Progressive Cardiac Dysfunction and Fibrosis in the Cardiomyopathic Hamster and Effects of Growth Hormone and Angiotensin-Converting Enzyme Inhibition

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Circulation. 1999;100:1734-1743

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(Circulation. 1999;100:1734-1743.)
© 1999 American Heart Association, Inc.

Basic Science Reports

Progressive Cardiac Dysfunction and Fibrosis in the Cardiomyopathic Hamster and Effects of Growth Hormone and Angiotensin-Converting Enzyme Inhibition

Presented in part at the 70th Scientific Sessions of the American Heart Association, Orlando, Fla, November 9–12, 1997, and published in abstract form (Circulation. 1997;96[suppl I]:I-521).

Tsutomu Ryoke, MD, PhD; Yusu Gu, MD; Lan Mao, MD; Minoru Hongo, MD, PhD; Ross G. Clark, PhD; Kirk L. Peterson, MD; John Ross, Jr, MD

From the Division of Cardiology, Department of Medicine (T.R., Y.G., L.M., M.H., K.P., J.R.), University of California, San Diego, and Genentech, Inc, South San Francisco, Calif (R.G.C.). Dr Ryoke is now at Konan Saint Hill Hospital, Yamaguchi, Japan; Dr Lan Mao, at the University of North Carolina at Chapel Hill; Dr Hongo, at Shinshu University School of Medicine, Matsumoto, Japan; and Dr Clark, at the University of Auckland, New Zealand.

Correspondence to John Ross, Jr, MD, University of California, San Diego, Department of Medicine 0613B, 9500 Gilman Dr, La Jolla, CA 92093-0613. E-mail jross{at}ucsd.edu

Background—Growth hormone (GH) improves cardiac functionin the rat with myocardial infarction, but its effects in amodel of primary dilated cardiomyopathy have not been reported.GH effects were examined at early (4 months) and late (10 months)phases of disease in the cardiomyopathic (CM) hamster, and the combinationof GH with chronic ACE inhibition was assessed in late-phaseheart failure.

Methods and Results—CM hamsters (CHF 147 line) at 4 monthsshowed severe systolic left ventricular (LV) dysfunction withnormal LV filling pressure, and at 10 months there was moresevere systolic as well as diastolic dysfunction with increasingmyocardial fibrosis. Recombinant human GH alone for 3 weeks atage 4 months increased LV wall thickness and reduced systolicwall stress without altering diastolic wall stress, whereasat 10 months, wall stress and fractional shortening did notimprove. The LV dP/dt_max was enhanced at both ages by GH, whichat 4 months reflected increased contractility, but at 10 monthswas most likely caused by elevation of the LV filling pressure.The increasing degree of fibrosis correlated inversely withLV function but was unaffected by GH. In other CM hamsters,high-dose ACE inhibition alone (quinapril), started at 8 monthsand continued for 11 weeks, improved LV function and inhibitedunfavorable remodeling, but the addition of GH for 3 weeks atage 10 months produced increased wall thickness with little additionalfunctional benefit and increased the LV filling pressure and diastolicwall stress.

Conclusions—GH treatment alone improved LV dysfunctionat 4 months of age in CM hamsters by increasing contractilityand reducing wall stress but had few beneficial effects at 10months in severe LV failure. After chronic ACE inhibition, additionof GH at 10 months had no additional beneficial effects andfurther increased LV diastolic pressure. These differing effectsof GH may relate to the progressive increase of LV fibrosisin the CM hamster.

Key Words: myocardium • collagen • ventricles • hypertrophy • cardiomyopathy

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