References
- Hall, EJ, Giaccia AJ. Radiobiology for the radiologist. Clinical response of normal tissues. Philadelphia: Lippincott Williams & Wilkins; 2006. p: 339.
- Hall, EJ, Giaccia AJ. Radiobiology for the radiologist. Clinical response of normal tissues. Philadelphia: Lippincott Williams & Wilkins; 2006. p: 340.
- Casarett G, Haris RJC. Cellular basis and aetiology of late somatic effects of ionizing radiation. In Casaret H, Hariss RJC, editor. Concept and criteria of radiologic ageing. New York: Academic Press; 1963. p. 496-506.
- Mauro A. Satellite cell of skeletal muscle fibers. J Biophys Biochem Cytol 1961; 9: 493-8.
- Collins CA, Olsen I, Zammit PS, Heslop I, Petrie A, Partridge TA, Morgan JE. Steam cell function, self-renewal and behavioral heterogeneity of cells from the adult muscle satellite cell niche. Cell 2005; 122: 289-301.
- Charge SB, Rudnicki MA. Cellular and molecular regulation of muscle regeneration. Physiol Rev 2004; 84: 209-38.
- Bischoff R. The satellite cell and muscle regeneration. In: Engel AG, Frazini-Armstrong C, editor. Myology. New York: McGraw-Hill; 1994. p. 97-118.
- Seale P, Rudnicki MA. A new look at the origin, function, and "stem-cell" status of muscle satellite cells. Dev Biol 2000; 218: 115-24.
- Appell HJ, Forsberg S, Hollman W. Satellite cell activation in human skeletal muscle after training: evidence for muscle fiber neoformation. Int J Sports Med 1989; 4: 297-9.
- Vierck J, O'Reilly B, Hossner K, Antonio J, Byrne K, Bucci L, Dodson M. Satellite cell regulation following myotrauma caused by resistance exercise. Cell Biol Int 2000; 24: 263-72.
- Lescaudron L, Peltekian E, Fontaine-Perus J, Paulin D, Zampieri M, Garcia L, et al. Satellite cells as the source of nuclei in muscles of growing rats. Anat Rec 1971; 170: 421-35.
- Nathan CF. Secretory products of macrophages. J Clin Invest 1987; 79: 319-26.
- Pedersen BK. Exercise immunology. New York: Chapman & Hall; 1997.
- Adams GR, Haddad F. The relationships among IGF-1, DNA content, and protein accumulation during skeletal muscle hypertrophy. J Appl Physiol 1996; 81: 2509-16.
- Grounds MD. Muscle regeneration: molecular aspects and therapeutic implications. Curr Opin Neurol 1999; 12: 535-43.
- Tisdale MJ. Clinical trials for the treatment of secondary wasting and cachexia. Nutrit 1999; 129: S243-6.
- Denekamp J, Rojas A. Cell kinetics and radiation pathology. Experientia 1989; 45: 33-41.
- Rosenblatt JD, Yong D, Perry DJ. Satellite cell activity is required for hypertrophy of overloaded adult rat skeletal muscle. Muscle Nerve 1994; 17: 608-13.
- Olivé M, Blanco R, Rivera R, Cinos C, Ferrer I. Cell death induced by gamma irradiation of developing skeletal muscle. J Anat 1995; 187(Pt 1): 127-32.
- Allen RE, Boxhorn LK. Regulation of skeletal muscle satellite cell proliferation and differentiation by transforming growth factor -beta, insulin-like growth factor I, and fibroblast growth factor. J Cell Physiol 1989; 138: 311-5.
- McPherron AC, Lawler MA, Lee SJ. Regulation of skeletal muscle mass in mice by a new (TGF- β) superfamily member. Nature 1997; 387: 83-90.
- Whittemore LA, Song K, Li X, Aghajanian J, Davies M, Girgenrath S, Hill JJ, et al. Inhibition of myostatin in adult mice increases skeletal muscle mass and strength. Biochem Biophys Res Commun 2003; 300: 965-71.
- Zeman W, Soloma M. Effects of radiation on striated muscle. In: Berdijs CC, editor. Pathology of irradiation. Baltimore: Williams & Wilkins; 1971. p. 185.
- Prasad KN. Handbook of radiobiology. Radiation damage of other organ systems. Boca Raton: CRC press; 1995. p: 181-92.
- Lefaix JL, Delanian S, Leplat JJ, Tricaud Y, Martin M, Hoffschir D, et al. Radiation induced cutaneo-muscular fibrosis: major therapeutic efficacy of liposomal Cu/Zn superoxide dismutase. Bull Cancer, 1993; 80: 799-807.
- Gangloff H, Hug O. The effects of ionizing radiation on the nervous system. Adv Biol Med Phys; 1965: 10: 1.
- Post RL, Jolly DC. The linkage of sodium, potassium, and ammonium active transport across the human erythrocyte membrane. Biochim Biophys Acta 1957; 25: 118-28.
- Zeman W, Ordy JM, Samorajski T. Modification of acute irradiation effect of cerebellar neurons of mice by actinomycin D. Exp Neurol 1968; 21: 57.
- Sato M, Augustin G, Stahl W. The effects of ionizing radiation on spinal cord neurons. In: Haley TJ, Snider RS, editor. Response of the nervous system to ionizing radiation. New York: Academic Press; 1962. p.: 57.
- Gangloff H. Hippocampal spike activity following low doses of radiation. In: Haley JF, Snider RS, editor. Response of the nervous system to ionizing radiation. Boston: Little Brown; 1964. p. 574.
- Johnson HA. Age and senistivity to radiation life shortening. Radiat Res 1964; 23: 19.
- Failla G, McClement P. The shortening of life by chronic whole-body irradiation. Am J Roentgenol Radium Tehr Nucl Med 1957; 78: 964.
- Hursh JB, Noonon TR, Casarett GW, Vanslyke F. Reduction of life span of rats by roentgen irradiation. Am J Roentgenol Radium Tehr Nucl Med 1955; 74: 130.
- Mishra SK, Misra V. Muscle sarcopenia: an overview. Acta Myol 2003; 22: 43-7.
- Danon D, Kowatch MA, Roth GS. Promotion of wound repair in old mice by local injection of macrophages. Proc Natl Acad Sci USA 1989; 86: 2018-20.
- Fulle S, Di Donna S, Puglielli C, Pietrangelo T, Beccafico S, Bellomo R, et al. Age-dependent imbalance of the antioxidative system in human satellite cells. Exp Geront 2005; 40: 189-97.
- Clarke MS. The effects of exercise on skeletal muscle in the aged. J Musculoskelet Neuronal Interact 2004; 4:175-8.
- Afanasev IB. Free radical mechanisms of ageing processes under physiological conditions. Biogerontol 2005; 6: 283-90.
- Argilés JM, Busquets S, López-Soriano FJ, Figueras M. Physiology of sarcopenia. Similarities and differences with neoplasic cachexia (muscle impairments in cancer and ageing. Nutr Hosp 2006; 21: 38-45.
- Phelan NJ, Gonyea WJ. Effect of radiation on satellite cell activity and protein expression in overloaded mammalian skeletal muscle. The Anat Rec 1997; 247: 179-88.