Control Mechanisms for Physiological Hypertrophy of Pregnancy

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Circulation. 1996;94:667-672

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Postpartum Care
Pregnancy

Control Mechanisms for Physiological Hypertrophy of Pregnancy

Suzanne M. Mone, MS; Stephen P. Sanders, MD; Steven D. Colan, MD

the Department of Cardiology, Children's Hospital, and the Department of Pediatrics, Harvard Medical School, Boston, Mass.

Correspondence to Steven D. Colan, MD, Department of Cardiology, Children's Hospital, 300 Longwood Ave, Boston, MA 02115. E-mail colan@a1.tch.harvard.edu.

Background Pregnancy represents an excellent model of acutephysiological hypertrophy and atrophy secondary to a transienthemodynamic load. This investigation examined the effects ofpregnancy on ventricular mechanics using load-independent indexesof contractility to test the hypothesis that the cardiac trophicresponse functions as a servomechanism with wall stress as thefeedback variable.

Methods and Results Serial studies were performed in 33 womenat six time periods during and shortly after normal gestation.Changes in ventricular dimension, wall thickness, and left ventricularmass were parallel to changes in body size. Fractional shorteningand velocity of shortening progressively diminished during pregnancy,with a nadir at the first postpartum examination, despite aprogressive fall in afterload. Cardiac index rose rapidly inearly gestation and remained elevated throughout pregnancy.Peak wall stress was elevated in early gestation coincidentwith the rapid rise in cardiac index due to elevated volumebefore compensatory rise in mass. With compensatory hypertrophy,peak wall stress normalized by midgestation. The change in leftventricular mass was closely related to peak wall stress butcorrelated poorly with mean, total, and end-systolic wall stress.

Conclusions Normal pregnancy is associated with a reversiblefall in contractility. Systolic function is preserved throughoutmost of pregnancy by a fall in afterload but decreases nearterm and early postpartum because of decreased contractilityand diminished preload. Left ventricular hypertrophy and atrophyare temporally related to changes in hemodynamic load. The responseis consistent with a tightly coupled servomechanism transducedby peak wall stress with a 1- to 4-week compensatory responsetime.

Key Words: pregnancy • ventricles

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