. Aviation Space and Environmental Medicine. 2006 May;77(5):486-493.
Convertino, Victor A. ; Ratliff, Duane A. ; Eisenhower, Kevin C. ; Warren, Colie ; Doerr, Donald F. ; Idris, Ahamed H. ; Lurie, Keith G. / Inspiratory impedance effects on hemodynamic responses to orthostasis in normal subjects. In: Aviation Space and Environmental Medicine. 2006 ; Vol. 77, No. 5. pp. 486-493.
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abstract = "Background: Breathing through an impedance threshold device (ITD) might prove effective as a countermeasure against post-spaceflight orthostatic hypotension since it increased blood pressure (BP) and cardiac output in supine human subjects. Objective: We tested the hypothesis that spontaneous breathing through an ITD would attenuate the reduction in stroke volume and BP during orthostasis in human subjects. Methods: There were 19 volunteers (10 men, 9 women) who completed two 80° head-up tilt (HUT) protocols with (active) and without (sham control) an ITD set to open at -7 cm H2O pressure. Heart rate (HR), stroke volume (SV), cardiac output (CO), mean arterial pressure (MAP), and total peripheral resistance (TPR) were measured non-invasively during transition from supine to HUT. Results: HUT caused significant elevation in HR and reductions in SV, CO, TPR, and MAP. Hemodynamic effects of HUT were similar for sham and active ITD. Further analysis revealed a subset (n = 11) of subjects who demonstrated a > 20{\%} decrease in SV during HUT with the sham ITD. In this subset of subjects, the ITD attenuated (p = 0.004) the {\%}ΔSV (-22.5 ± 3.0{\%}) during HUT compared with the sham ITD ({\%}ΔSV = -37.4 ± 2.6{\%}). There was no statistical effect of ITD use in the subgroup who demonstrated < 20{\%} reduction in SV (-16.6 ± 0.4{\%}). Conclusions: Use of an ITD may provide significant protection against orthostatic compromise in individuals with greater than 20{\%} reductions in SV, such as astronauts returning from space.",
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AU - Ratliff, Duane A.

AU - Eisenhower, Kevin C.

AU - Warren, Colie

AU - Doerr, Donald F.

AU - Idris, Ahamed H.

AU - Lurie, Keith G.

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N2 - Background: Breathing through an impedance threshold device (ITD) might prove effective as a countermeasure against post-spaceflight orthostatic hypotension since it increased blood pressure (BP) and cardiac output in supine human subjects. Objective: We tested the hypothesis that spontaneous breathing through an ITD would attenuate the reduction in stroke volume and BP during orthostasis in human subjects. Methods: There were 19 volunteers (10 men, 9 women) who completed two 80° head-up tilt (HUT) protocols with (active) and without (sham control) an ITD set to open at -7 cm H2O pressure. Heart rate (HR), stroke volume (SV), cardiac output (CO), mean arterial pressure (MAP), and total peripheral resistance (TPR) were measured non-invasively during transition from supine to HUT. Results: HUT caused significant elevation in HR and reductions in SV, CO, TPR, and MAP. Hemodynamic effects of HUT were similar for sham and active ITD. Further analysis revealed a subset (n = 11) of subjects who demonstrated a > 20% decrease in SV during HUT with the sham ITD. In this subset of subjects, the ITD attenuated (p = 0.004) the %ΔSV (-22.5 ± 3.0%) during HUT compared with the sham ITD (%ΔSV = -37.4 ± 2.6%). There was no statistical effect of ITD use in the subgroup who demonstrated < 20% reduction in SV (-16.6 ± 0.4%). Conclusions: Use of an ITD may provide significant protection against orthostatic compromise in individuals with greater than 20% reductions in SV, such as astronauts returning from space.

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