Estratégias para aumentar a produção de embriões em bovinos / Strategies to increase embryo production in cattle

As biotecnologias para produção de embriões in vivo e in vitro são de grande importância para acelerar o ganho genético dos rebanhos de corte e de leite. No entanto, o sucesso desses processos depende diretamente da quantidade e da qualidade dos oócitos da doadora de embrião. Diversos fatores influenciam a produção de embriões como a população folicular, a idade da doadora, o estresse térmico, o status metabólico e o status reprodutivo. Na atualidade, vários estudos têm sido desenvolvidos para elaborar estratégias que contornem estes desafios e aumentem a eficiência das técnicas de produção de embriões. Dentre os tratamentos estabelecidos para melhorar a produção de embriões das doadoras destacam-se a utilização de FSH, rBST, propilenoglicol e células tronco mesenquimais.(AU)

Biotechnologies for producing in vivo and in vitro embryos are very important to accelerate the genetic gain of beef and dairy herds. However, the success of these processes depend directly on the quantity and quality of the donors oocytes. Many factors influence the embryo production, such as follicle population, age, heat stress, metabolic status and reproductive status. Recently, many studies have been conducted to elaborate strategies that can overcome these issues and increase the efficiency of the embryo production techniques. Among the treatments developed to improve the embryo production, the use of FSH, rBST, propylene glycol and mesenchymal stem cells stand out.(AU)

Estratégias para aumentar a produção de embriões em bovinos / Strategies to increase embryo production in cattle

As biotecnologias para produção de embriões in vivo e in vitro são de grande importância para acelerar o ganho genético dos rebanhos de corte e de leite. No entanto, o sucesso desses processos depende diretamente da quantidade e da qualidade dos oócitos da doadora de embrião. Diversos fatores influenciam a produção de embriões como a população folicular, a idade da doadora, o estresse térmico, o status metabólico e o status reprodutivo. Na atualidade, vários estudos têm sido desenvolvidos para elaborar estratégias que contornem estes desafios e aumentem a eficiência das técnicas de produção de embriões. Dentre os tratamentos estabelecidos para melhorar a produção de embriões das doadoras destacam-se a utilização de FSH, rBST, propilenoglicol e células tronco mesenquimais.

Biotechnologies for producing in vivo and in vitro embryos are very important to accelerate the genetic gain of beef and dairy herds. However, the success of these processes depend directly on the quantity and quality of the donors oocytes. Many factors influence the embryo production, such as follicle population, age, heat stress, metabolic status and reproductive status. Recently, many studies have been conducted to elaborate strategies that can overcome these issues and increase the efficiency of the embryo production techniques. Among the treatments developed to improve the embryo production, the use of FSH, rBST, propylene glycol and mesenchymal stem cells stand out.

Assisted reproductive technologies (ART) in water buffaloes

Our expanding knowledge of ovarian function during the buffalo estrous cycle has given new approaches for the precise synchronization of follicular development and ovulation to apply consistently assisted reproductive technologies (ART). Recent synchronization protocols are designed to control both luteal and follicular function and permit fixed-time AI with high pregnancy rates during the breeding (autumn-winter) and nonbreeding (springsummer) seasons. Additionally, allow the initiation of superstimulatory treatments at a self-appointed time and provide opportunities to do fixed-time AI in donors and fixed-time embryo transfer in recipients. However, due the scarce results of in vivo embryo recovery in superovulated buffaloes, the association of ovum pick-up (OPU) with in vitro embryo production (IVEP) represents an alternative method of exploiting the genetics of high yeld buffaloes. Nevertheless, several factors appear to be critical to OPU/IVEP efficiency, including antral follicle population, follicular diameter, environment, farm and category of donor. This review discusses a number of key points related to the manipulation of ovarian follicular growth to improve assisted reproductive technologies in buffalo.

Assisted reproductive technologies (ART) in water buffaloes

Our expanding knowledge of ovarian function during the buffalo estrous cycle has given new approaches for the precise synchronization of follicular development and ovulation to apply consistently assisted reproductive technologies (ART). Recent synchronization protocols are designed to control both luteal and follicular function and permit fixed-time AI with high pregnancy rates during the breeding (autumn-winter) and nonbreeding (springsummer) seasons. Additionally, allow the initiation of superstimulatory treatments at a self-appointed time and provide opportunities to do fixed-time AI in donors and fixed-time embryo transfer in recipients. However, due the scarce results of in vivo embryo recovery in superovulated buffaloes, the association of ovum pick-up (OPU) with in vitro embryo production (IVEP) represents an alternative method of exploiting the genetics of high yeld buffaloes. Nevertheless, several factors appear to be critical to OPU/IVEP efficiency, including antral follicle population, follicular diameter, environment, farm and category of donor. This review discusses a number of key points related to the manipulation of ovarian follicular growth to improve assisted reproductive technologies in buffalo.(AU)