3McManus BM, KoteIchuck M. The effect of aquatic therapy on functional mobility of infants and toddlers in early intervention. Pediatr Phys Ther, 2007,19 (4) :275-282.
4Ribeiro C, Cambri LT, Dalia RA, et al. Muscle protein metabolism in neonatal alloxan-administered rats: effects ofcontinuous and intermittent swimming training. Diabetol Metab Syndr,2012, 4( 1 ) :5.
5Scomparin DX, Gomes RM, Grassiolli S, et al. Autonomic activity and glycemic homeostasis are maintained by precocious and low intensity training exercises in MSG-programmed obese mice. Endocrine, 2009,36(3) :510-517.
6Scomparin DX, Grassiolli S, Gomes RM, et al. Low-Intensity swimming training after weaning improves glucose and lipid homeostasis in MSG hypothalamic obese mice. Endocr Res,2011, 36(2) :83-90.
7Andreazzi AE, Scomparin DX, Mesquita FP, et al. Swimming exercise at weaning improves glycemic control and inhibits the onset of monosodium L-glutamate-obesity in mice. J Endocrinol, 2009,201 ( 3 ) :351-359.
8Vignochi CM, Teixeira PP, Nader SS. Effect of aquatic physical therapy on pain and state of sleep and wakefulness among stable preterm newborns in neonatal intensive care units. Rev Bras Fisioter,2010,14 ( 3 ) :214-220.
9Tsuji M, Aoo N, Harada K, et al. Sex differences in the benefitsof rehabilitative training during adolescence following neonatal hypoxia-ischemia in rats. Exp Neurol, 2010,226 ( 2 ) : 285 -292.
10Scomparin DX, Gomes RM, Grassiolli S, et ah Autonomic activity and glycemic homeostasis are maintained by precocious and low intensity training exercises in MSG-programmed obese mice. Endocrine, 2009,36(3) :510-517.
