Abstract
The effects of long-term left ventricular (LV) hypertrophy on coronary vascular reserve have not been extensively investigated. To test the hypothesis that the duration of LV hypertrophy may modulate coronary vascular reserve, a newly developed pulsed Doppler flowmeter was used to compare the characteristics of coronary reactive hyperemia in Wistar Kyoto (WKY) and spontaneously hypertensive (SHR) rats. The data suggest that coronary reactive hyperemic responses in the rat are markedly different from those in larger animals and humans, e.g., peak/rest blood flow velocity ratio and the repayment/debt area ratio were 30 to 50% of those observed in larger laboratory animals. Because minimal coronary vascular resistance is similar in the rat and larger animals, the relatively high myocardial oxygen consumption at rest and consequent high myocardial blood flow at rest probably account for the alteration of coronary reactive hyperemia in the rat. In SHR rats, the characteristics of coronary reactive hyperemia decreased during developing (3-month-old) and peak (7-month-old) LV hypertrophy compared with those in their age-matched WKY controls. However, in 12-month-old SHR rats with stable LV hypertrophy, the coronary reactive hyperemic response was similar to that of 12-month-old WKY rats. Mean arterial pressures were significantly elevated in each of the 3 SHR groups. These data suggest a significant decrement in coronary vascular reserve during actively developing and peak LV hypertrophy, but the decrement disappears during stabilized hypertrophy. These studies suggest that the duration of LV hypertrophy may modulate the interaction between pathologic increases in cardiac mass and growth of the coronary vasculature.
Published Version
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