The aim of this study was to test whether low dose oxytocin i.v. injection once a day to mares diagnosed as being ready for birth by mammary secretion calcium strip test measurements could be used as a reliable method to induce parturition and/or predict the mare would not foal during the following night if parturition did not occur within 2 h of treatment. Fifty-one near-term Haflinger mares were used and a single injection of 2.5 iu oxytocin was given between 1700 and 1900 h, including 10 mares used as controls which were administered a placebo. Administration of oxytocin resulted in the delivery of a normal foal within 120 min in 95% of mares. Twenty-four out of 38 (63%) treated animals foaled in response to the first oxytocin injection, 9 out of 38 (24%) in response to the second injection and 3 out of 38 (8%) in response to the third treatment. Two out of 38 (5%) treated mares foaled during the night irrespective of treatment whereas 7 out of 10 (70%) control mares foaled during the night. It was concluded that the major advantage of injecting a daily low dose of oxytocin appears to be that such a low dose induces delivery only in mares carrying a mature fetus and which are ready to foal.
Summary
Fourteen normal, cyclic mares, treated to synchronise oestrus and ovulation and inseminated artificially with fresh semen, were assigned to a donor or a recipient group after ovulation, with the aim of obtaining a degree of synchrony of >2 days. Ten embryos, collected on Day 6 or 7 after ovulation (Day 0), were transferred nonsurgically to inseminated recipient mares (IRM) that had ovulated up to 5 days after the respective donors, or to pregnant recipient mares (PRM) that had ovulated 2–7 days before the donors. Embryonic size and development, as determined by ultrasound examination, were used to distinguish embryos derived from the recipient (recipient embryo = RE) or from the donor (transferred embryo = TE) mare. In cases of twin pregnancy, the RE was manually squeezed on Days 14–16. Abortion was induced in all mares on Day 30.
Three of 6 TE developed in IRM. Two of 6 IRM developed a twin pregnancy (RE+TE), while 4 of 6 IRM developed a singleton pregnancy (1 TE and 3 RE). None of 4 TE developed in Day 9–14 PRM and one of these PRM lost her own embryo following ET. The experiment demonstrated that a mare can carry her own embryo and a transferred embryo simultaneously. However, the status of pregnancy does not improve conception rate in recipient mares that ovulate prior to the donor.
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