Animal Reproduction (AR)
https://animal-reproduction.org/article/doi/10.1590/1984-3143-AR2025-0055
Animal Reproduction (AR)
Thematic Section: 38th Annual Meeting of the Brazilian Embryo Technology Society (SBTE)

Enhancing integration of the dairy and beef sectors through application of assisted reproductive technologies: pregnancy outcomes following timed AI and timed ET in lactating dairy cows

Pat Lonergan; Alan Crowe; Laura Thompson; Eliza Murphy; Stephen Butler

http://dx.doi.org/10.1590/1984-3143-AR2025-0055 Anim Reprod, vol.22, n3, e20250055, 2025
PDF
Downloads: 0
Views: 112

Abstract

Assisted reproductive technologies, particularly sex-sorted semen and in vitro embryo production (IVP) can contribute to accelerating genetic gain in both dairy breeds and beef breeds suitable for mating with dairy cows by increasing the number of offspring produced from genetically elite dams. Use of sexed semen has rapidly increased in recent years, accelerating herd genetic gain through selection of the best genetic merit dams to breed replacements, allowing non-replacement dams to be bred to beef sires or to act as recipients of beef embryos to improve calf marketability. IVP offers significant advantages over traditional multiple ovulation embryo transfer (MOET) including increased flexibility in sire usage allowing multiple pregnancies from elite dam-sire combinations to be generated, the ability to produce more embryos per unit time per genetically elite female, the ability to use oocytes from prepubertal females and the more efficient use of rare or high-cost semen straws. Despite these benefits, significant challenges relating to pregnancy loss after embryo transfer, particularly after cryopreservation of IVP embryos, and issues relating to peri- and postnatal health and development of IVP offspring remain to be resolved and hamper the more widespread application of the technology. Improving our understanding of the underlying physiological and molecular mechanisms that regulate early embryo development, embryo-endometrial interactions and lead to successful pregnancy establishment is necessary to understand and elucidate the causes of pregnancy loss and provide a basis for new strategies to improve pregnancy outcomes and reproductive efficiency.

Keywords

pregnancy loss, IVF, bovine

References

Baldassarre H, Bordignon V. Laparoscopic ovum pick-up for in vitro embryo production from dairy bovine and buffalo calves. Anim Reprod. 2018;15(3):191-6. http://doi.org/10.21451/1984-3143-AR2018-0057. PMid:34178141.

Baldassarre H. Laparoscopic ovum pick-up followed by in vitro embryo production and transfer in assisted breeding programs for ruminants. Animals. 2021;11(1):216. http://doi.org/10.3390/ani11010216. PMid:33477298.

Baruselli PS, Batista EOS, Vieira LM, Ferreira RM, Guerreiro BG, Bayeux BM, Sales JNS, Souza AH, Gimenes LU. Factors that interfere with oocyte quality for in vitro production of cattle embryos: effects of different developmental & reproductive stages. Anim Reprod. 2018;13(3):264-72. http://doi.org/10.21451/1984-3143-AR861.

Bauersachs S, Ulbrich SE, Zakhartchenko V, Minten M, Reichenbach M, Reichenbach HD, Blum H, Spencer TE, Wolf E. The endometrium responds differently to cloned versus fertilized embryos. Proc Natl Acad Sci USA. 2009;106(14):5681-6. http://doi.org/10.1073/pnas.0811841106. PMid:19307558.

Bazer FW, Thatcher WW. Chronicling the discovery of interferon tau. Reproduction. 2017;154(5):F11-20. http://doi.org/10.1530/REP-17-0257. PMid:28747540.

Berg DK, Ledgard A, Donnison M, McDonald R, Henderson HV, Meier S, Juengel JL, Burke CR. The first week following insemination is the period of major pregnancy failure in pasture-grazed dairy cows. J Dairy Sci. 2022;105(11):9253-70. http://doi.org/10.3168/jds.2021-21773. PMid:36153157.

Berry DP, McCarthy J. Sire mating advice framework for cattle to recommend which beef bull to mate to individual dairy females. J Dairy Sci. 2025;108(3):2669-82. http://doi.org/10.3168/jds.2024-25600. PMid:39662819.

Berry DP. Invited review: Beef-on-dairy-The generation of crossbred beef x dairy cattle. J Dairy Sci. 2021;104(4):3789-819. http://doi.org/10.3168/jds.2020-19519. PMid:33663845.

Biase FH, Moorey SE, Schnuelle JG, Rodning S, Ortega MS, Spencer TE. Extensive rewiring of the gene regulatory interactions between in vitro-produced conceptuses and endometrium during attachment. Pnas Nexus. 2023;2(9):d284. http://doi.org/10.1093/pnasnexus/pgad284. PMid:37711857.

Butler ST, Crowe AD, Moore SG, Lonergan P. Review: use of assisted reproduction in seasonal-calving dairy herds. Animal. 2023;17(Suppl 1):100775. http://doi.org/10.1016/j.animal.2023.100775. PMid:37567682.

Crowe AD, Lonergan P, Butler ST. Invited review: use of assisted reproduction techniques to accelerate genetic gain and increase value of beef production in dairy herds. J Dairy Sci. 2021;104(12):12189-206. http://doi.org/10.3168/jds.2021-20281. PMid:34538485.

Crowe AD, Sanchez JM, Moore SG, McDonald M, McCabe MS, Randi F, Lonergan P, Butler ST. Incidence and timing of pregnancy loss following timed artificial insemination or timed embryo transfer with a fresh or frozen in vitro-produced embryo. J Dairy Sci. 2024a;107(3):1788-804. http://doi.org/10.3168/jds.2023-23520. PMid:39343229.

Crowe AD, Sanchez JM, Moore SG, McDonald M, Rodrigues R, Morales MF, Freitas LOD, Randi F, Furlong J, Browne JA, Rabaglino MB, Lonergan P, Butler ST. Fertility in seasonal-calving pasture-based lactating dairy cows following timed artificial insemination or timed embryo transfer with fresh or frozen in vitro-produced embryos. J Dairy Sci. 2024b;107(3):1788-804. http://doi.org/10.3168/jds.2023-23520. PMid:37806631.

Crowe AD, Doyle RC, Lonergan P, Butler ST. Gestation length, calf birth weight, calving difficulty, perinatal mortality and calf health following timed artificial insemination or embryo transfer with fresh or frozen in vitro produced embryos. J Dairy Sci. Forthcoming 2025a.

Crowe AD, Sanchez JM, Moore SG, McDonald M, McCabe MS, Randi F, Lonergan P, Butler ST. Incidence and timing of pregnancy loss following timed artificial insemination or timed embryo transfer with a fresh or frozen in vitro-produced embryo. J Dairy Sci. 2025b;108(1):1022-38. http://doi.org/10.3168/jds.2024-25139. PMid:39343229.

Crowe AD, Sanchez JM, Moore SG, McDonald M, Randi F, Santos A, Minela T, Branen J, Furlong J, Pursley JR, Lonergan P, Butler ST. Time to presumptive conceptus attachment and subsequent pregnancy loss in pasture-based lactating dairy cows following artificial insemination with conventional or X-sorted semen or embryo transfer. J Dairy Sci. 2025c;108(5):5420-32. http://doi.org/10.3168/jds.2024-25725. PMid:40043771.

Currin L, Michalovic L, Bellefleur AM, Gutierrez K, Glanzner W, Schuermann Y, Bohrer RC, Dicks N, da Rosa PR, De Cesaro MP, Lopez R, Grand FX, Vigneault C, Blondin P, Gourdon J, Baldassarre H, Bordignon V. The effect of age and length of gonadotropin stimulation on the in vitro embryo development of Holstein calf oocytes. Theriogenology. 2017;104:87-93. http://doi.org/10.1016/j.theriogenology.2017.08.011. PMid:28822904.

Davenport KM, Ortega MS, Johnson GA, Seo H, Spencer TE. Review: implantation and placentation in ruminants. Animal. 2023;17(Suppl 1):100796. http://doi.org/10.1016/j.animal.2023.100796. PMid:37567669.

Desjardins C, Hafs HD. Maturation of bovine female genitalia from birth through puberty. J Anim Sci. 1969;28(4):502-7. http://doi.org/10.2527/jas1969.284502x. PMid:5813586.

Ealy AD, Seekford ZK. Symposium review: predicting pregnancy loss in dairy cattle. J Dairy Sci. 2019;102(12):11798-804. http://doi.org/10.3168/jds.2019-17176. PMid:31587904.

Ealy AD, Wooldridge LK, McCoski SR. BOARD INVITED REVIEW: post-transfer consequences of in vitro-produced embryos in cattle. J Anim Sci. 2019;97(6):2555-68. http://doi.org/10.1093/jas/skz116. PMid:30968113.

Ettema JF, Thomasen JR, Hjorto L, Kargo M, Ostergaard S, Sorensen AC. Economic opportunities for using sexed semen and semen of beef bulls in dairy herds. J Dairy Sci. 2017;100(5):4161-71. http://doi.org/10.3168/jds.2016-11333. PMid:28237584.

European Commission. The European Green Deal [Internet]. Geneva; 2019 [cited 2025 May 5]. Available from: https://ec.europa.eu/commission/presscorner/api/files/attachment/869807/EGD_brochure_EN.pdf.pdf

Forde N, Carter F, Spencer TE, Bazer FW, Sandra O, Mansouri-Attia N, Okumu LA, McGettigan PA, Mehta JP, McBride R, O’Gaora P, Roche JF, Lonergan P. Conceptus-induced changes in the endometrial transcriptome: how soon does the cow know she is pregnant? Biol Reprod. 2011;85(1):144-56. http://doi.org/10.1095/biolreprod.110.090019. PMid:21349821.

Forde N, Lonergan P. Interferon-tau and fertility in ruminants. Reproduction. 2017;154(5):F33-43. http://doi.org/10.1530/REP-17-0432. PMid:28887326.

Guillomot M, Guay P. Ultrastructural features of the cell surfaces of uterine and trophoblastic epithelia during embryo attachment in the cow. Anat Rec. 1982;204(4):315-22. http://doi.org/10.1002/ar.1092040404. PMid:7181136.

Hansen PJ. The incompletely fulfilled promise of embryo transfer in cattle-why aren’t pregnancy rates greater and what can we do about it? J Anim Sci. 2020;98(11):skaa288. http://doi.org/10.1093/jas/skaa288. PMid:33141879.

Haskell MJ. What to do with surplus dairy calves? Welfare, economic, and ethical considerations. Landbauforschung. 2020;(1):45-8.

Holden SA, Butler ST. Review: applications and benefits of sexed semen in dairy and beef herds. Animal. 2018;12(s1):s97-103. http://doi.org/10.1017/S1751731118000721. PMid:29631644.

Hue I, Degrelle SA, Turenne N. Conceptus elongation in cattle: genes, models and questions. Anim Reprod Sci. 2012;134(1-2):19-28. http://doi.org/10.1016/j.anireprosci.2012.08.007. PMid:22921267.

International Embryo Technology Society – IETS [Internet]. 2025 [cited 2025 May 5]. Available from: www.iets.org

Landry DA, Bellefleur AM, Labrecque R, Grand FX, Vigneault C, Blondin P, Sirard MA. Effect of cow age on the in vitro developmental competence of oocytes obtained after FSH stimulation and coasting treatments. Theriogenology. 2016;86(5):1240-6. http://doi.org/10.1016/j.theriogenology.2016.04.064. PMid:27215669.

Lonergan P, Fair T. In vitro-produced bovine embryos: dealing with the warts. Theriogenology. 2008;69(1):17-22. http://doi.org/10.1016/j.theriogenology.2007.09.007. PMid:17950823.

Lonergan P, Rizos D, Gutierrez-Adan A, Moreira PM, Pintado B, de la Fuente J, Boland MP. Temporal divergence in the pattern of messenger RNA expression in bovine embryos cultured from the zygote to blastocyst stage in vitro or in vivo. Biol Reprod. 2003a;69(4):1424-31. http://doi.org/10.1095/biolreprod.103.018168. PMid:12826577.

Lonergan P, Rizos D, Kanka J, Nemcova L, Mbaye AM, Kingston M, Wade M, Duffy P, Boland MP. Temporal sensitivity of bovine embryos to culture environment after fertilization and the implications for blastocyst quality. Reproduction. 2003b;126(3):337-46. http://doi.org/10.1530/rep.0.1260337. PMid:12968941.

Lonergan P, Sanchez JM. Symposium review: progesterone effects on early embryo development in cattle. J Dairy Sci. 2020;103(9):8698-707. http://doi.org/10.3168/jds.2020-18583. PMid:32622590.

Maher JW, Clarke A, Byrne AW, Doyle R, Blake M, Barrett D. Exploring the Opinions of Irish Dairy Farmers Regarding Male Dairy Calves. Front Vet Sci. 2021;8:635565. http://doi.org/10.3389/fvets.2021.635565. PMid:33959649.

Mamo S, Mehta JP, McGettigan P, Fair T, Spencer TE, Bazer FW, Lonergan P. RNA sequencing reveals novel gene clusters in bovine conceptuses associated with maternal recognition of pregnancy and implantation. Biol Reprod. 2011;85(6):1143-51. http://doi.org/10.1095/biolreprod.111.092643. PMid:21795669.

Mansouri-Attia N, Sandra O, Aubert J, Degrelle S, Everts RE, Giraud-Delville C, Heyman Y, Galio L, Hue I, Yang XZ, Tian XC, Lewin HA, Renard JP. Endometrium as an early sensor of in vitro embryo manipulation technologies. Proc Natl Acad Sci USA. 2009;106(14):5687-92. http://doi.org/10.1073/pnas.0812722106. PMid:19297625.

Middleton EL, Minela T, Ahearne M, Arnold H, Santos A, Pursley JR. Dairy heifers have an earlier increase in serum pregnancy-specific protein B compared with lactating dairy cows. Is this an indicator of earlier conceptus attachment? JDS Commun. 2022;3(4):291-5. http://doi.org/10.3168/jdsc.2021-0198. PMid:36338019.

Middleton EL, Pursley JR. Short communication: blood samples before and after embryonic attachment accurately determine non-pregnant lactating dairy cows at 24 d post-artificial insemination using a commercially available assay for pregnancy-specific protein B. J Dairy Sci. 2019;102(8):7570-5. http://doi.org/10.3168/jds.2018-15961. PMid:31178191.

Moraes JGN, Behura SK, Geary TW, Hansen PJ, Neibergs HL, Spencer TE. Uterine influences on conceptus development in fertility-classified animals. Proc Natl Acad Sci USA. 2018;115(8):E1749-58. http://doi.org/10.1073/pnas.1721191115. PMid:29432175.

Murphy EM, Thompson L, McDonald M, Doyle RC, Silva T, Bell L, Chaubal S, Creek M, Herlihy MM, Parra E, Torruella X, Huuskonen V, Randi F, Lonergan P, Butler ST. Juvenile in vitro fertilization embryo transfer in seasonal pasture-based dairy systems. In: Annual Meeting of the International Embryo Technology Society (IETS); 2025; Fort Worth, TX, USA. Clayton South: Reproduction, Fertility and Development; 2025a.

Murphy EM, Crowe AD, Thompson L, Moore SG, McDonald M, Hordern E, Bertholdi B, Randi F, Canadas ER, Lonergan P, Butler ST. Fertility in lactating dairy cows following timed embryo transfer with fresh in vitro-produced embryos derived from conventional or sex-sorted semen. J Dairy Sci. Forthcoming 2025b. PMid:40706861.

Murphy EM, Mee JF, Crowe AD, Doyle RC, McDonald MM, Randi F, Lonergan P, Butler ST. Mortality of calves derived from in vitro produced embryos. In: Annual Conference of the Association of Embryo technology in Europe (AETE); 2025; Cork, Ireland. Paris: AETE; 2025c.

Pfeffer PL, Pearton DJ. Trophoblast development. Reproduction. 2012;143(3):231-46. http://doi.org/10.1530/REP-11-0374. PMid:22223687.

Pohler KG, Pereira MHC, Lopes FR, Lawrence JC, Keisler DH, Smith MF, Vasconcelos JLM, Green JA. Circulating concentrations of bovine pregnancy-associated glycoproteins and late embryonic mortality in lactating dairy herds. J Dairy Sci. 2016;99(2):1584-94. http://doi.org/10.3168/jds.2015-10192. PMid:26709163.

Rabaglino MB, Bojsen-Møller Secher J, Sirard M-A, Hyttel P, Kadarmideen HN. Epigenomic and transcriptomic analyses reveal early activation of the HPG axis in in vitro-produced male dairy calves. FASEB J. 2021;35(10):e21882. http://doi.org/10.1096/fj.202101067R. PMid:34460963.

Rabaglino MB, Secher JB, Hyttel P, Kadarmideen HN. In vitro- and in vivo-produced male dairy calves show molecular differences in the hepatic and muscular energy regulation. Biol Reprod. 2022;107(4):1113-24. http://doi.org/10.1093/biolre/ioac131. PMid:35766406.

Ritter C, Beaver A, von Keyserlingk MAG. The complex relationship between welfare and reproduction in cattle. Reprod Domest Anim. 2019;54(Suppl 3):29-37. http://doi.org/10.1111/rda.13464. PMid:31512321.

Rizos D, Scully S, Kelly AK, Ealy AD, Moros R, Duffy P, Al Naib A, Forde N, Lonergan P. Effects of human chorionic gonadotrophin administration on day 5 after oestrus on corpus luteum characteristics, circulating progesterone and conceptus elongation in cattle. Reprod Fertil Dev. 2012;24(3):472-81. http://doi.org/10.1071/RD11139. PMid:22401279.

Rizos D, Ward F, Duffy P, Boland MP, Lonergan P. Consequences of bovine oocyte maturation, fertilization or early embryo development in vitro versus in vivo: implications for blastocyst yield and blastocyst quality. Mol Reprod Dev. 2002;61(2):234-48. http://doi.org/10.1002/mrd.1153. PMid:11803560.

Sánchez JM, Mathew DJ, Behura SK, Passaro C, Charpigny G, Butler ST, Spencer TE, Lonergan P. Bovine endometrium responds differentially to age-matched short and long conceptusesdagger. Biol Reprod. 2019;101(1):26-39. http://doi.org/10.1093/biolre/ioz060. PMid:30977805.

Santos A, Minela T, Branen J, Pursley JR. Time to increase in pregnancy-specific protein B following artificial insemination is a direct determinant of subsequent pregnancy loss in lactating dairy cows. J Dairy Sci. 2023;106(5):3734-47. http://doi.org/10.3168/jds.2022-22553. PMid:37028965.

Sartori R, Bastos MR, Wiltbank MC. Factors affecting fertilisation and early embryo quality in single- and superovulated dairy cattle. Reprod Fertil Dev. 2010;22(1):151-8. http://doi.org/10.1071/RD09221. PMid:20003858.

Sasser RG, Ruder CA, Ivani KA, Butler JE, Hamilton WC. Detection of pregnancy by radioimmunoassay of a novel pregnancy-specific protein in serum of cows and a profile of serum concentrations during gestation. Biol Reprod. 1986;35(4):936-42. http://doi.org/10.1095/biolreprod35.4.936. PMid:3814705.

Scatolin GN, Ming H, Wang Y, Iyyappan R, Gutierrez-Castillo E, Zhu L, Sagheer M, Song C, Bondioli K, Jiang Z. Single-cell transcriptional landscapes of bovine peri-implantation development. iScience. 2024;27(4):109605. http://doi.org/10.1016/j.isci.2024.109605. PMid:38633001.

Stangaferro ML, Toledo MZ, Gennari RS, Perez MM, Gamarra CA, Sitko EM, Monteiro PLJ Jr, Masello M, Prata AB, Granados GE, Van Amburgh ME, Luchini D, Shaver RD, Wiltbank MC, Giordano JO. Effects of feeding rumen-protected methionine pre- and postpartum on reproductive outcomes of multiparous Holstein cows. J Dairy Sci. 2021;104(10):11210-25. http://doi.org/10.3168/jds.2021-20190. PMid:34304872.

Thompson L, Crowe AD, Rabaglino MB, Butler ST, Lonergan P. Sex-related changes in liver and muscle transcriptome of calves derived from artificial insemination or the transfer of an in vitro-produced embryo. Biol Reprod. 2025;ioaf169. http://doi.org/10.1093/biolre/ioaf169. PMid:40720734.

United Nations. (2016). Sustainable development goals. New York.

van Leeuwen J, Berg DK, Pfeffer PL. Morphological and gene expression changes in cattle embryos from hatched blastocyst to early gastrulation stages after transfer of in vitro produced embryos. PLoS One. 2015;10(6):e0129787. http://doi.org/10.1371/journal.pone.0129787. PMid:26076128.

Viana JHM. 2022 Statistics of embryo production and transfer in domestic farm animals: the main trends for the world embryo industry still stand. Embryo Technology Newsletter. 2023;41(4):20-41.

Wathes DC, Wooding FB. An electron microscopic study of implantation in the cow. Am J Anat. 1980;159(3):285-306. http://doi.org/10.1002/aja.1001590305. PMid:7211711.

Webb LE, Verwer C, Bokkers EAM. The future of surplus dairy calves: an animal welfare perspective. Front. Anim. Sci. 2023;4:1228770. http://doi.org/10.3389/fanim.2023.1228770.

Wiltbank MC, Baez GM, Garcia-Guerra A, Toledo MZ, Monteiro PL, Melo LF, Ochoa JC, Santos JE, Sartori R. Pivotal periods for pregnancy loss during the first trimester of gestation in lactating dairy cows. Theriogenology. 2016;86(1):239-53. http://doi.org/10.1016/j.theriogenology.2016.04.037. PMid:27238438.

Wooding FBP. The ruminant placental trophoblast binucleate cell: an evolutionary breakthrough. Biol Reprod. 2022;107(3):705-16. http://doi.org/10.1093/biolre/ioac107. PMid:35594454.
 

Submitted date:
05/05/2025

Accepted date:
07/14/2025

68c406c6a953954c5e637ec5 animreprod Articles
Links & Downloads
1984-3143 (Electronic) 1806-9614 (Printed)
Anim Reprod ©2025 All rights reserved.

Anim Reprod

Share this page
Page Sections