Efficacy of Porcine Gonadotropins for Repeated Stimulation of Ovarian Activity for Oocyte Retrieval and In Vitro Embryo Production and Cryopreservation in Siberian Tigers (Panthera tigris altaica)1

“…Equine Chorionic Gonadotropin (eCG) and Human Chorionic Gonadotrophin (hCG) are frequently used due to their long half-life in circulation (24-48h) and good ovarian response with a single application. Other hormones used are the porcine Follicle Stimulating Hormone (pFSH) and porcine Luteinizing Hormone (pLH), these hormones are characterized as short half-life (~ 2h) gonadotropins, therefore, they present the disadvantage of requiring multiple applications to produce a good ovarian response (Crichton et al, 2003;Dresser et al, 1988;Pope, 2000;Wildt et al, 1981).…”

Section: Ovarian Activity Induction and Superovulationmentioning

confidence: 99%

“…The FSH and hCG combination was used successfully in the Indian desert leopard (Felis sylvestris ornata) (Pope et al, 1989), and the pFSH and pLH combination in tigers (Crichton et al, , 2003 jaguars (Panthera onca) , ocelots (Leopardus pardalis) and tigrinas (Leopardus tigrinus) (Paz et al, 2005. Swanson et al (1995Swanson et al ( , 1996a suggest that the repeated administration of exogenous gonadotropins, within short time intervals is a problem because it causes a reduction in the ovarian stimulation which is immunologically mediated.…”

Section: Ovarian Activity Induction and Superovulationmentioning

confidence: 99%

Wildlife Cats Reproductive Biotechnology

Paz¹

2012

Current Frontiers in Cryobiology

View full text Add to dashboard Cite

“…Described problems with in vitro-produced embryos include: (i) occurrence of cytogenetic and ultrastructural changes; (ii) increased abortions, perinatal loss or fetal abnormalities; and (iii) skewed sex ratio in favour of males (Loskutoff 2003;Fleming et al 2004). For example, conventional protocols for gonadotrophin stimulation, oocyte recovery and IVF in the tiger resulted in abnormal endocrine profiles and oocyte and embryo morphology (Crichton et al 2003). A better understanding of and insight into regulatory processes is essential when using ART to create optimal conditions during several critical time points in development.…”

Section: Disadvantages and Complicationsmentioning

confidence: 99%

Foreword: A perspective on the role of emerging technologies for the propagation of companion animals, non-domestic and endangered species

Paris

Mastromonaco

Paris

et al. 2007

Reprod. Fertil. Dev.

View full text Add to dashboard Cite

Abstract. Assisted reproductive technologies (ART) have been used successfully in humans, domestic and laboratory species for many years. In contrast, our limited knowledge of basic reproductive physiology has restricted the application of ART in companion animal, non-domestic and endangered species (CANDES). Although there are numerous benefits, and in some cases a necessity, for applying ART for the reproductive and genetic management of CANDES, the challenges encountered with even the most basic procedures have limited the rate of progress. In this foreword we discuss the status of conventional ART, such as artificial insemination and in vitro fertilisation, as well as their benefits and inherent difficulties when applied to CANDES. It is upon these techniques, and ultimately our knowledge of basic reproductive physiology, that the success of emerging technologies, such as those described in this special issue, are dependent for success.Development of assisted reproductive technologies (ART) for domestic species and humans has been ongoing for several decades and is routine practice in many situations. Welldeveloped technologies in domestic species include artificial insemination (AI), in vitro fertilisation (IVF) and embryo transfer (ET). Unfortunately, this wealth of knowledge developed for commercially important livestock species, biomedically relevant model species and human infertility treatment cannot be directly applied to other species, as significant species-specific challenges exist. Our knowledge of the basic reproductive physiology of many companion animal, non-domestic and endangered species (CANDES) is limited in comparison. This is partly due to scarce and costly animal resources, lack of economic demand and inadequate research funding. However, there is a need for reproductive knowledge in CANDES to meet an increased interest in breeding companion animals for pleasure and recreation, propagate valuable genetic models for biomedical research (Songsasen and Wildt 2007), and manage ex situ populations of endangered species (Pukazhenthi and Wildt 2004). Although ART have numerous potential applications, we must remind ourselves that the success of any ART is completely dependent on our knowledge of basic reproductive physiology, in any species. Thus, detailed descriptions of reproductive cycles (seasonal patterns, ovulatory mechanisms, etc.), structural anatomy, and gamete and embryo physiology must be collected in many, if not most, CANDES before advanced ART can be effectively used to significantly impact reproductive and genetic management.

show abstract

Efficacy of Porcine Gonadotropins for Repeated Stimulation of Ovarian Activity for Oocyte Retrieval and In Vitro Embryo Production and Cryopreservation in Siberian Tigers (Panthera tigris altaica)1

Cited by 52 publications

References 53 publications

Genome Banking for Vertebrates Wildlife Conservation

Genome Banking for Vertebrates Wildlife Conservation

Wildlife Cats Reproductive Biotechnology

Foreword: A perspective on the role of emerging technologies for the propagation of companion animals, non-domestic and endangered species

Contact Info

Product

Resources

About