在种马中，采用精液冷却后处理和精子再悬浮方法作为一种替代方法，以避免精液冷却不良的问题。

Post-cooling semen processing and sperm re-suspension as an alternative method to circumvent poor semen cooling in stallions.

机构信息

Department of Veterinary Surgery and Animal Reproduction, School of Veterinary Medicine and Animal Science, FMVZ, Universidade Estadual Paulista "Júlio de Mesquita Filho", UNESP, Botucatu, Brazil.

Ross University School of Veterinary Medicine, Basseterre, St. Kitts, West Indies.

出版信息

Equine Vet J. 2024 Jul;56(4):697-710. doi: 10.1111/evj.14085. Epub 2024 Apr 3.

BACKGROUND

Artificial insemination with cooled-shipped semen is the primary method used in the equine breeding industry; yet, sperm quality and fertility can be suboptimal for some stallions when standard techniques are used. Therefore, there is a critical need to develop alternative approaches for these stallions.

OBJECTIVE

To assess sperm quality parameters and fertility of cooled-stored stallion semen processed by SpermFilter® or centrifugation and resuspended in three extenders.

STUDY DESIGN

Controlled and field study.

METHODS

In Experiment 1, semen was collected from 21 stallions classified as having good ('Good-coolers', n = 8) or poor ('Bad-coolers', n = 13) semen cooling. The semen was extended at 30 million spermatozoa/mL in a skimmed milk-based (SM) diluent, and refrigerated for 24 h. Then, the cooled-stored semen was processed through SpermFilter® or centrifugation, and the resulting sperm pellets were resuspended in SM, SM containing pentoxifylline (SM-P), or an egg yolk-based (EY) extender. Unprocessed cooled-stored semen served as control. Sperm motility parameters, plasma membrane integrity (PMI), and mitochondrial membrane potential (HMMP) were assessed in cooled-semen pre- and post-processing. Experiment 2, cooled semen from 9 stallions classified as Bad-coolers was used to inseminate 18 embryo donor mares at 66 cycles (Unprocessed, n = 22; SpermFilter®/SM-P, n = 16; or SpermFilter®/EY, n = 28). Data were analysed with a mixed model and Tukey's as posthoc, and logistic regression.

RESULTS

Processed semen resuspended in EY had superior sperm motility compared to unprocessed, SM and SM-P (p < 0.0001). Semen processed by SpermFilter® resuspended in SM-P was similar to EY (p > 0.05). Pellet resuspension with EY and SM-P improved the HMMP of Bad-cooler stallions (p = 0.0010). Semen processed by SpermFilter® had superior PMI to centrifuged semen (p < 0.0001). Mares inseminated with SpermFilter®/SM-P (50%, 8/16) or SpermFilter®/-EY (68%, 9/28) had higher pregnancy rates than mares bred with unprocessed semen (14%, 3/22) (p < 0.001).

MAIN LIMITATIONS

Low number of mares in the fertility trial.

CONCLUSION

Sperm quality and fertility of Bad-cooler stallions can be enhanced by SpermFilter® and pellet resuspension with either EY or SM-P.

背景

人工授精使用冷藏精液是马繁殖行业的主要方法；然而，当使用标准技术时，一些种马的精液质量和生育力可能不理想。因此，迫切需要为这些种马开发替代方法。

目的

评估使用 SpermFilter® 或离心处理并悬浮在三种稀释剂中的冷藏保存的种马精液的精子质量参数和生育力。

研究设计

对照和现场研究。

方法

在实验 1 中，从 21 头被归类为精液冷却良好（“良好冷却器”，n=8）或较差（“不良冷却器”，n=13）的种马中采集精液。精液以脱脂乳基（SM）稀释剂在 3000 万精子/毫升的浓度下扩展，并冷藏 24 小时。然后，将冷藏保存的精液通过 SpermFilter® 或离心处理，然后将所得的精子沉淀物悬浮在 SM、含有己酮可可碱的 SM（SM-P）或蛋黄基（EY）稀释剂中。未处理的冷藏保存的精液作为对照。在处理前和处理后评估冷却精液中的精子运动参数、质膜完整性（PMI）和线粒体膜电位（HMMP）。实验 2，使用被归类为“不良冷却器”的 9 头种马的冷藏精液对 18 头胚胎供体母马进行 66 个周期的授精（未处理，n=22；SpermFilter®/SM-P，n=16；或 SpermFilter®/EY，n=28）。使用混合模型和 Tukey 事后检验以及逻辑回归分析数据。

结果

悬浮在 EY 中的处理后精液的精子运动能力优于未处理、SM 和 SM-P（p<0.0001）。悬浮在 SM-P 中的 SpermFilter® 处理的精液与 EY 相似（p>0.05）。用 EY 和 SM-P 重新悬浮沉淀物可改善不良冷却器种马的 HMMP（p=0.0010）。SpermFilter® 处理的精液的 PMI 优于离心精液（p<0.0001）。用 SpermFilter®/SM-P（50%，8/16）或 SpermFilter®/EY（68%，9/28）处理的母马的妊娠率高于用未处理精液（14%，3/22）（p<0.001）。

主要局限性

生育力试验中母马数量较少。

结论

SpermFilter® 和 EY 或 SM-P 重新悬浮沉淀物可以提高不良冷却器种马的精子质量和生育力。