[Alaunyte I., Stojceska V., Plunkett A. (2015). Iron and the female athlete:areview of dietary treatment methods for improving iron status and exercise performance. J. Int. Soc. Sports Nutr., 12:38.]Search in Google Scholar
[Assenza A., Bergero D., Congiu F., Tosto F., Giannetto C., Piccione G. (2014). Evaluation of serum electrolytes and blood lactate concentration during repeated maximal exercise in horse. J. Equine Vet. Sci., 34: 1175-1180.]Search in Google Scholar
[Assenza A., Casella S., Giannetto C., Fazio F., Tosto F., Piccione G. (2016). Iron profile in Thoroughbreds duringastandard training program. Aust. Vet. J., 94: 60-63.]Search in Google Scholar
[Beard J., Tobin B. (2000). Iron status and exercise. Am. J. Clin. Nutr., 72: 594S-597S.]Search in Google Scholar
[Brumitt J., Mc Intosh L., Rutt R. (2009). Comprehensive sports medicine treatment of an athlete who runs cross-country and is iron deficient. N. Am. J. Sports Phys. Ther., 4: 13-20.]Search in Google Scholar
[Camus G., Deby - Dupont G., Deby C., Juchmès- Ferir A., Pincemail J., Lam M. (1993). Inflammatory response to strenuous muscular exercise in man. Mediat. Inflamm., 2:335-342.]Search in Google Scholar
[Franken P., Wensing T., Schotman A.J.H. (1981). The concentration of iron in the liver, spleen and plasma, and amount of iron in bone marrow of horses. Zbl. Vet. Med. A, 28: 381-389.]Search in Google Scholar
[Gimenez M., Uffholtz H., Paysant P., Belleville F., Nabet P. (1988). Serum iron and transferrin during an exhaustive session of interval training. Eur. J. Appl. Physiol., 57: 154-158.]Search in Google Scholar
[Gondin M.R., Foz N.S.B., Pereira M.C., Flajari J.J., Orozco C.A.G., D ’ Angelis F.H.F., Queiroz- Neto A., Ferraz G.C. (2013). Acute phase responses of different positions of highgoal (elite) polo ponies. J. Equine Vet. Sci., 33: 956-961.]Search in Google Scholar
[Gottschalk R., Wigand R., Dietrich C.F., Oremek G., Liebisch F., Hoelzer D., Kaltwasser J.P. (2000). Total iron-binding capacity and serum transferrin determination under the influence of several clinical conditions. Clin. Chim. Acta., 293: 127-138.]Search in Google Scholar
[Habte K., Adish A., Zerfu D., Kebede A., Moges T., Tesfaye B., Challa F., Baye K. (2015). Iron, folate and vitamin B12 status of Ethiopian professional runners. Nutr. Metab., 12:62.]Search in Google Scholar
[Hanzawa K., Kubo K., Kai M., Hiraga A., Watanabe S. (1998). Effects of splenic erythrocytes and blood lactate levels on osmotic fragility of circulating red cells in thoroughbred horses during exercise. J. Equine Sci., 9: 107-112.]Search in Google Scholar
[Hinchcliff K.W., Kaneps A.J., Geor R.J. (2004). Equine Sports Medicine and Surgery. London, Saunders.]Search in Google Scholar
[Hinton P.S. (2014). Iron and the endurance athlete. Appl. Physiol. Nutr. Metab., 39: 1012-1018.]Search in Google Scholar
[Householder D.D., Douglas R.H. (2005). Total blood volume and thoroughbred racing performance. J. Equine Vet. Sci., 25: 14-15.]Search in Google Scholar
[Hyyppä S., H öyhtyä M., Nevalainen M., Pösö A.R. (2002). Effect of exercise on plasma ferritin concentrations: implications for the measurement of iron status. Equine Vet. J. Suppl., 34:186-190.]Search in Google Scholar
[Inoue Y., Osawa T., Matsui A., Asai Y., Murakami Y., Matsui T., Yano H. (2002). Changes of serum mineral concentrations in horses during exercise. Asian-Aust. J. Anim. Sci., 15:531-536.]Search in Google Scholar
[Inoue Y., Matsui A., Asai Y., Aoki F., Matsui T., Yano H. (2005). Effect of exercise on iron metabolism in horses. Biol. Trace Elem. Res., 107: 33-41.]Search in Google Scholar
[Johnson E.E., Wessling - Resnick M. (2012). Iron metabolism and the innate immune response to infection. Microbes Infect., 14: 207-216.]Search in Google Scholar
[Kaneko J.J., Harvey J.W., Bruss M.L. (1997). Clinical biochemistry of domestic animals. Academic Press, 5th ed.]Search in Google Scholar
[Kasugai A., Ogasawara M., Ito A. (1992). Effects of exercise on the iron balance in human body examined by the excretion of iron into urine, sweat and feces. Jpn. J. Phys. Fitness Sports Med., 41: 530-539.]Search in Google Scholar
[Kearns C.F., Mc Keever K.H., John - Alder H., Abe T., Brechue W.F. (2002). Relationship between body composition, blood volume and maximal oxygen uptake. Equine Vet. J. Suppl., 34: 485-490.]Search in Google Scholar
[Kobayashi Y., Nakatsuji A., Aoi W., Wada S., Kuwahata M., Kido Y. (2014). Intense exercise increases protein oxidation in spleen and liver of mice. Nutr. Metab. Insights, 7: 1-6.]Search in Google Scholar
[Martin - Rosset W. (1990). L’Alimentation des Chevaux. Versailles, INRA Edition.]Search in Google Scholar
[Mills P.C., Smith N.C., Casas I., Harris P., Harris R.C., Marlin D.J. (1996). Effects of exercise intensity and environmental stress on indices of oxidative stress and iron homeostasis during exercise in the horse. Eur. J. Appl. Physiol. Occup. Physiol., 74: 60-6610.1007/BF003764958891501]Search in Google Scholar
[Ming Q.Z., De Sheng X., Lai T.P. (2000). Changes of transferrin-free iron uptake by bone marrow erythroblasts in strenuously exercised rats. J. Nutr. Biochem., 11: 367-373.]Search in Google Scholar
[Muñoz M., Villar I., García- Erce J.A. (2009). An update on iron physiology. World J. Gastroenterol., 15: 4617-4626.]Search in Google Scholar
[Newhouse I.J., Clement D.B. (1988). Iron status in athletes: An update. Sports Med., 5: 337-352.]Search in Google Scholar
[Ohira Y., Kariya F., Yasui W., Sugawara S., Koyanagi K., Kaihatsu K., Inoue N., Hirata F., Chen C., Ohno H. (1995). Physical exercise and iron metabolism. In: Sports Nutrition: Minerals and Electrolytes, Kies C.V., Driskell J.A. (eds). CRC Press, London, Tokyo.]Search in Google Scholar
[Piccione G., Giannetto C., Fazio F., Di Mauro S., Caola G. (2007). Haematological response to different workload in jumper horse. Bulg. J. Vet. Med., 10: 21-28.]Search in Google Scholar
[Pratt C.A., Chrisley B. (1996). The effects of exercise on iron status and aerobic capacity in moderately exercising adult women. Nutr. Res., 16: 23-31.]Search in Google Scholar
[Schumacher Y.O., Schmid A., König D., Berg A. (2002). Effects of exercise on soluble transferrin receptor and other variables of the iron status. Br. J. Sports Med., 36: 195-199.]Search in Google Scholar
[Smith J.E., Moore K., Cipriano J.E., Morris P.G. (1984). Serum ferritin asameasure of stored iron in horses. J. Nutr., 114: 677-681.]Search in Google Scholar
[Snow D.H., Kerr M.G., Nimmo M.A., Abbott E.M. (1982). Alterations in blood, sweat, urine and muscle composition during prolonged exercise in the horse. Vet. Rec., 110: 377-384.]Search in Google Scholar
[Suryakala S., Deshpande V. (1999). Purification and characterization of liver ferritins from different animal species. Vet. Res. Comm., 23: 165-181.]Search in Google Scholar
[Suzuki K., Totsuka M., Nakaji S., Yamada M., Kudoh S., Liu Q., Sugawara K., Yamaya K., Sato K. (1999). Endurance exercise causes interaction among stress hormones, cytokines, neutrophil, dynamics, and muscle damage. J. Appl. Physiol., 87: 1360-1367.]Search in Google Scholar
[Wang J., Pantopoulos K. (2011). Regulation of cellular iron metabolism. Biochem. J., 434:365-381.]Search in Google Scholar