References

Adashi, E.Y., 1994. Endocrinology of the ovary. Hum. Reprod., 9: 36-51.

Anonymous, 1997. Revised Reference Values of Racing Camels. Central Veterinary Research Laboratory, Dubai, UAE..

Arshad, H.M., N. Ahmad, Zia-Ur-Rahman, H.A. Samad, N. Akhtar and S. Ali, 2005. Studies on some biochemical constituents of ovarian follicular fluid and peripheral blood in buffaloes. Pak. Vet. J., 25: 189-193.
Direct Link  |  

Bagavandos, P., A.R. Midgley and M. Wicha, 1983. Developmental changes in the ovarian follicular basal lamina detected by immuno-fluorescence and electron microscopy. J. Histochem. Cytochem., 31: 633-640.
PubMed  |  

Chang, S.C.S., J.D. Jones, R.D. Ellefson and R.J. Ryan, 1976. The porcine ovarian follicle: I. Selected chemical analysis of follicular fluid at different developmental stages. Biol. Reprod., 15: 321-328.
PubMed  |  

Collins, A., E. Palmer, J. Bezard, J. Burke, G. Duchamp and T. Buckley, 1997. A comparison of the biochemical composition of equine follicular fluid and serum at four different stages of the follicular cycle. Equine Vet. J., 29: 12-16.
CrossRef  |  Direct Link  |  

Dalvi, S.H., A.M. Mantri, B.A. Talvelkar, B.A. Kulkarni, D.D. Patankar and M. Walawalkar, 1998. Blood metabolic profiles of Indian camel (Camelus dromedarius) under hot humid climate of Konkan Region. Indian Vet. J., 75: 217-220.
Direct Link  |  

De-Wit, A.A.C., M.L.F. Cesar and T.A.M. Kruip, 2001. Effect of urea during in vitro maturation on nuclear maturation and embryo development of bovine cumulus-oocyte complexes. J. Dairy Sci., 84: 1800-1804.

Driancourt, M.A. and B. Thuel, 1998. Control of oocyte growth and maturation by follicular cells and molecules present in follicular fluid. A review. Reprod. Nutr. Dev., 38: 345-362.
PubMed  |  Direct Link  |  

Gerard, N., S. Loiseau, G. Duchamp and F. Seguin, 2002. Analysis of the variations of follicular fluid composition during follicular growth and maturation in the mare using proton nuclear magnetic resonance (¹H NMR). Reproduction, 124: 241-248.
CrossRef  |  Direct Link  |  

Gomez, E., 1997. Acetoacetate and-hydroxybutyrate as energy substrates during early bovine embryo development in vitro. Theriogenology, 48: 63-74.
CrossRef  |  

Gosden, R.G., R.H.F. Hunter, E. Telfer, C. Torrance and N. Brown, 1988. Physiological factors underlying the formation of ovarian follicular fluid. J. Reprod. Fertil., 82: 813-825.
PubMed  |  Direct Link  |  

Hashimoto, S., N. Minami, M. Yamada and H. Imai, 2000. Excessive concentration of glucose during in vitro maturation impairs the developmental competence of bovine oocytes after in vitro fertilization: Relevance to intracellular reactive oxygen species and glutathione contents. Mol. Reprod. Dev., 56: 520-526.
CrossRef  |  PubMed  |  Direct Link  |  

Izadyar, F., H.T. van Tol, B. Colenbrander and M.M. Bevers, 1997. Stimulatory effect of growth hormone on in vitro maturation of bovine oocytes is exerted through cumulus cells and not mediated by IGF-I. Mol. Reprod. Dev., 47: 175-180.
PubMed  |  Direct Link  |  

Jozwik, M., M. Jozwik, S. Wolczynski, M. Jozwik and M. Szamatowicz, 2001. Ammonia concentration in human preovulatoy ovarian follicles. Eur. J. Obstetrics Gynecol. Reprod. Biol., 94: 256-260.
Direct Link  |  

Kim, J.Y., M. Kinoshita, M. Ohnishi and Y. Fukui, 2001. Lipid and fatty acid analysis of fresh and frozen-thawed immature and in vitro matured bovine oocytes. Reproduction, 122: 131-138.
Direct Link  |  

Landau, S., R. Braw-Tal, M. Kaim, A. Bor and I. Bruckental, 2000. Preovulatory follicular status and diet affect the insulin and glucose content of follicles in high-yielding dairy cows. Anim. Reprod. Sci., 64: 181-197.
Direct Link  |  

Leroy, J.L., T. Vanholder, J.R. Delanghe, G. Opsomer, A. Van Soom, P.E. Bols, and A. de Kruif, 2004. Metabolite and ionic composition of follicular fluid from different-sized follicles and their relationship to serum concentrations in dairy cows. Anim. Reprod. Sci., 80: 201-211.
CrossRef  |  PubMed  |  Direct Link  |  

McNatty, K.P., D.M. Smith, A. Makris, R. Osathanondh and K.J. Ryan, 1979. The microenvironment of the human antral follicle: Interrelationships among the steroid levels in the antral fluid, the population of granulosa cells and the status of the oocyte in vivo and in vitro. J. Clin. Endocrinol. Metab., 49: 851-860.
CrossRef  |  

O'Callaghan, D. and M.P. Boland, 1999. Nutritional effects on ovulation, embryo development and the establishment of pregnancy in ruminants. Anim. Sci., 68: 299-314.
Direct Link  |  

Okuda, Y., H. Okamura, H. Kanzaki, A. Takenaka, K. Morimoto and T. Nishimura, 1982. An ultrastructural study of capillary permeability of rabbit ovarian follicles using horseradish peroxidase as a tracer. Nippon. Sanka. Fujinka. Gakkai. Zasshi., 34: 181-186.
PubMed  |  Direct Link  |  

Payer, A.F., 1975. Permeability of ovarian follicles and capillaries in mice. Am. J. Anatomy, 142: 295-317.
CrossRef  |  

Perveen, S. and R.H. Usmani, 1993. Peripartum profiles of certain haematological and biochemical parameters in normally calving buffaloes. J. Anim. Health Prod., 12-13: 55-60.

Quayam, S.A., T.G. Devanathan and S.R. Pattabiraman, 1988. Studies on the influence of mineral, biochemical and haematological concentrations at 5 days postpartum on the occurrence of postpartum oestrus in she buffaloes. Indian Vet. J., 65: 236-238.

Simpson, R.B., C.C. Chase, L.J. Spicer, R.K. Vernan, A.C. Hammond and D.O. Rae, 1994. Effects of exogenous insulin on plasma and follicular insulin-like growth factor-I, insulin-like growth factor binding protein activity, follicular estradiol and progesterone and follicular growth in superovulated Angus and Brahman cows. J. Reprod. Fert., 102: 483-492.
CrossRef  |  Direct Link  |  

Wehrman, M.E., M.S. Roberson, A.S. Cupp, F.N. Kojima and T.T. Stumpf et al., 1993. Increasing exogenous progesterone during synchronization of estrus decreases endogenous17β-estradiol and increases conception in cows. Biol. Reprod., 49: 214-220.
Direct Link  |  

Wise, T., 1987. Biochemical analysis of bovine follicular fluid: Albumin, total protein, lysosomal enzymes, ions, steroids and ascorbic acid content in relation to follicular size, rank, atresia classification and day of estrous cycle. J. Anim. Sci., 64: 1153-1169.
PubMed  |  Direct Link  |