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Anti-Müllerian hormone profiling in prepubertal horses and its relationship with gonadal function.
Abstract: Anti-Müllerian hormone (AMH) has gained increasing interest as a biomarker for assessment of gonadal activity. The ability to predict the ovarian follicular reserve of prepubertal female horses (fillies) or to identify stallions with testicular pathologies already during their prepubertal life has not been analyzed so far. Both would help to select fertile horses and reduce costs associated with keeping animals. The objectives of the present study were to (1) assess AMH, LH, FSH, progesterone (females) and testosterone (males) dynamics in prepubertal horses from birth onwards and (2) determine whether AMH concentrations detected in plasma of prepubertal female and male horses are correlated with postpubertal gonadal development. Warmblood foals (n = 30, 14 females, 10 normal males and 6 males with abnormal testicular development) born between February and May of two consecutive years (n = 28 in the first year and n = 2 the next year), were included in the study. Information on gestational length, parity of the dam and placental weight was collected for all foals. Blood samples for hormone analysis were collected from birth onwards every four weeks up to the age of one year. At two years, blood samples were collected on the day when antral follicle count (AFC) and total testicular volume (TTV) were assessed. AMH was detectable in the plasma of all animals from birth onwards and its concentration was significantly higher (P < .001) in males than in females, regardless of testicular development. In males, AMH and testosterone concentration were similar for all animals during the first year of life, regardless of testicular development. At two years, AMH concentration was higher (P < .05) in males with abnormal testicular development than in those with normal testes. In females, AMH concentration at two years was correlated with AMH concentration at birth (P < .05) and with AFC (P < .001). At birth, LH concentration was lower (P < .05) in stallions with abnormal testes (0.3 ± 0.2 ng/ml) than in controls (0.6 ± 0.2 ng/ml). A high negative correlation between AMH concentration and gestation length was observed in males during the first eight weeks of life (P < .01, r = -0.64 to -0.71). Elevated progesterone concentrations over 1 ng/ml were observed in several females starting with 20 weeks of age. This was paralleled by an increase in AMH concentration and was preceded by FSH and LH increases. In conclusion, AMH determination can be reliably used from two years onwards to identify stallions with abnormal testicular development, but it is inconclusive before puberty. In female horses, determination of AMH concentration at a prepubertal age allows for prediction of AMH and AFC after puberty. We suggest that premature luteinisation occurs before the onset of puberty in female horses and that LH secretion in the perinatal period is involved in testicular development and descent in the horse.
Copyright © 2018 Elsevier Inc. All rights reserved.
Publication Date: 2018-05-15 PubMed ID: 29784463DOI: 10.1016/j.theriogenology.2018.05.012Google Scholar: Lookup The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Journal Article
Summary
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This research explores the use of the Anti-Müllerian hormone (AMH) as a predictive biomarker for ovarian and testicular development in young, prepubertal horses. The study shows a correlation between AMH concentration in young horses and their postpubertal gonadal development. In male horses, AMH was observed to predict testicular pathologies, while in females, it forecasted the number of ovarian follicles, both having direct implications on the animal’s fertility.
Participants and Methodology
- The study involved 30 Warmblood foals including 14 females, 10 normal males, and 6 males with abnormal testicular development.
- Data like gestational length, dam parity, and placental weight from the foals were collected.
- Over the course of two years, the team collected blood samples every four weeks until the foals were one year old. Subsequent samples were taken when they turned two years old, in conjunction with the assessment of the antral follicle count (AFC) for females and the total testicular volume (TTV) for males.
- The hormone analysis focused on AMH, Luteinising hormone (LH), follicle-stimulating hormone (FSH), progesterone (in females), and testosterone (in males) dynamics.
Findings
- AMH was detectable in every animal from birth and was significantly higher in males, regardless of their testicular development.
- In males, AMH and testosterone concentrations were similar in the first year of life, irrespective of testicular development. However, at the age of two, males with abnormal testes had a significantly higher concentration of AMH.
- In females, a clear correlation was observed between AMH concentration at two years and at birth, as well as with the AFC.
- A low LH concentration at birth was associated with `abnormalities in testes development in stallions.
- Significant negative correlation was observed between AMH concentration and gestation length in males during their first two months.
Interpretation and Conclusion
- The findings suggest that AMH can help identify testicular pathologies in male horses from the age of two onwards. However, the hormone’s use for this purpose prior to puberty remains ambiguous.
- For female horses, measuring AMH concentration at a prepubertal age can predict AFC and AMH levels postpuberty, aiding in the estimation of their fertility potential.
- The authors hypothesized the occurrence of premature luteinisation before the onset of puberty in female horses. They also suggested that LH secretion around birth plays a critical role in male horses’ testicular development and descent.
Thus the study underscores the potential of AMH as a biomarker in assessing the gonadal development and fertility potential in horses. However, more research is needed to refine the understanding and applicability of these findings, especially for prediagnosis in prepubertal males.
Cite This Article
APA
Scarlet D, Wulf M, Kuhl J, Köhne M, Ille N, Conley AJ, Aurich C.
(2018).
Anti-Müllerian hormone profiling in prepubertal horses and its relationship with gonadal function.
Theriogenology, 117, 72-77.
https://doi.org/10.1016/j.theriogenology.2018.05.012 Publication
Researcher Affiliations
- Obstetrics, Gynecology and Andrology, University of Veterinary Medicine Vienna, Austria. Electronic address: dragos.scarlet@vetmeduni.ac.at.
- Graf Lehndorff Institute for Equine Science, Neustadt (Dosse), Germany.
- Center for Artificial Insemination and Embryo Transfer, University of Veterinary Medicine Vienna, Austria.
- Center for Artificial Insemination and Embryo Transfer, University of Veterinary Medicine Vienna, Austria.
- Center for Artificial Insemination and Embryo Transfer, University of Veterinary Medicine Vienna, Austria.
- Department of Population Health and Reproduction, School of Veterinary Medicine, University of California, Davis, CA, USA.
- Graf Lehndorff Institute for Equine Science, Neustadt (Dosse), Germany.
MeSH Terms
- Animals
- Anti-Mullerian Hormone / blood
- Biomarkers / blood
- Female
- Follicle Stimulating Hormone / blood
- Gonads / growth & development
- Gonads / metabolism
- Horses / growth & development
- Horses / metabolism
- Horses / physiology
- Luteinizing Hormone / blood
- Male
- Progesterone / blood
- Sex Factors
- Sexual Maturation
- Testosterone / blood
Citations
This article has been cited 8 times.- Boakari YL, Legacki E, Alonso MA, Dos Santos ACF, Nichi M, Conley AJ, Fernandes CB. Postnatal Dynamics of Circulating Steroid Hormones in Mule and Equine Neonates. Vet Sci 2022 Oct 28;9(11).
- Gültiken N, Yarim M, Aslan S, Gürler H, Yarim GF, Tuncay M, İnal S, Schäfer-Somi S. Expression of Anti-Müllerian Hormone and Its Type 2 Receptor in the Ovary of Pregnant and Cyclic Domestic Cats. Animals (Basel) 2022 Mar 30;12(7).
- Papas M, Govaere J, Peere S, Gerits I, Van de Velde M, Angel-Velez D, De Coster T, Van Soom A, Smits K. Anti-Müllerian Hormone and OPU-ICSI Outcome in the Mare. Animals (Basel) 2021 Jul 5;11(7).
- Kaps M, Okada CTC, Gautier CM, Aurich J, Aurich C. Deslorelin Slow-Release Implants Delay Ovulation and Increase Plasma AMH Concentration and Small Antral Follicles in Haflinger Mares. Animals (Basel) 2021 May 28;11(6).
- Okada CTC, Kaps M, Perez Quesada J, Gautier C, Aurich J, Aurich C. Diestrous Ovulations in Pregnant Mares as a Response to Low Early Postovulatory Progestogen Concentration. Animals (Basel) 2020 Nov 30;10(12).
- Sendag S, Wagner H, Turgut AO, Koca D, Schuler G, Wehrend A. The Elecsys AMH Assay Is a Suitable Method to Detect Gonadal Tissue in Male Alpacas and Llamas. Vet Med Sci 2025 Sep;11(5):e70558.
- Scarlet D, Schuler G, Malama E, Bollwein H, Bocci C, Colleoni S, Lazzari G, Galli C, Kowalewski MP. Endocrine profile and OPU-ICSI outcomes in mares: a comparative study. Reprod Fertil 2025 Jul 1;6(3).
- Alexander T, Flock U, Klein R, Reese S, Meyer-Lindenberg A, Walter B. Physiological Anti-Müllerian Hormone Concentrations in Male and Female Dogs and Cats before and around Puberty. Animals (Basel) 2024 Sep 3;14(17).
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