Do Transitioned Athletes Compete at an Advantage or Disadvantage
Do Transitioned Athletes Compete at an Advantage or Disadvantage
Do Transitioned Athletes Compete at an Advantage or Disadvantage
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
<strong>Tr<strong>an</strong>sitioned</strong> <strong>Athletes</strong> <strong>an</strong>d Competition 20<br />
54. Ji H, Zheng W, Menini S, Pesce C, Kim J, Wu X, Mulroney S, <strong>an</strong>d S<strong>an</strong>dberg K.<br />
Female protection in progressive renal disease is associ<strong>at</strong>ed with estradiol <strong>at</strong>tenu<strong>at</strong>ion of<br />
superoxide production. Gender Medicine 4: 56-70, 2007.<br />
55. Ji L, <strong>an</strong>d Fu R. Responses of glut<strong>at</strong>hione system <strong>an</strong>d <strong>an</strong>tioxid<strong>an</strong>t enzymes to exhaustive<br />
exercise <strong>an</strong>d hydroperoxide. J Appl Physiol 72: 549-554, 1992.<br />
56. Kaji H, Kosaka R, Yamauchi M, Kuno K, Chihara K, <strong>an</strong>d Sugimoto T. Effects of<br />
age, grip strength <strong>an</strong>d smoking on f<strong>or</strong>earm volumetric bone mineral density <strong>an</strong>d bone geometry<br />
by peripheral qu<strong>an</strong>tit<strong>at</strong>ive computed tomography: comparisons between female <strong>an</strong>d male.<br />
Endocr J<br />
52: 659-666, 2006.<br />
57. K<strong>an</strong>ehisa H, Ikegawa S, <strong>an</strong>d Fukunaga T. Comparison of muscle cross-sectional area<br />
<strong>an</strong>d strength between untrained women <strong>an</strong>d men. Eur J Appl Physiol Occup Physiol 68: 148-154,<br />
1994.<br />
58. K<strong>an</strong>ehisa H, Okuyama H, Ikegawa S, <strong>an</strong>d Fukunaga T. Sex difference in f<strong>or</strong>ce<br />
gener<strong>at</strong>ion capacity during repe<strong>at</strong>ed maximal knee extensions. Eur J Appl Physiol Occup Physiol<br />
73: 557-562, 1996.<br />
59. Karolkiewicz J, Szczesniak L, Deskur-Smielecko E, Nowak A, Stemplewski R, <strong>an</strong>d<br />
Szeklicki R. Oxid<strong>at</strong>ive stress <strong>an</strong>d <strong>an</strong>tioxid<strong>an</strong>t defense system in healthy, elderly men:<br />
rel<strong>at</strong>ionship to physical activity. Aging Male 6: 100-105, 2003.<br />
60. Kendrick ZV, <strong>an</strong>d Ellis GS. Effect of estradiol on tissue glycogen metabolism <strong>an</strong>d lipid<br />
availability in exercised male r<strong>at</strong>s. J Appl Physiol 71: 1694-1699, 1991.<br />
61. Kendrick ZV, Steffen CA, Rumsey WL, <strong>an</strong>d Goldberg DI. Effect of estradiol on<br />
tissue glycogen metabolism in exercised ooph<strong>or</strong>ectomized r<strong>at</strong>s. J Appl Physiol 63: 492-496,<br />
1987.<br />
62. Kuipers H. Exercise-induced muscle damage. Int J Sp<strong>or</strong>ts Med 15: 132-135, 1994.<br />
63. Maud P, <strong>an</strong>d Schultz B. Gender comparisons in <strong>an</strong>aerobic power <strong>an</strong>d <strong>an</strong>aerobic capacity<br />
test. Br J Sp<strong>or</strong>ts Med 20: 51-54, 1986.<br />
64. McClar<strong>an</strong> S, Harms C, Pegelow D, <strong>an</strong>d Dempsey J. Smaller lungs in women affect<br />
exercise hyperpnea. J Appl Physiol 84: 1872-1881, 1998.<br />
65. Mead J. Dys<strong>an</strong>apsis in n<strong>or</strong>mal lungs assessed by the rel<strong>at</strong>ionship between maximal flow,<br />
st<strong>at</strong>ic recoil, <strong>an</strong>d vital capacity. Am Rev Respir Dis 121: 339-343, 1980.<br />
66. Mittend<strong>or</strong>fer B, H<strong>or</strong>owitz JF, <strong>an</strong>d Klein S. Effect of gender on lipid kinetics during<br />
endur<strong>an</strong>ce exercise of moder<strong>at</strong>e intensity in untrained subjects. Am J Physiol Endocrinol Metab<br />
283: E58-65, 2002.<br />
67. Ramirez I. Estradiol-induced ch<strong>an</strong>ges in lipoprotein lipase, e<strong>at</strong>ing, <strong>an</strong>d body weight in<br />
r<strong>at</strong>s. Am J Physiol (Endocrinol Metab) 240: E533-E538, 1981.<br />
68. Roepst<strong>or</strong>ff C, Thiele M, Hillig T, Pilegaard H, <strong>an</strong>d Richter E. Higher skeletal muscle<br />
alpha-2-AMPK activ<strong>at</strong>ion <strong>an</strong>d lower energy charge <strong>an</strong>d f<strong>at</strong> oxid<strong>at</strong>ion in men th<strong>an</strong> women during<br />
submaximal exercise. J Physiol 574: 2006.<br />
69. Romijn JA, Coyle EF, Sidossis LS, Rosenbl<strong>at</strong>t J, <strong>an</strong>d Wolfe RR. Substr<strong>at</strong>e<br />
metabolism during different exercise intensities in endur<strong>an</strong>ce-trained women. J Appl Physiol 88:<br />
1701-1714, 2000.<br />
70. Rooney TP, Kendrick ZV, Carlson J, Ellis GS, M<strong>at</strong>akevich B, L<strong>or</strong>usso SM, <strong>an</strong>d<br />
McCall JA. Effect of estradiol on the temp<strong>or</strong>al p<strong>at</strong>tern of exercise-induced tissue glycogen<br />
depletion in male r<strong>at</strong>s. J Appl Physiol 75: 1502-1506, 1993.
Change language