M. Buckingham and A. Mayeuf, Skeletal muscle development, Muscle: fundamental biology and mechanisms of disease, pp.749-62, 2012.

D. Montarras, L. 'honoré, A. Buckingham, and M. , Lying low but ready for action: the quiescent muscle satellite cell, FEBS J, vol.280, pp.4036-50, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01544065

S. Schiaffino, Fibre types in skeletal muscle: a personal account, Acta Physiol Oxf Engl, vol.199, pp.451-63, 2010.

B. Blaauw, S. Schiaffino, and C. Reggiani, Mechanisms modulating skeletal muscle phenotype, Compr Physiol, vol.3, pp.1645-87, 2013.

J. M. Gutiérrez, C. L. Ownby, and G. V. Odell, Skeletal muscle regeneration after myonecrosis induced by crude venom and a myotoxin from the snake Bothrops asper (Fer-de-Lance), Toxicon Off J Int Soc Toxinol, vol.22, pp.719-750, 1984.

K. D. Bergmeister, M. Gröger, M. Aman, A. Willensdorfer, K. Manzano-szalai et al., A rapid automated protocol for muscle fiber population analysis in rat muscle cross sections using myosin heavy chain immunohistochemistry, J Vis Exp JoVE, 2017.

Y. Wen, K. A. Murach, I. J. Vechetti, C. S. Fry, C. D. Vickery et al., MyoVision: software for automated high-content analysis of skeletal muscle immunohistochemistry, J Appl Physiol Bethesda Md, 1985.

L. R. Smith and E. R. Barton, SMASH-semi-automatic muscle analysis using segmentation of histology: a MATLAB application, Skelet Muscle, vol.4, p.21, 2014.

T. Y. Kostrominova, D. S. Reiner, R. H. Haas, R. Ingermanson, and P. M. Mcdonough, Automated methods for the analysis of skeletal muscle fiber size and metabolic type, Int Rev Cell Mol Biol, vol.306, pp.275-332, 2013.

O. Sertel, B. Dogdas, C. S. Chiu, and M. N. Gurcan, Microscopic image analysis for quantitative characterization of muscle fiber type composition, Comput Med Imaging Graph Off J Comput Med Imaging Soc, vol.35, pp.616-644, 2011.

J. Schindelin, I. Arganda-carreras, E. Frise, V. Kaynig, M. Longair et al., Fiji: an open-source platform for biological-image analysis, Nat Methods, vol.9, pp.676-82, 2012.

W. Roman and E. R. Gomes, Nuclear positioning in skeletal muscle, Semin Cell Dev Biol, 2017.

H. Jungbluth and M. Gautel, Pathogenic mechanisms in centronuclear myopathies, Front Aging Neurosci, vol.6, p.339, 2014.

E. S. Folker and M. K. Baylies, Nuclear positioning in muscle development and disease, Front Physiol, vol.4, p.363, 2013.

C. Latroche, M. Weiss-gayet, L. Muller, C. Gitiaux, P. Leblanc et al., Coupling between myogenesis and angiogenesis during skeletal muscle regeneration is stimulated by restorative macrophages, Stem Cell Rep, vol.9, pp.2018-2051, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02125537

D. Hardy, A. Besnard, M. Latil, G. Jouvion, D. Briand et al., Comparative study of injury models for studying muscle regeneration in mice, PLoS One, vol.11, p.147198, 2016.
URL : https://hal.archives-ouvertes.fr/pasteur-01447903

B. Gayraud-morel, F. Chrétien, P. Flamant, D. Gomès, P. S. Zammit et al., A role for the myogenic determination gene Myf5 in adult regenerative myogenesis, Dev Biol, vol.312, pp.13-28, 2007.