Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica

Ha sido reportado que numerosos factores de crecimiento y citoquinas suprimen la producción del estradiol por las células de la granulosa in vitro, pero la asociación de la expresión de tales factores in vivo representado en los folículos sanos y su significado fisiológico no son claros. La propuest...

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Fecha de publicación:: 2012

Institución:: Universidad de Caldas

Repositorio:: Repositorio Institucional U. Caldas

Idioma:: spa

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network_name_str	Repositorio Institucional U. Caldas
repository_id_str
dc.title.none.fl_str_mv	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica Role of the insulin-like growth factor (IGF-1) in the ovaric function regulation
title	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica
spellingShingle	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica Factor de crecimiento semejante a la insulina (IGF-1) folículos ovario dinámica folicular Insuline-like Growth Factor (IGF-1) follicles ovary follicular dynamic
title_short	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica
title_full	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica
title_fullStr	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica
title_full_unstemmed	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica
title_sort	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ovárica
dc.subject.none.fl_str_mv	Factor de crecimiento semejante a la insulina (IGF-1) folículos ovario dinámica folicular Insuline-like Growth Factor (IGF-1) follicles ovary follicular dynamic
topic	Factor de crecimiento semejante a la insulina (IGF-1) folículos ovario dinámica folicular Insuline-like Growth Factor (IGF-1) follicles ovary follicular dynamic
description	Ha sido reportado que numerosos factores de crecimiento y citoquinas suprimen la producción del estradiol por las células de la granulosa in vitro, pero la asociación de la expresión de tales factores in vivo representado en los folículos sanos y su significado fisiológico no son claros. La propuesta de esta revisión es mostrar estudios que soportan la importancia in vivo e in vitro del factor de crecimiento semejante a insulina (IGF-1), un factor de naturaleza peptídica que se origina en las células de la teca y que por diversos mecanismos interviene en las funciones de crecimiento, desarrollo y maduración folicular, así como sus productos en interacción directa con otros factores tipo gonadotropinas, esteroides gonadales y aromatasa en rumiantes, equinos, cerdos y humanos. El IGF-1 juega un importante papel en la foliculogénesis inducida por las gonadotrofinas, en la esteroidogénesis ovárica y en la función del cuerpo lúteo (CL), así como también modula la función pituitaria e hipotalámica. La revisión también explora los efectos del status nutricional en las concentraciones circulantes del IGF-1 y el papel endocrino del IGF-1 en el eje reproductivo.
publishDate	2012
dc.date.none.fl_str_mv	2012-07-21T00:00:00Z 2012-07-21T00:00:00Z 2012-07-21 2025-10-08T21:17:02Z 2025-10-08T21:17:02Z
dc.type.none.fl_str_mv	Artículo de revista http://purl.org/coar/resource_type/c_6501 http://purl.org/coar/resource_type/c_dcae04bc Text info:eu-repo/semantics/article Journal article http://purl.org/redcol/resource_type/ARTREV info:eu-repo/semantics/publishedVersion http://purl.org/coar/version/c_970fb48d4fbd8a85
dc.type.coar.fl_str_mv	http://purl.org/coar/resource_type/c_2df8fbb1
status_str	publishedVersion
dc.identifier.none.fl_str_mv	1657-9550 https://repositorio.ucaldas.edu.co/handle/ucaldas/23791 2462-960X https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/5851
identifier_str_mv	1657-9550 2462-960X
url	https://repositorio.ucaldas.edu.co/handle/ucaldas/23791 https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/5851
dc.language.none.fl_str_mv	spa
language	spa
dc.relation.none.fl_str_mv	159 149 6 Biosalud Adam C, Findlay PA, Moore AH. Effects of insulin-like growth factor-1 on luteinizing hormone secretion in sheep. Anim. Reprod. Sci. 1998; 50:45-56. Adam C, Gadd T, Findlay P, Whates D. Insulin-like growth factor (IGF)-I stimulation of luteinizing hormone secretion, IGF-binding proteins (IGFBPs) and expression of mRNAs for IGFs, IGF receptors and IGFBPs in the ovine pituitary gland. J. Endoc. 2000; 166:247-254. Armstrong D, Baxter G, Hogg C, Woad K. Insulin-like growth factor (IGF) system in the oocyte and somatic cells of bovine preantral follicles. Reproduction 2002; 123:789-797. Behl R, Pandey R. Effect os recombinant insulin like growth factor-1 on caprine granulosa cell steroidogenesis, in vitro. Small Rum. Res. 1999; 33:165-169. Berisha B, Schams D. Ovarian function in ruminants. Dom. Anim. Reprod. 2005; 9:305-317. Félix L. Factores correguladores del crecimiento y diferenciación folicular independiente de gonadotropinas. Disponible en: www.portalveterinaria.com [consultado 23 diciembre 2003]. Ferreira J, Toniolli R, Duarte A, Moreira F, García J. Ação do fator de crescimento semelhante à insulina I (IGF-I) e de suas proteínas ligadoras (IGFBPs) no desenvolvimento folicular de bovinos – Revisão. Rev. Bras. Reprod. Anim. 2002; 26:306-311. Ginther O, Bergfelt D, Beg M, Kot K. Effect of LH on circulating oestradiol and follicular fluid factor concentrations during follicle deviation in cattle. Reproduction 2001; 122:103-110. Hammond J. IGF (Insulin-like Growth Factor). In: Knobil E, Neill JD. Encyclopedia of Reproduction. San Diego: Academic Press; 1999. 2:781-789. Hashizume T, Ohtsuky K, Matsumoto N. Plasma insulin-like growth factor-I concentrations increase during the estrous phase in goats. Dom. Anim. Endoc. 2000; 18:253-263. Hashizume T, Kumahara A, Fujino M, Okada K. Insulin-like growth factor I enhances gonoadotropinreleasing hormone-stimulated luteinizing hormone release from bovine anterior pituitary cells. Anim. Reprod. Sci. 2002; 70:13-21. Hastie P, Onagbesan O, Haresign W. Co-expression of messenger ribonucleic acids encoding IGFI, IGF-II, type I and II IGF receptors and IGF-binding proteins (IGBP-1 to -6) during follicular development in the ovary of seasonally anoestrous ewes. Anim. Reprod. Sci. 2004; 84:93-105. Irving H, Catanzariti K, Master M, Grant P, Owens P, Rodgers R. Insulin-like growth factor binding proteins in follicular fluid from morphologically distinct healthy and atretic bovine antral follicles. Reprod. Fert. Dev. 2003; 15:241-248. Kadokawa H, Briegel J, Blackberry M, Blache D, Martin G, Adams N. Reproduction and plasma concentrations of leptin, insulin and insulin-like growth factor 1 in growth-hormone-transgenic female sheep before and after artificial insemination. Reprod. Fert. Dev. 2003; 15:47-53. Kawashima C, Sudo N, Amaya C, Kaneko E, Matsui M, Matsunaga N, et al. The role of the insulinlike growth factor 1 (IGF-1) in development of an estrogen-active dominant follicle during the first follicular wave postpartum in dairy cows. Reprod. Fert. Dev. 2006; 19:242-243. Khalid M, Basiouni G, Haresign W. Effect of progesterone pre-treatment on steroid secretion rates and follicular fluid insulin-like growth factor-1 concentrations in seasonally anoestrous ewes treated with gonadotrophin releasing hormone. Anim. Reprod. Sci. 1997; 46:69-78. Khalid M, Haresign W, Luck M. Secretion of IGF-1 by ovine granulosa cells: effects of growth hormone and follicle stimulating hormone. Anim. Reprod. Sci. 2000; 58:261-272. Khamsi F, Roberge S. Granulosa cells of cumulus oophorus are different from mural granulosa cells in their response to gonadotrophins and insulin-like growth factor-I. J. Endoc. 2001; 170:565-573. Kim J, Fazleabas A. Growth factors. In: Knobil E, Neill JD. Encyclopedia of Reproduction. San Diego: Academic Press; 1999. 2:573-583. Kobayashi Y, Jiménez F, Ireland J, Smith G. Evidence of a local negative role for cocaine and amphetamine regulated transcript (CART), inhibins and low molecular weight insulin like growth factor binding proteins in regulation of granulose cell estradiol production during follicular waves in cattle. Reprod. Biol. Endoc. 2006; 4:22-32. Lucy M. Regulation of ovarian follicular growth by somatotropin and insulin-like growth factors in cattle. J. Dairy Sci. 2000; 83:1635-1647. McCaffery H, Campbell B, Jelfer E. The effect of IGF-1 on the development of bovine preantral follicles in vitro. Biol. Reprod. 2001; 64:109. Monget P, Monniaux D. Growth factors and the control of folliculogenesis. J. Reprod. Fert. 1995; 105:321-233. Monget P, Fabre S, Mulsant P, Lecerf F, Elsen JM, Mazerbourg S, et al. Growth factors and ovarian physiology in domestic animals. Biotechnologie Agron. Soc. Env. 2001; 5 :16-17. Monniaux D, Huet C, Besnard N, Clément F, Bosc M, Pisselet C, et al. Follicular growth and ovarian dynamics in mammals. J. Reprod. Fert. 1997; 51:3-23. Monniaux D, Monget P, Besnard N, Huet C, Pisselet C. Growth factors and antral follicular development in domestic ruminants. Theriogenology 1997; 47:3-12. Nicholas B, Webb R, Hogg C, Baxter G, Goddard C, Armstrong D. Differentiative effects of IGF system components on bovine follicular cells. Biol. Reprod. 2001; 64:166. Nonaka S, Hashizume T, Horiuchi M, Mikami U, Osawa T, Miyake Y, et al. Origin of plasma insulinlike growth factor-I (IGF-I) during estrus in goats. J. Reprod. Dev. 2003; 49:253-258. O’Callaghan D, Yaakub H, Hyttel P, Spicer L, Boland M. Effect of nutrition and superovulation on oocyte morphology, follicular fluid composition and systemic hormone concentrations in ewes. J. Reprod. Fert. 2000; 118:303-313. Onagbesan O, Vleugels B, Buys N, Bruggeman V, Safi M, Decuypere E. Insulin-like growth factors in the regulation of avian ovarian functions. Dom. Anim. Endoc. 1999; 17:299-313. Peterson A, Ledgard A, Hodgkinson S. The proteolysis of insulin-like growth factor binding proteins in ovine uterine luminal fluid. Reprod. Fert. Dev. 1998; 10:309-314. Picazo R, López A. Desarrollo folicular en el ovario de la especie ovina. Inv. Agr. Prod. San. Anim. 1995; 10:77-93. Renaville R, Parmentier I, Hetzel S, Fontaine S, Haezebroeck V, Portetelle D. RIA method for plasma insulin-like growth factor-binding protein-3 quantification in cattle at various physiological situations. Biotech. Agro. Soc. Env. 2001; 5:92. Richards J, Russell D, Ochsner S, Hsieh M, Doyle K, Falender A, et al. Novel signaling pattways that control ovarian follicular development, ovulation, and luteinization. Rec. Prog. Horm. Res. 2002; 57:195-220. Roberts A, Al-Hassan M, Fricke P, Echternkamp S. Large variation in steroid concentrations and insulin-like growth factor binding proteins exists among individual small antral follicles collected from within cows at random stages of the estrous cycle. J. Anim. Sci. 2006; 84:2714-2724. Scaramuzzi R, Campbell B, Downing J, Kendall N, Khalid M, Muñoz M, et al. A review of the effects of supplementary nutrition in the ewe on the concentrations of reproductive and metabolic hormones and the mechanisms that regulate folliculogenesis and ovulation rate. Rep. Nut. Dev. 2006; 46:339-354. Scaramuzz R, Murray J, Downing J, Campbell B. The effects of exogenous growth hormone on follicular steroid secretion and ovulation rate in sheep. Dom. Anim. Endoc. 1999; 17:269-277. Schams D, Berisha B, Kosmann M, Einspanier R, Amselgruber W. Possible role of growth hormone, IGFs, and IGF-binding proteins in the regulation of ovarian function in large farm animals. Dom. Anim. Endoc. 1999; 17:279-285. Sirotkin A, Florkovicová I, Makarevich A, Schaeffer H, Kotwica J, Marnet P, et al. Oxytocin mediates some effects of insulin-like growth factor-I on porcine ovarian follicles. J. Rep. Dev. 2003; 49:141-149. Spicer L, Chamberlain C. Production of insulin-like growth factor-I by granulosa cels but not thecal cells is hormonally response in cattle. J. Anim. Sci. 2000; 78:2919-2926. Spicer L, Chamberlain C. Ptroteolysis of insulin-like growth factor binding proteins during preovulatory follicular development in cattle. Dom. Anim. Endoc. 2001; 21:1-15. Spicer L, Chamberlain C, Maciel S. Influence of gonadotropins on insulin- and insulin-like growth factor-I (IGF-I)-induced steroid production by bovine granulose cells. Dom. Anim. Endoc. 2002; 22:237-254. Spicer L, Echternkamp S. The ovarian insulin and insulin-like growth factor system with na enphasis on domestic animals. Dom. Anim. Endoc. 1995; 12:223-245. Spicer L, Echternkamp S, Wong E, Hamilton D, Vernon R. Serum hormones, follicular fluid steroids, insulin-like growth factors and their binding proteins, and ovarian IGF mRNA in sheep with different ovulation rates. J. Anim. Sci. 1995; 73:1152-1163. Spicer L, Hanrahan J, Zavy M, Enright W. Relationship between ovulation rate and concentrations of insulin-like growth factor-1 in plasma during the estrous cycle in various genotypes of sheep. J. Rep. Fert. 1993; 97:403-409. Spicer L, Santiago C, Davidson T, Bridges T, Chamberlain C. Follicular fluid concentrations of free insulin-like growth factor (IGF)-I during follicular development in mares. Dom. Anim. Endoc. 2005; 29:573-581. Stevenson K, Whates D. Insulin-lije growth factors and their binding proteins in the ovine oviduct during the oestrous cycle. J. Rep. Fert. 1996; 108:31-40. Woad K, Baxter G, Hogg C, Bramley T, Webb R, Armstrong D. Expression of mRNA encoding insulin-like growth factors I and II and the type 1 IGF receptor in the bovine corpus luteum at defined stages of the estrous cycle. J. Rep. Fert. 2000; 120:293-302. Xia Y, Weiss J, Polack S, Diedrich K, Ortmann O. Experimental sutdy: Intercations of insulin-like growth factor-I, insulin and estradiol with GnRH-stimulated luteinizing hormone release from female rat gonadotrophs. Europ. J. Endoc. 2001;144:73-79. Zulu V, Nakada K, Sawamukai Y. Insulin-like growth factor-I as a possible hormonal mediator of nutritional regulation in reproduction in cattle. J. Vet. Med. Sci. 2002; 64:657-665. Zulu V, Sawamukai Y, Nakada K, Kida K, Moriyoshi M. Relationship among insulin-like growth factor-I, blood metabolities and postpartum ovarian function in dairy cows. J. Vet. Med. Sci. 2002; 64:879-885. , Año 2007 : Enero - Diciembre https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/download/5851/5290
dc.rights.none.fl_str_mv	Revista Biosalud - 2007 https://creativecommons.org/licenses/by-nc-sa/4.0/ info:eu-repo/semantics/openAccess http://purl.org/coar/access_right/c_abf2
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dc.publisher.none.fl_str_mv	Universidad de Caldas
publisher.none.fl_str_mv	Universidad de Caldas
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spelling	Papel del factor de crecimiento semejante a la insulina (IGF-1) en la regulación de la función ováricaRole of the insulin-like growth factor (IGF-1) in the ovaric function regulationFactor de crecimiento semejante a la insulina (IGF-1)folículosovariodinámica folicularInsuline-like Growth Factor (IGF-1)folliclesovaryfollicular dynamicHa sido reportado que numerosos factores de crecimiento y citoquinas suprimen la producción del estradiol por las células de la granulosa in vitro, pero la asociación de la expresión de tales factores in vivo representado en los folículos sanos y su significado fisiológico no son claros. La propuesta de esta revisión es mostrar estudios que soportan la importancia in vivo e in vitro del factor de crecimiento semejante a insulina (IGF-1), un factor de naturaleza peptídica que se origina en las células de la teca y que por diversos mecanismos interviene en las funciones de crecimiento, desarrollo y maduración folicular, así como sus productos en interacción directa con otros factores tipo gonadotropinas, esteroides gonadales y aromatasa en rumiantes, equinos, cerdos y humanos. El IGF-1 juega un importante papel en la foliculogénesis inducida por las gonadotrofinas, en la esteroidogénesis ovárica y en la función del cuerpo lúteo (CL), así como también modula la función pituitaria e hipotalámica. La revisión también explora los efectos del status nutricional en las concentraciones circulantes del IGF-1 y el papel endocrino del IGF-1 en el eje reproductivo.Numerous growth factors and cytokines have been reported to suppress granulosa cell estradiol production in vitro, but the association of expression of such factors in vivo with follicle health status and their physiological significance are not clear. The purpose of this review is to show several studies that support the physiological importance in vivo and in vitro of Insulin-like Growth Factor (IGF-1), a peptidic factor that originates in the teca cells and that by different means acts upon follicular growth, development and maturation functions, as well as their products in direct interactions with other gonadotropins, gonadal steroids and aromatase in ruminants, horses, pigs and humans. IGF-I plays an important role in gonadotrophin-induced folliculogenesis, ovarian steroidogenesis and luteous body (LB) function. It also modulates pituitary and hypothalamus function. The review also explores the effect of the nutritional status in the circulating IGF-I concentrations and the endocrine role of IGF-1 on the reproductive axis.Universidad de Caldas2012-07-21T00:00:00Z2025-10-08T21:17:02Z2012-07-21T00:00:00Z2025-10-08T21:17:02Z2012-07-21Artículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_dcae04bcTextinfo:eu-repo/semantics/articleJournal articlehttp://purl.org/redcol/resource_type/ARTREVinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_2df8fbb1application/pdf1657-9550https://repositorio.ucaldas.edu.co/handle/ucaldas/237912462-960Xhttps://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/5851https://revistasojs.ucaldas.edu.co/index.php/biosalud/article/view/5851spa1591496BiosaludAdam C, Findlay PA, Moore AH. Effects of insulin-like growth factor-1 on luteinizing hormone secretion in sheep. Anim. Reprod. Sci. 1998; 50:45-56.Adam C, Gadd T, Findlay P, Whates D. Insulin-like growth factor (IGF)-I stimulation of luteinizing hormone secretion, IGF-binding proteins (IGFBPs) and expression of mRNAs for IGFs, IGF receptors and IGFBPs in the ovine pituitary gland. J. Endoc. 2000; 166:247-254.Armstrong D, Baxter G, Hogg C, Woad K. Insulin-like growth factor (IGF) system in the oocyte and somatic cells of bovine preantral follicles. Reproduction 2002; 123:789-797.Behl R, Pandey R. Effect os recombinant insulin like growth factor-1 on caprine granulosa cell steroidogenesis, in vitro. Small Rum. Res. 1999; 33:165-169.Berisha B, Schams D. Ovarian function in ruminants. Dom. Anim. Reprod. 2005; 9:305-317.Félix L. Factores correguladores del crecimiento y diferenciación folicular independiente de gonadotropinas. Disponible en: www.portalveterinaria.com [consultado 23 diciembre 2003].Ferreira J, Toniolli R, Duarte A, Moreira F, García J. Ação do fator de crescimento semelhante à insulina I (IGF-I) e de suas proteínas ligadoras (IGFBPs) no desenvolvimento folicular de bovinos – Revisão. Rev. Bras. Reprod. Anim. 2002; 26:306-311.Ginther O, Bergfelt D, Beg M, Kot K. Effect of LH on circulating oestradiol and follicular fluid factor concentrations during follicle deviation in cattle. Reproduction 2001; 122:103-110.Hammond J. IGF (Insulin-like Growth Factor). In: Knobil E, Neill JD. Encyclopedia of Reproduction. San Diego: Academic Press; 1999. 2:781-789.Hashizume T, Ohtsuky K, Matsumoto N. Plasma insulin-like growth factor-I concentrations increase during the estrous phase in goats. Dom. Anim. Endoc. 2000; 18:253-263.Hashizume T, Kumahara A, Fujino M, Okada K. Insulin-like growth factor I enhances gonoadotropinreleasing hormone-stimulated luteinizing hormone release from bovine anterior pituitary cells. Anim. Reprod. Sci. 2002; 70:13-21.Hastie P, Onagbesan O, Haresign W. Co-expression of messenger ribonucleic acids encoding IGFI, IGF-II, type I and II IGF receptors and IGF-binding proteins (IGBP-1 to -6) during follicular development in the ovary of seasonally anoestrous ewes. Anim. Reprod. Sci. 2004; 84:93-105.Irving H, Catanzariti K, Master M, Grant P, Owens P, Rodgers R. Insulin-like growth factor binding proteins in follicular fluid from morphologically distinct healthy and atretic bovine antral follicles. Reprod. Fert. Dev. 2003; 15:241-248.Kadokawa H, Briegel J, Blackberry M, Blache D, Martin G, Adams N. Reproduction and plasma concentrations of leptin, insulin and insulin-like growth factor 1 in growth-hormone-transgenic female sheep before and after artificial insemination. Reprod. Fert. Dev. 2003; 15:47-53.Kawashima C, Sudo N, Amaya C, Kaneko E, Matsui M, Matsunaga N, et al. The role of the insulinlike growth factor 1 (IGF-1) in development of an estrogen-active dominant follicle during the first follicular wave postpartum in dairy cows. Reprod. Fert. Dev. 2006; 19:242-243.Khalid M, Basiouni G, Haresign W. Effect of progesterone pre-treatment on steroid secretion rates and follicular fluid insulin-like growth factor-1 concentrations in seasonally anoestrous ewes treated with gonadotrophin releasing hormone. Anim. Reprod. Sci. 1997; 46:69-78.Khalid M, Haresign W, Luck M. Secretion of IGF-1 by ovine granulosa cells: effects of growth hormone and follicle stimulating hormone. Anim. Reprod. Sci. 2000; 58:261-272.Khamsi F, Roberge S. Granulosa cells of cumulus oophorus are different from mural granulosa cells in their response to gonadotrophins and insulin-like growth factor-I. J. Endoc. 2001; 170:565-573.Kim J, Fazleabas A. Growth factors. In: Knobil E, Neill JD. Encyclopedia of Reproduction. San Diego: Academic Press; 1999. 2:573-583.Kobayashi Y, Jiménez F, Ireland J, Smith G. Evidence of a local negative role for cocaine and amphetamine regulated transcript (CART), inhibins and low molecular weight insulin like growth factor binding proteins in regulation of granulose cell estradiol production during follicular waves in cattle. Reprod. Biol. Endoc. 2006; 4:22-32.Lucy M. Regulation of ovarian follicular growth by somatotropin and insulin-like growth factors in cattle. J. Dairy Sci. 2000; 83:1635-1647.McCaffery H, Campbell B, Jelfer E. The effect of IGF-1 on the development of bovine preantral follicles in vitro. Biol. Reprod. 2001; 64:109.Monget P, Monniaux D. Growth factors and the control of folliculogenesis. J. Reprod. Fert. 1995; 105:321-233.Monget P, Fabre S, Mulsant P, Lecerf F, Elsen JM, Mazerbourg S, et al. Growth factors and ovarian physiology in domestic animals. Biotechnologie Agron. Soc. Env. 2001; 5 :16-17.Monniaux D, Huet C, Besnard N, Clément F, Bosc M, Pisselet C, et al. Follicular growth and ovarian dynamics in mammals. J. Reprod. Fert. 1997; 51:3-23.Monniaux D, Monget P, Besnard N, Huet C, Pisselet C. Growth factors and antral follicular development in domestic ruminants. Theriogenology 1997; 47:3-12.Nicholas B, Webb R, Hogg C, Baxter G, Goddard C, Armstrong D. Differentiative effects of IGF system components on bovine follicular cells. Biol. Reprod. 2001; 64:166.Nonaka S, Hashizume T, Horiuchi M, Mikami U, Osawa T, Miyake Y, et al. Origin of plasma insulinlike growth factor-I (IGF-I) during estrus in goats. J. Reprod. Dev. 2003; 49:253-258.O’Callaghan D, Yaakub H, Hyttel P, Spicer L, Boland M. Effect of nutrition and superovulation on oocyte morphology, follicular fluid composition and systemic hormone concentrations in ewes. J. Reprod. Fert. 2000; 118:303-313.Onagbesan O, Vleugels B, Buys N, Bruggeman V, Safi M, Decuypere E. Insulin-like growth factors in the regulation of avian ovarian functions. Dom. Anim. Endoc. 1999; 17:299-313.Peterson A, Ledgard A, Hodgkinson S. The proteolysis of insulin-like growth factor binding proteins in ovine uterine luminal fluid. Reprod. Fert. Dev. 1998; 10:309-314.Picazo R, López A. Desarrollo folicular en el ovario de la especie ovina. Inv. Agr. Prod. San. Anim. 1995; 10:77-93.Renaville R, Parmentier I, Hetzel S, Fontaine S, Haezebroeck V, Portetelle D. RIA method for plasma insulin-like growth factor-binding protein-3 quantification in cattle at various physiological situations. Biotech. Agro. Soc. Env. 2001; 5:92.Richards J, Russell D, Ochsner S, Hsieh M, Doyle K, Falender A, et al. Novel signaling pattways that control ovarian follicular development, ovulation, and luteinization. Rec. Prog. Horm. Res. 2002; 57:195-220.Roberts A, Al-Hassan M, Fricke P, Echternkamp S. Large variation in steroid concentrations and insulin-like growth factor binding proteins exists among individual small antral follicles collected from within cows at random stages of the estrous cycle. J. Anim. Sci. 2006; 84:2714-2724.Scaramuzzi R, Campbell B, Downing J, Kendall N, Khalid M, Muñoz M, et al. A review of the effects of supplementary nutrition in the ewe on the concentrations of reproductive and metabolic hormones and the mechanisms that regulate folliculogenesis and ovulation rate. Rep. Nut. Dev. 2006; 46:339-354.Scaramuzz R, Murray J, Downing J, Campbell B. The effects of exogenous growth hormone on follicular steroid secretion and ovulation rate in sheep. Dom. Anim. Endoc. 1999; 17:269-277.Schams D, Berisha B, Kosmann M, Einspanier R, Amselgruber W. Possible role of growth hormone, IGFs, and IGF-binding proteins in the regulation of ovarian function in large farm animals. Dom. Anim. 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Sci. 2002; 64:879-885., Año 2007 : Enero - Diciembrehttps://revistasojs.ucaldas.edu.co/index.php/biosalud/article/download/5851/5290Revista Biosalud - 2007https://creativecommons.org/licenses/by-nc-sa/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Lenz Souza, Maria InêsRamírez Benavides, Ginés FernandoUribe Velásquez, Luis Fernandooai:repositorio.ucaldas.edu.co:ucaldas/237912025-10-08T21:17:02Z

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