Successful vitrification of equine embryos >300 microns without puncture or aspiration.

BACKGROUND: Equine embryos >300 µm require puncture before vitrification. Protocols that do not require pre-puncture would make vitrification easier and allow for its widespread use. OBJECTIVES: To design a successful vitrification protocol for embryos >300 µm without puncture as a pre-treatment. STUDY DESIGN: Experimental in vivo study. METHODS: Thirty-eight embryos were divided into 3 groups (G1: ≤300 µm, n = 11; G2: >300-500 µm, n = 20; G3: >500 µm, n = 7). Embryos were vitrified using a human vitrification kit. Following a 15 min exposure to equilibration solution (ES; 7.5% DMSO +7.5% ethylene glycol [EG] in a base medium [BM] of M199 HEPES-buffered medium [H199] + hydroxypropyl cellulose + gentamycin), embryos were exposed for ≤90 s to a vitrification solution (15% DMSO +15% EG + 0.5 M trelahose in BM), loaded onto a Cryolock and plunged into LN2. Warming was undertaken by plunging the Cryolock tip into 1 mL of H199 + 20% FBS + pen/strep +1 M sucrose at 42°C for 1 min. The embryos were then moved to a 0.5 M sucrose solution for 4 min, then placed in Vigro Hold for 4 min prior to transfer to a recipient. RESULTS: Pregnancy rates were 81.8% (9/11) for G1, 80% (16/20) for G2, and 0% (0/7) for G3. The largest embryo to survive was 480 µm. MAIN LIMITATIONS: Limited numbers and only one pregnancy was followed to term. CONCLUSIONS: Equine embryos ≤480 µm can be successfully vitrified using a protocol with a longer exposure time to the ES. This does not appear to have a negative effect on early embryonic development.

The effect of embryo reduction and transfer on luteostasis in the mare.

This study investigated the effects of embryo reduction and transfer of Day 11 embryos, with or without subsequent reduction, on luteostasis in the mare. In Experiment 1, reduction of embryos at Days 10 (n = 15), 11 (n = 47), 12 (n = 36), 13 (n = 27), 14 (n = 5) and 16 (n = 2) of pregnancy resulted in luteostasis in 13%, 47%, 78%, 89%, 80% and 100% mares. Mares undergoing > 1 embryo reduction showed consistency in when luteostasis occurred. In Experiment 2, transfer of Day 11 embryos to recipient mares 10 (n = 9), 11 (n = 8), 12 (n = 9) and 13 (n = 8) days post ovulation resulted in luteostasis in 78%, 87.5%, 78% and 37.5% of mares. Only 22%, 37%, 0% and 12%, respectively, of these mares remained pregnant. In the Day 10, 11 and 12 recipients luteostasis occurred on at least one occasion when an embryo was detected at 24 h but not at 48 h post transfer. In the Day 12 recipients luteostasis occurred on three occasions (3/9;33%) when the transferred embryo was not detected at 24 h. In Experiment 3 reduction of a Day 11 embryo 24 h after transfer to a Day 10 (n = 4), 11 (n = 6), 12 (n = 6) or 13 (n = 6) recipient resulted in luteostasis in 100%, 83%, 100%, and 83% of mares. All five Day 11 recipients that had an embryo reduced 12 h post transfer became luteostatic. These results suggest there is plasticity overall, but individual rigidity, in the timing of maternal recognition of pregnancy. Furthermore, an intact embryo need only be present in the uterus for 12 h to cause luteostasis.

A new strain of Taylorella asinigenitalis shows differing pathogenicity in mares and Jenny donkeys.

BACKGROUND: Three horse mares inadvertently inseminated with semen from a Tayorella asinigenitalis-positive Jack donkey developed severe, purulent endometritis whereas two Jenny donkeys mated naturally to the same Jack donkey did not develop clinical signs of infection. OBJECTIVES: To isolate and identify the causative agent. STUDY DESIGN: Case report. METHODS: Endometrial swabs from the infected mares were cultured on selective and non-selective media under aerobic and microaerophilic conditions. Isolates were subjected to Gram staining, oxidase and catalase tests, the Monotayl Latex Agglutination test and PCR to test for both T. equigenitalis and T. asinigenitalis. In vitro antimicrobial susceptibility testing was performed and the bacterial isolate was genotyped using MLST. RESULTS: A new sequence type of T. asinigenitalis was confirmed. MAIN LIMITATIONS: A limited numbers of mares and donkeys are described. CONCLUSIONS: This strain of T. asinigenitalis causes a severe venereal infection in mares but not in Jenny donkeys.