Mechanisms behind intrauterine device-induced luteal persistence in mares.
Abstract: Intrauterine glass balls are used to prevent oestrous signs in sports mares, but the mechanism of action is unknown. It has been suggested that the glass ball can mimic an embryo or act via an induced chronic uterine inflammation and absent or continuous low-grade prostaglandin (PG) release. The purpose of this study was to induce prolonged luteal function in mares using a small intrauterine device (IUD) and to study the mechanisms behind prolonged IUD-induced luteal function. A uterine swab and a biopsy specimen were obtained in early oestrus. A water-filled plastic ball, diameter 20mm and weight 3.6g, was inserted into the uterus 2-4 days after ovulation; the control mares underwent similar cervical manipulation without ball insertion. The mares were examined three times per week until day 23 and twice weekly thereafter until they returned to oestrus (transrectal palpation, ultrasonography and progesterone determination). The location of the IUD was recorded and ultrasound scans were video-recorded to assess the frequency of uterine contractions. When the mare returned to oestrus, a uterine swab and biopsy specimen were obtained and the bacteriological, cytological and histological (inflammation and glandular dilation) results compared with the samples obtained before the IUD insertion. The PG F(2alpha) metabolite levels were measured in the plasma of four control mares and eight IUD mares on days 11-16. The IUD induced a prolonged luteal phase in 75% of the mares (9/12; IUD-P); the mean dioestrous length was 57.0 days. The three mares that did not respond to the IUD (IUD-N) showed a mean dioestrous length of 15.7 days and the 12 control mares 16.1 days. The inflammation and glandular dilation scores were not significantly different in pre- and post-manipulation biopsy specimens. Although locational changes of the IUD were observed, they occurred over very small distances and were mostly limited within the body-bifurcation area. The IUD-N and control mares showed increased uterine contractility 11-16 days post-ovulation, whereas the IUD-P mares did not. The control mares (n=4) and IUD-N mares (n=2) showed increased PG levels from day 14 post-ovulation, while the IUD-P mares (n=6) showed basal levels only. We concluded that the IUD did not cause continuous PG release and suggest that close contact of the IUD with the endometrium may prevent the endometrial cells from releasing PGF(2alpha).
Publication Date: 2007-06-14 PubMed ID: 17643876DOI: 10.1016/j.anireprosci.2007.06.010Google Scholar: Lookup
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- Controlled Clinical Trial
- Journal Article
Summary
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The research article investigates the mechanisms that enable intrauterine devices (IUDs) to induce luteal persistence in mares. The study concludes that proximity of the IUD to the endometrium could be inhibiting the release of prostaglandin F2alpha, rather than continuous prostaglandin release.
Objective and Methodology
- The objective of this study was to induce extended luteal function in mares using a small intrauterine device (IUD) and to examine the mechanisms behind this prolonged IUD-induced luteal function.
- The researchers obtained a uterine swab and a biopsy specimen in early estrus and inserted a water-filled plastic ball into the uterus of the mares 2-4 days post ovulation, while control mares underwent a similar process without the ball insertion.
- The mares were then observed three times a week until day 23 and twice weekly thereafter until they returned to estrus. The location of the IUD was tracked and ultrasound scans were made to evaluate the frequency of uterine contractions.
Findings
- The IUD induced a prolonged luteal phase in 75% of the mares, with a mean dioestrous length of 57.0 days.
- The inflammation and glandular dilation scores did not show significant changes in biopsy specimens obtained pre and post-manipulation.
- Changes in the IUD’s location were observed but were minor, primarily limited to the body-bifurcation area.
- Increased uterine contractility was observed in control mares and those that did not respond to the IUD (IUD-N) 11-16 days post-ovulation, while no such increase was noticeable in the mares that responded to the IUD (IUD-P).
- The prostaglandin F2alpha metabolite levels increased post day 14 in the controls and IUD-N subjects, while basal levels maintained in IUD-P mares.
Conclusion
- The study concludes that the IUD did not lead to a perpetual release of prostaglandin (PG), contradicting previous theories.
- It is suggested that the IUD’s close contact with the endometrium inhibits the endometrial cells from releasing prostaglandin F2alpha (PGF2alpha), supporting luteal persistence in mares.
Cite This Article
APA
Rivera Del Alamo MM, Reilas T, Kindahl H, Katila T.
(2007).
Mechanisms behind intrauterine device-induced luteal persistence in mares.
Anim Reprod Sci, 107(1-2), 94-106.
https://doi.org/10.1016/j.anireprosci.2007.06.010 Publication
Researcher Affiliations
- Unit of Reproduction, Faculty of Veterinary Medicine, Autonomous University of Barcelona, Bellaterra, Barcelona 01893, Spain. mariamontserrat.rivera@uab.es
MeSH Terms
- Animals
- Corpus Luteum / physiology
- Dinoprost / blood
- Endometrium / physiology
- Female
- Horses / blood
- Horses / physiology
- Intrauterine Devices / veterinary
- Progesterone / blood
- Time Factors
Citations
This article has been cited 7 times.- Aurich C, Kaps M. Suppression of reproductive behaviour and gonadal function in female horses-An update.. Reprod Domest Anim 2022 Sep;57 Suppl 4(Suppl 4):4-12.
- Rivera Del Alamo MM, Reilas T, Lukasik K, Galvão AM, Yeste M, Katila T. Inflammatory Markers in Uterine Lavage Fluids of Pregnant, Non-Pregnant, and Intrauterine Device Implanted Mares on Days 10 and 15 Post Ovulation.. Animals (Basel) 2021 Dec 8;11(12).
- Klein C, Bruce P, Hammermueller J, Hayes T, Lillie B, Betteridge K. Transcriptional profiling of equine endometrium before, during and after capsule disintegration during normal pregnancy and after oxytocin-induced luteostasis in non-pregnant mares.. PLoS One 2021;16(10):e0257161.
- Swegen A. Maternal recognition of pregnancy in the mare: does it exist and why do we care?. Reproduction 2021 May 5;161(6):R139-R155.
- Camacho CA, Estradé MJ, Cazales N, Caballeros JE, Fiala-Rechsteiner SM, Neves AP, Mattos RC. Histomorphometric and vascular changes in equine endometrium after the infusion of conceptus fragments.. Anim Reprod 2020 Jun 29;17(2):e20200006.
- Klohonatz KM, Nulton LC, Hess AM, Bouma GJ, Bruemmer JE. The role of embryo contact and focal adhesions during maternal recognition of pregnancy.. PLoS One 2019;14(3):e0213322.
- Aurich C, Budik S. Early pregnancy in the horse revisited - does exception prove the rule?. J Anim Sci Biotechnol 2015;6:50.
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