Electrical stimulation of biofidelic engineered muscle enhances myotube size, force, fatigue resistance, and induces a fast-to-slow-phenotype shift.

MLA

Pallotta, Isabella, et al. “Electrical Stimulation of Biofidelic Engineered Muscle Enhances Myotube Size, Force, Fatigue Resistance, and Induces a Fast-to-Slow-Phenotype Shift.” Physiological Reports, vol. 12, no. 19, Oct. 2024, p. e70051. EBSCOhost, https://doi.org/10.14814/phy2.70051.

APA

Pallotta, I., Stec, M. J., Schriver, B., Golann, D. R., Considine, K., Su, Q., Barahona, V., Napolitano, J. E., Stanley, S., Garcia, M., Feric, N. T., Durney, K. M., Aschar-Sobbi, R., Bays, N., Shavlakadze, T., & Graziano, M. P. (2024). Electrical stimulation of biofidelic engineered muscle enhances myotube size, force, fatigue resistance, and induces a fast-to-slow-phenotype shift. Physiological Reports, 12(19), e70051. https://doi.org/10.14814/phy2.70051

Chicago

Pallotta, Isabella, Michael J Stec, Brian Schriver, David R Golann, Kevin Considine, Qi Su, Victor Barahona, et al. 2024. “Electrical Stimulation of Biofidelic Engineered Muscle Enhances Myotube Size, Force, Fatigue Resistance, and Induces a Fast-to-Slow-Phenotype Shift.” Physiological Reports 12 (19): e70051. doi:10.14814/phy2.70051.