Characterization of intrauterine mobility of the early equine conceptus.
Abstract: Intrauterine mobility patterns of the embryonic vesicle were characterized on Days 9 to 17 after ovulation in pony mares using real-time ultrasonography (n=5 or 7 mares per day). The location of the vesicle was determined by dividing the uterus into right horn, left horn, and body. Each uterine horn was further divided into three approximately equal portions (cranial third, middle third, caudal third), yielding seven segments (body plus three portions of each horn). Location of the vesicle within the uterus was recorded every five minutes for two consecutive hours (25 location determinations per trial). The number of times the vesicle was found in the uterine body versus one of the uterine horns was greater for the body on Day 9 (15.2 vs 9.8; not significant) and Day 10 (17.3 vs 7.7 P<0.05) and greater (P<0.05) for the horns on Days 12 (7.3 vs 17.7) through 17 (0.0 vs 25.0). Averaged over all days, when the vesicle was in one of the uterine horns it was present 56% of the time in the caudal third, 30% of the time in the middle third, and 14% of the time in the cranial third. Mobility was determined by the number of times the vesicle changed locations during successive examinations. On Day 9, the mean number of location changes per trial was minimal (horn to horn, 0.2; body to horn or vice versa, 1.8; between two segments, 4.2). The extent of mobility increased on Day 10 and reached an apparent plateau from Day 11 to Day 14. The mean number of location changes per trial during the plateau was as follows: horn to horn, 1.6; body to horn or vice versa, 5.6; between two segments, 10.7. Fixation (cessation of mobility) occurred in one of the horns in 5 7 mares on Day 15 and in 7 7 mares by Day 16. Mobility was present on the earliest day the embryonic vesicle was detected (Day 9), but Days 11 to 14 were characterized as the days of maximum mobility.
Publication Date: 1984-10-01 PubMed ID: 16725972DOI: 10.1016/0093-691x(84)90460-6Google Scholar: Lookup
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Summary
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The research paper presents analysis on movements of the embryonic vesicle within the uterus of a mare in early pregnancy days, using ultrasonography.
Study Methodology
- The study was conducted on pony mares from the ninth to seventeenth day after ovulation. The number of mares per day varied between five and seven.
- Real-time ultrasonography was used to monitor the embryonic vesicle’s location. The uterus was segmented into right and left horns and the body for this purpose.
- Each uterine horn was further divided into three approximate equal parts – the cranial third, middle third, and caudal third. This effectively broke down the uterus into seven distinct segments.
- The vesicle’s location within the uterus was documented every five minutes for two consecutive hours, resulting in 25 location determinations per trial.
Study Observations
- The proportion of times the vesicle was located in the uterine body versus one of the horns was greater for the body on Day 9 and Day 10, and greater for the horns from Day 12 onwards until Day 17.
- When the vesicle was within one of the horns, it was present 56% of the time in the caudal third, 30% of the time in the middle third, and 14% in the cranial third.
- Mobility pattern for the vesicle was gauged by noting the number of times the vesicle’s location varied during successive examinations.
- On Day 9, movement between horns was minimal. However, the movement increased on Day 10 and reached a plateau phase from Day 11 to Day 14.
- Post the plateau phase, mobility ceased with the vesicle fixing in one of the horns in some mares by Day 15 and all by Day 16.
Study Conclusion
- The embryonic vesicle was mobile from as early as Day 9, but maximum mobility was noted between Days 11 and 14.
Cite This Article
APA
Leith GS, Ginther OJ.
(1984).
Characterization of intrauterine mobility of the early equine conceptus.
Theriogenology, 22(4), 401-408.
https://doi.org/10.1016/0093-691x(84)90460-6 Publication
Researcher Affiliations
- Department of Veterinary Science University of Wisconsin-Madison Madison, WI 53706 USA.
Citations
This article has been cited 7 times.- Newcombe JR, Cuervo-Arango J, Wilsher S. The Timing of the Maternal Recognition of Pregnancy Is Specific to Individual Mares.. Animals (Basel) 2023 May 22;13(10).
- Diel de Amorim M, Klein C, Foster R, Dong L, Lopez-Rodriguez MF, Card C. Expression of Oxytocin/Neurophysin I and Oxytocinase in the Equine Conceptus from Day 8 to Day 21 Post-Ovulation.. Animals (Basel) 2022 Mar 22;12(7).
- 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.
- Ratto MH, Urra F, Silva M. Laterality of Ovulation and Presence of the Embryo Do Not Affect Uterine Horn Blood Flow During the First Month of Gestation in Llamas.. Front Vet Sci 2020;7:598117.
- Klohonatz KM, Coleman SJ, Cameron AD, Hess AM, Reed KJ, Canovas A, Medrano JF, Islas-Trejo AD, Kalbfleisch T, Bouma GJ, Bruemmer JE. Non-Coding RNA Sequencing of Equine Endometrium During Maternal Recognition of Pregnancy.. Genes (Basel) 2019 Oct 18;10(10).
- Klohonatz KM, Coleman SJ, Islas-Trejo AD, Medrano JF, Hess AM, Kalbfleisch T, Thomas MG, Bouma GJ, Bruemmer JE. Coding RNA Sequencing of Equine Endometrium during Maternal Recognition of Pregnancy.. Genes (Basel) 2019 Sep 25;10(10).
- 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.
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