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Article

Turner, DC, Gorski, PP, Seaborne, RA, Viggars, M, Murphy, M, Jarvis, JC, Martin, NRW, Stewart, CE and Sharples, AP ORCID: https://orcid.org/0000-0003-1526-9400 (2021) Mechanical loading of bioengineered skeletal muscle in vitro recapitulates gene expression signatures of resistance exercise in vivo. Journal of Cellular Physiology.

Wragg, NM ORCID: https://orcid.org/0000-0002-8246-636X, Mosqueira, D, Blokpeol-Ferreras, L, Capel, A, Player, DJ, Martin, NRW, Liu, Y and Lewis, MP (2020) Development of a 3D Tissue-Engineered Skeletal Muscle and Bone Co-culture System. Biotechnology Journal, 15 (1). e1900106 - ?.

Wragg, NM ORCID: https://orcid.org/0000-0002-8246-636X, Player, DJ, Martin, NRW, Liu, Y and Lewis, MP (2019) Development of tissue-engineered skeletal muscle manufacturing variables. Biotechnology and Bioengineering, 116 (9). 2364 - 2376.

Kasper, AM, Turner, DC, Martin, NRW and Sharples, AP (2017) Mimicking exercise in three-dimensional bioengineered skeletal muscle to investigate cellular and molecular mechanisms of physiological adaptation. Journal of Cellular Physiology, 233 (3). pp. 1985-1998.

Player, DJ, Martin, NRW, Passey, SL, Sharples, AP, Mudera, V and Lewis, MP (2014) Erratum to: Acute mechanical overload increases IGF-I and MMP-9 mRNA in 3D tissue-engineered skeletal muscle (vol 36, pg 1113, 2014). Biotechnology Letters, 36 (7). 1555 - 1556.

Player, DJ, Martin, NRW, Passey, SL, Sharples, AP, Mudera, V and Lewis, MP (2014) Acute mechanical overload increases IGF-I and MMP-9 mRNA in 3D tissue-engineered skeletal muscle. BIOTECHNOLOGY LETTERS, 36 (5). 1113 - 1124.

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