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(Circulation. 2001;104:I-229.)
© 2001 American Heart Association, Inc.

Thoracic Transplantation and Ventricular Assist Devices

Normalized Diastolic Properties After Left Ventricular Assist Result From Reverse Remodeling of Chamber Geometry

Alessandro Barbone, MD; Mehmet C. Oz, MD; Daniel Burkhoff, MD, PhD; Jeffrey W. Holmes, MD, PhD

Departments of Surgery (A.B., M.C.O.), Medicine (D.B.), and Biomedical Engineering (J.W.H.), Columbia University, New York, NY.

Correspondence to Jeffrey W. Holmes, Assistant Professor, Biomedical Engineering, CEPSR 416, Columbia University MC 8904, 530 W 120th St, New York, NY 10027.

Background— Normalization of diastolic properties after left ventricular (LV) assist may result from a change in myocardial material properties, chamber size, or both. This study tested the hypothesis that reported normalization of LV diastolic properties is primarily due to remodeling of chamber geometry.

Methods and Results— Hearts were obtained at transplantation from 8 patients with dilated cardiomyopathy (DCM), 6 patients with DCM plus 33±5 days of LV assist, and 3 patients with no evidence of heart failure. LV assist normalized passive pressure-volume curves. Chamber dimensions decreased without a change in the ratio of radius to wall thickness. Midwall stress-stretch relations predicted from pressure-volume and dimension data were not different for DCM and LV assist hearts. Passive stress-stretch relations were measured in endocardial trabeculae and were not different for DCM and LV assist hearts. Myocyte size and collagen area fraction were unchanged at this brief duration of support.

Conclusions— These findings are all consistent with the hypothesis that early normalization of diastolic properties after LV assist device support results from remodeling of chamber geometry, not from changes in tissue stiffness. These data emphasize the importance of geometry to ventricular mechanics and demonstrate that reduction of heart size does not necessarily produce a reduction in wall stress.

Key Words: diastole • elasticity • heart-assist device • heart failure • mechanics