Department of Veterinary Clinical Medicine, College of Veterinary Medicine, University of Illinois Urbana Champaign, Urbana, IL.
Department of Veterinary Clinical Medicine, College of Veterinary Medicine, University of Illinois Urbana Champaign, Urbana, IL.
J Equine Vet Sci. 2020 Sep;92:103104. doi: 10.1016/j.jevs.2020.103104. Epub 2020 May 11.
The objective of this study was to compare semen parameters and embryo recovery rates of cooled stallion semen extended with INRA 96 or BotuSemen Gold. In experiment 1, 45 ejaculates from nine mature stallions were collected, assessed, and equally split between both extenders and then extended to 50 million sperm/mL. Then, the extended semen was stored in three passive cooling containers (Equitainer, Equine Express II, and BotuFlex) for 48 hours. In experiment 2, the same ejaculates extended in experiment 1 were cushion-centrifuged, the supernatant was discarded, and the pellets were resuspended at 100 million sperm/mL with their respective extender. Semen was then cooled and stored as in experiment 1. In both experiments, sperm motility parameters, plasma membrane integrity, and high mitochondrial membrane potential were assessed at 0, 24, and 48 hours post cooling. For experiment 3, 12 mares (n = 24 cycles) were bred with 48 hour-cooled semen from one stallion. Semen was processed as described in experiment 1. Mares had embryo flushing performed by 8-day post-ovulation. In experiment 1, BotuSemen Gold displayed superior total and progressive motility relative to INRA 96 (P < .05). There were no significant differences between the types of containers in any experiment. In experiment 2, INRA 96 and BotuSemen Gold extenders had similar total and progressive motility, but BotuSemen Gold had superior sperm velocity parameters at all timepoints. Embryo recovery was identical for both extenders (50%). Finally, the results obtained herein suggest that BotuSemen Gold is a suitable alternative to be included in semen cooling tests against INRA 96 in clinical practice.
本研究的目的是比较 INRA 96 和 BotuSemen Gold 两种稀释液扩展后的冷却精液的精子参数和胚胎回收率。在实验 1 中,从 9 匹成熟种马采集了 45 份精液,评估后等分为两份,分别用两种稀释液扩展至 5000 万精子/ml。然后,将扩展后的精液在 3 个被动冷却容器(Equitainer、Equine Express II 和 BotuFlex)中储存 48 小时。在实验 2 中,将实验 1 中扩展的相同精液进行缓冲离心,丢弃上清液,将沉淀用各自的稀释液重新悬浮至 1 亿精子/ml。然后将精液冷却并按实验 1 方法储存。在两个实验中,在冷却后 0、24 和 48 小时评估精子运动参数、质膜完整性和高线粒体膜电位。在实验 3 中,12 匹母马(n=24 个周期)与一匹种马的 48 小时冷却精液交配。精液处理方法如实验 1 所述。母马在排卵后 8 天进行胚胎冲洗。在实验 1 中,BotuSemen Gold 相对于 INRA 96 显示出更好的总活力和前向运动活力(P<.05)。在任何实验中,容器类型之间均无显著差异。在实验 2 中,INRA 96 和 BotuSemen Gold 稀释液具有相似的总活力和前向运动活力,但 BotuSemen Gold 在所有时间点的精子速度参数都更好。两种稀释液的胚胎回收率相同(50%)。最后,本文结果表明,BotuSemen Gold 是 INRA 96 的替代选择,可用于临床实践中的精液冷却测试。
