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(Circulation. 2006;114:I-87 – I-93.)
© 2006 American Heart Association, Inc.

Cell Transplantation and Tissue Engineering

Pulsatile Myocardial Tubes Fabricated With Cell Sheet Engineering

Hidekazu Sekine, MSc; Tatsuya Shimizu, MD, PhD; Joseph Yang, ScB; Eiji Kobayashi, MD, PhD; Teruo Okano, PhD

From the Institute of Advanced Biomedical Engineering and Science, Tokyo Women’s Medical University, Tokyo, Japan (H.S., T.S., J.Y., T.O.); and Division of Organ Replacement Research, Center for Molecular Medicine, Jichi Medical School, Tochigi, Japan (E.K.).

Reprint requests to Teruo Okano, PhD, Institute of Advanced Biomedical Engineering and Science, Tokyo Women’s Medical University, 8-1 Kawada-cho, Shinjuku-ku, Tokyo 162-8666, Japan. E-mail tokano{at}abmes.twmu.ac.jp

Background— Tissue engineering approaches involving the direct transplantation of cardiac patches have received significant attention as alternative methods for the treatment of damaged hearts. In contrast, we used cardiomyocyte sheets harvested from temperature-responsive culture dishes to create pulsatile myocardial tubes and examined their in vivo function and survival.

Methods and Results— Neonatal rat cardiomyocyte sheets were sequentially wrapped around a resected adult rat thoracic aorta and transplanted in place of the abdominal aorta of athymic rats (n=17). Four weeks after transplantation, the myocardial tubes demonstrated spontaneous and synchronous pulsations independent of the host heartbeat. Independent graft pressures with a magnitude of 5.9±1.7 mm Hg due to their independent pulsations were also observed (n=4). Additionally, histological examination and transmission electron microscopy indicated that the beating tubes were composed of cardiac tissues that resemble the native heart. Finally, when myocardial tubes used for aortic replacement were compared with grafts implanted in the abdominal cavity (n=7), we observed significantly increased tissue thickness, as well as expression of brain natriuretic peptide, myosin heavy chain-, and myosin heavy chain-ß.

Conclusions— Functional myocardial tubes that have the potential for circulatory support can be created with cell sheet engineering. These results also suggest that pulsation due to host blood flow within the lumen of the myocardial tubes has a profound effect on stimulating cardiomyocyte hypertrophy and growth. These results demonstrate a novel approach for the future development of engineered cardiac tissues with the ability for independent cardiac assistance.

Key Words: cardiac tube • cell sheet • transplantation