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Vertebrate reproductive science and technology
RESEARCH ARTICLE

In vitro and in vivo assessment of functional capacity of flow cytometrically sorted ram spermatozoa after freezing and thawing

F. K. Hollinshead A , L. Gillan A B , J. K. O’Brien A , G. Evans A and W. M. C. Maxwell A
+ Author Affiliations
- Author Affiliations

A Centre for advanced Technologies in Animal Genetics and Reproduction, Faculty of Veterinary Science, The University of Sydney, NSW 2006, Australia.

B To whom correspondence should be addressed. email: lindsayg@vetsci.usyd.edu.au

Reproduction, Fertility and Development 15(6) 351-359 https://doi.org/10.1071/RD03060
Submitted: 18 August 2003  Accepted: 14 November 2003   Published: 14 November 2003

Abstract

The effect of sex sorting and freeze–thawing on the viability and fertility of ram spermatozoa was investigated in the present study. Non-sorted (control) frozen–thawed spermatozoa had a higher motility and forwards progressive motility (FPM) than sorted frozen–thawed spermatozoa (60.9 ± 2.9% v. 57.0 ± 3.3% and 4.0 ± 0.1 v. 3.5 ± 0.1 FPM, respectively; P < 0.001) after incubation (6 h at 37°C). Sorted and non-sorted (control) frozen–thawed spermatozoa had similar acrosome integrity (73.7 ± 1.8% v. 75.2 ± 2.1%, respectively) after thawing and incubation. A greater proportion of sorted spermatozoa displayed chlortetracycline staining patterns that were characteristic of capacitation (22.0 ± 2.8%; P < 0.05) than non-sorted (control) spermatozoa (15.4 ± 2.6% B pattern) before freezing. Overall, more sorted frozen–thawed spermatozoa showed patterns characteristic of being acrosome reacted (12.8 ± 0.7%; P < 0.01) and less were uncapacitated (35.5 ± 0.6%; P < 0.05) than non-sorted (control) frozen–thawed spermatozoa (7.7 ± 0.8% and 38.6 ± 0.6% for AR and F pattern, respectively). Similar numbers of non-sorted (control) and sorted frozen–thawed spermatozoa migrated through artificial cervical mucus after 1 h (76.4 ± 11.9 v. 73.9 ± 11.9 spermatozoa, respectively). The distance travelled by the vanguard spermatozoon was also similar (56.9 ± 7.8 v. 38.6 ± 5.8 mm for control and sorted spermatozoa, respectively). Sorted and control frozen–thawed spermatozoa displayed a similar pattern of binding to, and release from, an oviduct epithelial cell monolayer (OECM), but sorted frozen–thawed spermatozoa were released more rapidly (P < 0.05) than non-sorted (control) frozen–thawed spermatozoa. The pregnancy rate was higher for ewes inseminated with 100 × 106 (commercial control) frozen–thawed spermatozoa (59%) than for 5, 10, 20 and 40 × 106 total sorted frozen–thawed spermatozoa (41% overall; P < 0.001). Insemination of 16 × 106 resulted in a higher pregnancy rate (31%) than 106 (17%; P < 0.05), but was similar to ewes that received 4 × 106 sorted frozen–thawed spermatozoa (24%). Time of insemination (54, 58 and 62 h after sponge removal) had no effect on pregnancy rate. Pregnancy in gonadotrophin-releasing hormone-treated ewes was affected by insemination dose (P < 0.05) but not sperm type (sorted and non-sorted) or ram. Pregnancy was higher after insemination of 40 × 106 than 5 or 20 × 106 non-sorted (control) or sorted frozen–thawed spermatozoa (70%, 33% and 35%, respectively; P < 0.05). Sorted frozen–thawed spermatozoa may have a shorter viability within the female tract than non-sorted frozen–thawed spermatozoa.

Extra keywords: artificial insemination


Acknowledgments

This research was supported by XY, Inc. (Fort Collins, CO, USA), Bioniche Animal Health (A/Asia) and the Australian Research Council. The authors thank Mr S. Burgun for on-farm assistance, Mr R. Wadley for assistance with sorting and Mr M. Connors, Mr S. De Graff, Mr B. Biffin, Mr A. Souter, Ms R. Bathgate, Ms K. Grewal, Dr B. Erriksson and Dr L. Morris for assistance with the artificial insemination trials.


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