Enerji Uygunluğu ve Atletik Triad: Spor Bilimleri Yaklaşımı
Özet
Referanslar
American Academy of Family Physicians, American Academy of Pediatrics, American College of Sports Medicine, & American Medical Society for Sports Medicine. (2010). Preparticipation physical evaluation. Burnett, A.F. (2001). Clinical Obstetrics and Gynecology: A Problem Based Approach. ABD: Blackwell Science.
Barrack, M. T., Rauh, M. J., Barkai, H. S., & Nichols, J. F. (2008). Dietary restraint and low bone mass in female adolescent endurance runners. The American journal of clinical nutrition, 87(1), 36-43.
Curry, E. J., Logan, C., Ackerman, K., McInnis, K. C., & Matzkin, E. G. (2015). Female athlete triad awareness among multispecialty physicians. Sports medicine-open, 1(1), 38.Dadgostar, H. Razi, M. Aleyasin, A. Alenabi, T. Dahaghin, S. (2009). The Relation Between Athletic Sports and Prevalence of Amenorrhea and Oligomenorrhea in Iranian Female Athletes Tehran University Iran. Sport Medicine, Arthroscophy, Rehabilitation, Theraphy & Technology 1 (1), 1-7.
De Souza, M. J., Nattiv, A., Joy, E., Misra, M., Williams, N. I., Mallinson, R. J., ... & Matheson, G. (2014). 2014 female athlete triad coalition consensus statement on treatment and return to play of the female athlete triad: 1st International Conference held in San Francisco, California, May 2012 and 2nd International Conference held in Indianapolis, Indiana, May 2013. British journal of sports medicine, 48(4), 289-289.DeChertey, A.H. ve Nathan, L. (2002). Current Obstetric & Gynecologic Diagnosis & Treatment. ABD: International Edition.
Duckham, R. L., Peirce, N., Meyer, C., Summers, G. D., Cameron, N., & Brooke-Wavell, K. (2012). Risk factors for stress fracture in female endurance athletes: a cross-sectional study. BMJ open, 2(6), e001920.Gibbs JC, Williams NI, De Souza MJ. Prevalence of individual and combined components of the female athlete triad. Med Sci Sports Exerc 2013: 45 (5): 985–996.
Gönener, U., & Gönener, A. (2020). How balance training on different types of surfaces effect dynamic balance ability and postural sway of gymnast children?. Progress in Nutrition, 22.
Javed, A., Tebben, P. J., Fischer, P. R., & Lteif, A. N. (2013, September). Female athlete triad and its components: toward improved screening and management. In Mayo Clinic Proceedings (Vol. 88, No. 9, pp. 996-1009). Elsevier.
Joy, E., De Souza, M. J., Nattiv, A., Misra, M., Williams, N. I., Mallinson, R. J., ... & Borgen, J. S. (2014). 2014 female athlete triad coalition consensus statement on treatment and return to play of the female athlete triad. Current sports medicine reports, 13(4), 219-232.
Judith, M. H. Mary, E. Karen Freund, (2000). Detection, Evaluation and Treathment Eating Disorder. Society of General International Medicine. Volume 15. 577-590.
Łagowska, K., & Kapczuk, K. (2016). Testosterone concentrations in female athletes and ballet dancers with menstrual disorders. European Journal of Sport Science, 16(4), 490-497.
Ljungqvist, A., Jenoure, P., Engebretsen, L., Alonso, J. M., Bahr, R., Clough, A., ... & Thill, C. (2009). The International Olympic Committee (IOC) Consensus Statement on periodic health evaluation of elite athletes March 2009. British journal of sports medicine, 43(9), 631-643.
Logue, D., Madigan, S. M., Delahunt, E., Heinen, M., Mc Donnell, S. J., & Corish, C. A. (2018). Low energy availability in athletes: a review of prevalence, dietary patterns, physiological health, and sports performance. Sports medicine, 48(1), 73-96.
Loucks, A. B., & Thuma, J. R. (2003). Luteinizing hormone pulsatility is disrupted at a threshold of energy availability in regularly menstruating women. The Journal of Clinical Endocrinology & Metabolism, 88(1), 297-311.
Loucks, A. B., Kiens, B., & Wright, H. H. (2013). Energy availability in athletes. Food, Nutrition and Sports Performance III, 7-15.
Loucks, A. B., Verdun, M., & Heath, E. M. (1998). Low energy availability, not stress of exercise, alters LH pulsatility in exercising women. Journal of applied physiology.
Mallinson, R. J., Williams, N. I., Hill, B. R., & De Souza, M. J. (2013). Body composition and reproductive function exert unique influences on indices of bone health in exercising women. Bone, 56(1), 91-100.
Melin, A., Tornberg, Å. B., Skouby, S., Møller, S. S., Sundgot‐Borgen, J., Faber, J., ... & Sjödin, A. (2015). Energy availability and the female athlete triad in elite endurance athletes. Scandinavian journal of medicine & science in sports, 25(5), 610-622.
Miller, S. M., Kukuljan, S., Turner, A. I., van der Pligt, P., & Ducher, G. (2012). Energy deficiency, menstrual disturbances, and low bone mass: what do exercising Australian women know about the female athlete triad?. International journal of sport nutrition and exercise metabolism, 22(2), 131-138.
Mountjoy, M., Sundgot-Borgen, J., Burke, L., Ackerman, K. E., Blauwet, C., Constantini, N., ... & Budgett, R. (2018). International Olympic Committee (IOC) consensus statement on relative energy deficiency in sport (RED-S): 2018 update. International Journal of Sport Nutrition and Exercise Metabolism, 28(4), 316-331. https://doi.org/10.1123/ijsnem.2018-0136
Mountjoy, M., Sundgot-Borgen, J., Burke, L., Carter, S., Constantini, N., Lebrun, C., ... & Ljungqvist, A. (2014). The IOC consensus statement: beyond the female athlete triad—relative energy deficiency in sport (RED-S). British journal of sports medicine, 48(7), 491-497.
Muia, E. N., Wright, H. H., Onywera, V. O., & Kuria, E. N. (2016). Adolescent elite Kenyan runners are at risk for energy deficiency, menstrual dysfunction and disordered eating. Journal of Sports Sciences, 34(7), 598-606.
Nattiv, A., Loucks, A.B., Manore, M.M., Sanborn, C.F., Sundgot-Borgen, J., & Warren, M.P. (2007). The female athlete triad. Medicine & Science in Sports & Exercise, 39(10), 1867–1882. https://doi.org/10.1249/mss.0b013e318149f111
Nazem, T. G., & Ackerman, K. E. (2012). The female athlete triad. Sports Health, 4(4), 302–311. https://doi.org/10.1177/1941738112439685
on Osteoporosis, N. C. D. P., & Prevention, D. (2001). Osteoporosis prevention, diagnosis, and therapy. Jama, 285(6), 785-795.
Öztürk, F., & Sertbaş, K. (2021). A comparison of the school engagement levels of science high school students who do sports and not do sports. Pegem Journal of Education and Instruction, 11(4), 20-32.
Pehlivan, A. (2005). Sporda Beslenme. İstanbul:Morpa Kültür Yayınları
Statuta, S. M. (2020). The female athlete triad, relative energy deficiency in sport, and the male athlete triad: the exploration of low-energy syndromes in athletes. Current sports medicine reports, 19(2), 43-44.
Sundgot-Borgen, J., & Torstveit, M. K. (2004). Prevalence of eating disorders in elite athletes is higher than in the general population. Clinical journal of sport medicine, 14(1), 25-32.
Sundgot-Borgen, J., & Torstveit, M. K. (2007). The female football player, disordered eating, menstrual function and bone health. British journal of sports medicine, 41(suppl 1), i68-i72.
Tenforde, A. S., Fredericson, M., Sayres, L. C., Cutti, P., & Sainani, K. L. (2015). Identifying sex-specific risk factors for low bone mineral density in adolescent runners. The American journal of sports medicine, 43(6), 1494-1504.
VanHeest, J. L., Rodgers, C. D., Mahoney, C. E., & De Souza, M. J. (2014). Ovarian suppression impairs sport performance in junior elite female swimmers. Med Sci Sports Exerc, 46(1), 156-66.
Witkoś, J., Błażejewski, G., & Gierach, M. (2023). The low energy availability in females questionnaire (LEAF-Q) as a useful tool to identify female triathletes at risk for menstrual disorders related to low energy availability. Nutrients, 15(3), 650.
Yeager, K. K., Agostini, R., Nattiv, A., & Drinkwater, B. (1993). The female athlete triad: disordered eating, amenorrhea, osteoporosis. Medicine & Science in Sports & Exercise.
