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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

110 First ovum pickup-in vitro-produced lidia breed calves using Lidia breed recipients: influence of age and state of the recipients and in vitro-produced embryos on pregnancy rates

G. Gamarra Lazo A , D. Di Scala A , S. Maunas A , R. Chaubet B and S. Lacaze A
+ Author Affiliations
- Author Affiliations

A AURIVA R&D Dpt. Biotechnologies, Denguin, France;

B Ganaderia Raphaël Chaubet, Arles, France

Reproduction, Fertility and Development 31(1) 181-181 https://doi.org/10.1071/RDv31n1Ab110
Published online: 3 December 2018

Abstract

We previously demonstrated the success of in vitro embryo production (IVP) in Lidia breed cattle (Gamarra Lazo et al. 2017 Reprod. Fertil. Dev. 30, 187). As in other species, the success of IVP is linked to the birth of calves from this technique. In the Lidia breed, an important factor to consider is the use of Lidia recipients in order to keep the temperament characteristic of this breed to next generations. The aim of the study was to produce ovum pickup (OPU)-IVP calves in the Lidia breed and to assess the effects of recipient and embryo related factors (status of the recipients; development stage of IVF embryos) on pregnancy rate following embryo transfer. Ovum pickup-IVP embryos from Lidia breeds were produced by a standard protocol (Gamarra Lazo et al. 2017 Reprod. Fertil. Dev. 30, 187). Numbers of blastocysts and expanded blastocysts were recorded on Day 7. A total of 27 blastocysts (B) and 34 expanded blastocysts (EB) of excellent quality (grade 1 according to IETS classification) were selected for fresh transfer. All embryos were transferred to Lidia breed recipients (heifers or cows) by a single operator under similar environmental and field conditions. Recipients were synchronized by subcutaneous insertion of an ear implant of 3.3 mg of Norgestomet (Crestar®, MSD, Courbevoie, France) for 9 days. Two days before implant withdrawal, 0.5 mg of Cloprostenol (Estrumate®, MSD) was injected. No oestrous detection was performed and synchronized females were selected as recipients when they presented a well developed corpus luteum at Day 9 after implant withdrawal (Day 6 to 7 after the expected oestrus). Blood samples were collected from recipients to determine pregnancy status using the bovine pregnancy associated glycoprotein (Idexx, Westbrook, ME, USA) 50-60 days after transfer. Pregnancy rates were analysed by chi-square analysis to compare results between heifers and cows and between B and EB embryo stages. The overall pregnancy rate after transfer of IVP fresh embryos from Lidia breed averaged 41.0% (n = 25). A higher pregnancy rate was achieved in cows compared to heifers [51.2% (21/41) v. 20.0% (4/20) respectively, P < 0.05]. There was no difference in pregnancy rate between grade 1 B [37% (10/27)] and EB [44.1% (15/34)] embryos (P > 0.05). Surprisingly, these results suggest that Lidia breed cows are the best recipients for OPU-IVP embryos. This may be related to the limited feasibility of manipulating the uterine horn during the embryo transfer in Lidia breed heifers, which have a low weight (less than 280 kg) and present a narrow rectum diameter. It has been also observed that the cervix is very thin and difficult to cross, thus increasing the stress and potentially inflammatory and immune products secretion. Development stage of embryos did not affect pregnancy rate. To our knowledge, no OPU-IVP Lidia breed calves have been reported previously following transfer into Lidia breed recipients. In the current work, 13 OPU-IVP Lidia breed calves were born. Therefore, we confirmed the possibility of applying OPU-IVP and embryo transfer techniques in this breed within a genetic program.