Use of Flow, Electrical, and Mechanical Stimulation to Promote Engineering of Striated Muscles-Reference-Cited by-同舟云学术

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Use of Flow, Electrical, and Mechanical Stimulation to Promote Engineering of Striated Muscles

Published:2013-12-24 Issue:7 Volume:42 Page:1391-1405
ISSN:0090-6964
Container-title:Annals of Biomedical Engineering
language:en
Short-container-title:Ann Biomed Eng

Author:

Rangarajan Swathi,Madden Lauran,Bursac Nenad

Publisher

Springer Science and Business Media LLC

Subject

Biomedical Engineering

Link

http://link.springer.com/content/pdf/10.1007/s10439-013-0966-4.pdf

Reference134 articles.

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2. Agarwal, A., J. A. Goss, A. Cho, M. L. McCain, and K. K. Parker. Microfluidic heart on a chip for higher throughput pharmacological studies. Lab Chip 13:3599–3608, 2013.

3. Akar, F. G., R. D. Nass, S. Hahn, E. Cingolani, M. Shah, G. G. Hesketh, D. DiSilvestre, R. S. Tunin, D. A. Kass, and G. F. Tomaselli. Dynamic changes in conduction velocity and gap junction properties during development of pacing-induced heart failure. Am. J. Physiol. Heart Circ. Physiol. 293:H1223–H1230, 2007.

4. Akhyari, P., P. W. Fedak, R. D. Weisel, T. Y. Lee, S. Verma, D. A. Mickle, and R. K. Li. Mechanical stretch regimen enhances the formation of bioengineered autologous cardiac muscle grafts. Circulation 106:I137–I142, 2002.

5. Akins, R. E., N. A. Schroedl, S. R. Gonda, and C. R. Hartzell. 1997. Neonatal rat heart cells cultured in simulated microgravity. In Vitro Cell Dev. Biol. 33:337–343.

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