Follicular size predicts success in artificial insemination with frozen-thawed sperm in donkeys.

Joseph Saragusty,Frank Göritz,Alemayehu Lemma,Thomas Bernd Hildebrandt,Joël R Drevet

doi:10.1371/journal.pone.0175637

Joseph Saragusty, Frank Göritz + Show 3 more

Open Access

https://doi.org/10.1371/journal.pone.0175637

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Abstract

In asses, semen collection, cryopreservation, and artificial insemination (AI) with frozen-thawed semen have been scarcely described and success rate, particularly following AI, is reportedly low. In the absence of reliable protocols, assisted reproductive technologies cannot support the conservation efforts aimed at endangered wild ass species and domestic donkey breeds. Two experiments were conducted in this study. In experiment 1 we evaluated freezing Abyssinian donkey (N = 5, 4 ejaculates each) spermatozoa using three freezing extenders (Berliner Cryomedium + glycerol, BC+G; BotuCrio, BOTU; INRAFreeze, INRA) and two cryopreservation techniques (liquid nitrogen vapour, LNV; directional freezing, DF). Post-thaw evaluation indicated that BOTU and INRA were similar and both superior to BC+G (P ≤ 0.004 for all motility tests), and that DF was superior to LNV (P < 0.002 for all evaluation parameters). In experiment 2, relying on these results, we used Abyssinian donkey sperm frozen in BOTU and INRA by DF for AI (N = 20). Prior to AI, thawed samples were diluted in corresponding centrifugation media or autologous seminal fluids at 1:1 ratio. No difference was found between BOTU and INRA or between the addition of seminal fluids or media, all resulting in ~50% pregnancy, and no differences were noted between males (N = 4). The size of pre-ovulatory follicle was a significant (P = 0.001) predictor for AI success with 9/10 pregnancies occurring when follicular size ranged between 33.1–37.4 mm, no pregnancy when it was smaller, and only one when larger. A number of ass species face the risk of extinction. Knowledge gained in this study on the Abyssinian donkey can be customised and transferred to its closely related endangered species and breeds.

Highlights

Artificial insemination (AI) with frozen-thawed sperm would allow dissemination of genetic material among members of each species and breed across studs, farms, zoos, and sanctuaries around the world, as well as between the captive and wild populations, as we have previously demonstrated in African elephants [7] and the European brown hare [8]
In relevance to this study on asses, we showed in stallions that while 88% of the ejaculates (85/97) showed over 35% post-thaw progressive motility when frozen by the directional freezing technique, only 59% (57/97) of the ejaculates showed such acceptable motility when frozen by the conventional liquid nitrogen vapour technique [34]
Based on the available literature and many years of experience working with the directional freezing technology, we believe that using this technology with some modifications to the current freezing media and AI procedure, success rate in artificial insemination of jennies with frozen-thawed jacks’ sperm can be improved

Summary

Introduction

Based on the available literature and many years of experience working with the directional freezing technology, we believe that using this technology with some modifications to the current freezing media and AI procedure, success rate in artificial insemination of jennies with frozen-thawed jacks’ sperm can be improved. Samples frozen in 8-mL HollowTubesTM were thawed, evaluated for motility, and, if suitable, used for insemination.

Results

Conclusion