The Sex-Specific Impact of Systolic Hypertension and Systolic Blood Pressure on Arterial-Ventricular Coupling at Rest and During Exercise

doi:10.1152/ajpheart.01179.2007

The Sex-Specific Impact of Systolic Hypertension and Systolic Blood Pressure on Arterial-Ventricular Coupling at Rest and During Exercise

Paul David Chantler¹, Vojtech Melenovsky², Steven P Schulman³, Gary Gerstenblith⁴, Lewis C. Becker⁵, Luigi Ferrucci⁶, Jerome L. Fleg⁷, Edward G Lakatta¹, and Samer S Najjar⁸^*

¹ Laboratory of cardiovascular Science, National Institute on Aging, Maryland, United States
² Department of Cardiology, Institute of Clinical and Experimental Medicine, Prague, Czech Republic
³ Dept of Med - Cardiovascular, Johns Hopkins Medical Institution, Baltimore, Maryland, United States
⁴ Department of Medicine, Cardiology, Johns Hopkins University, Baltimore, Maryland, United States
⁵ Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland, United States
⁶ Longitudinal Studies Section, Clinical Research Branch, National Institute on Aging, Maryland, United States
⁷ Division of Cardiovascular Diseases, National Heart, Lung, and Blood Institute, Baltimore, Maryland, United States
⁸ Laboratory of Cardiovascular Science, National Institute on Aging, Baltimore, Maryland, United States

^* To whom correspondence should be addressed. E-mail: najjarsa{at}grc.nia.nih.gov.

In healthy subjects the arterial system and the left ventricle(LV) are tightly coupled at rest to optimize cardiac performance.Systolic hypertension (SH) is a major risk factor for heartfailure and is associated with structural and functional alterationsin the arteries and in the LV. The effects of SH and restingsystolic blood pressure (SBP) on arterial-ventricular coupling(E_AI/E_LVI) at rest, peak exercise and during recovery are notwell described. We non-invasively characterized E_AI/E_LVI asend-systolic volume index/stroke volume index in subjects whowere normotensive (NT, N=203) or had SH (brachial SBP $≥$ 140 mmHg,N=79). Cardiac volumes were measured at rest and throughoutexhaustive upright cycle exercise with gated blood pool scans.E_AI/E_LVI reserve was calculated by subtracting peak from restingE_AI/E_LVI. At rest, E_AI/E_LVI did not differ between SH and NTmen but was 23% (P=0.001) lower in SH vs NT women. E_AI/E_LVIdid not differ between SH and NT men or women at peak exerciseor during recovery. Nevertheless, E_AI/E_LVI reserve was 61% (P<0.001)lower in SH vs NT women. Similarly, resting SBP (as a continuousvariable) was not associated with E_AI/E_LVIin men ( ${beta}$ =-0.12, P=0.17)but was inversely associated with E_AI/E_LVI in women ( ${beta}$ =-0.47,P<0.001). SH and a higher resting brachial SBP are associatedwith a lower E_AI/E_LVI at rest in women, but not in men, andSH women have an attenuated E_AI/E_LVI reserve. Whether a smallerE_AI/E_LVI reserve leads to functional limitations warrants furtherexamination.

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P. D. Chantler, E. G. Lakatta, and S. S. Najjar
Arterial-ventricular coupling: mechanistic insights into cardiovascular performance at rest and during exercise
J Appl Physiol, October 1, 2008; 105(4): 1342 - 1351.
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