Tissue Engineering And Nanotheranostics

(Steven Felgate) #1
“9.61x6.69” b2815 Tissue Engineering and Nanotheranostics

Engineering Approaches for Creating Skeletal Muscle 27


  1. Lover de JR, Tolentino RE, Pfister BJ. Axon stretch growth: The mecha-
    notransduction of neuronal growth. J. Vis. Exp: ( JoVE). 54 , 2753
    (2011).

  2. Higgins S, Soon Lee J, Ha L, Yul Lim J. Inducing neurite outgrowth by
    mechanical cell stretch. BioResearch Open Access. 2 (3), 212–216 (2013).

  3. Ito A, Yamamoto Y, Sato M, Ikeda K, Yamamoto M, Fujita H,
    Nagamori E, Kawabe Y, Kamihira M. Induction of functional tissue-
    engineered skeletal muscle constructs by defined electrical stimulation.
    Sci. Rep. 4 (2014).

  4. Zhao M, Bai H, Wang E, Forrester JV, McCaig CD. Electrical stimula-
    tion directly induces pre-angiogenic responses in vascular endothelial
    cells by signaling through vegf receptors. J. Cell Science. 117 (Pt 3),
    397–405 (2004).

  5. Chang Y-J, Hsu C-M, Lin C-H, Shiang-Cheng Lu M, Chen L. Electrical
    stimulation promotes nerve growth factor-induced neurite outgrowth
    and signaling. Biochim. Biophys. Acta. 1830 (8), 4130–4136 (2013).

  6. Koning M, Werker PMN, van Luyn MJA, Harmsen MC. Hypoxia
    promotes proliferation of human myogenic satellite cells: A potential
    benefactor in tissue engineering of skeletal muscle. Tissue Eng. Part A.
    17 (13–14), 1747–1758 (2011).

  7. Per niconi B, Coletti D. Skeletal muscle tissue engineering: Best bet or
    black beast? Frontiers in Physiology 5 , 255 (2014).

  8. Cittadella Vigodarzere G, and Mantero S. Skeletal muscle tissue engi-
    neering: Strategies for volumetric constructs. Front. Phys. 5 (2014).

  9. Li MT A, Willett NJ, Uhrig BA, Guldberg RE, Warren GL. Functional
    analysis of limb recovery following autograft treatment of volumetric
    muscle loss in the quadriceps femoris. J. Biomech. 47 (9), 2013–2021
    (2014).


b2815_Ch-01.indd 27 11-10-2017 06:32:18 PM

Free download pdf