D A Acker1, S Curran, E T Bersu, O J Ginther. 1. Department of Animal Health and Biomedical Sciences, School of Veterinary Medicine, University of Wisconsin, Madison 53706, USA.
Abstract
OBJECTIVE: To describe the gross and histologic changes that develop in the equine embryo proper (ie, the portion of the embryo that becomes the fetus) from days 17 to 40 after ovulation and to compare the external features of equine embryos with those of porcine, ovine, and human embryos. SAMPLE POPULATION: 34 embryos collected from mixed-breed pony mares. PROCEDURE: External features for each embryo proper, including length, number of branchial arches, growth of appendages, face and head features, and body features, were examined, using a dissecting microscope, for embryos collected on days 17 to 40. Internal features were histologically examined by serially sectioning embryos collected on days 20 to 35. RESULTS: Number of embryos recovered for each day ranged from 1 to 5. The initial detection of features was not related closely to age; typically, the first attainment of a given body length or characteristic varied over a 3-day period among embryos. Similarly, the period during which individual characteristics for a given Carnegie stage were attained ranged from 3 to 6 days. Age at first appearance of a characteristic was greater for equine embryos than ages reported for ovine and porcine embryos but less than for human embryos. Indicators of age included number of pairs of branchial arches, all limb buds present, retinal pigmentation, and prominence of the pontine flexure. CONCLUSIONS: No embryologic structures or changes were found that could be considered unique to equine embryos on days 17 to 40 after ovulation.
OBJECTIVE: To describe the gross and histologic changes that develop in the equine embryo proper (ie, the portion of the embryo that becomes the fetus) from days 17 to 40 after ovulation and to compare the external features of equine embryos with those of porcine, ovine, and human embryos. SAMPLE POPULATION: 34 embryos collected from mixed-breed pony mares. PROCEDURE: External features for each embryo proper, including length, number of branchial arches, growth of appendages, face and head features, and body features, were examined, using a dissecting microscope, for embryos collected on days 17 to 40. Internal features were histologically examined by serially sectioning embryos collected on days 20 to 35. RESULTS: Number of embryos recovered for each day ranged from 1 to 5. The initial detection of features was not related closely to age; typically, the first attainment of a given body length or characteristic varied over a 3-day period among embryos. Similarly, the period during which individual characteristics for a given Carnegie stage were attained ranged from 3 to 6 days. Age at first appearance of a characteristic was greater for equine embryos than ages reported for ovine and porcine embryos but less than for human embryos. Indicators of age included number of pairs of branchial arches, all limb buds present, retinal pigmentation, and prominence of the pontine flexure. CONCLUSIONS: No embryologic structures or changes were found that could be considered unique to equine embryos on days 17 to 40 after ovulation.
Authors: Nathia N Rigoglio; Rodrigo S N Barreto; Phelipe O Favaron; Júlio C F Jacob; Lawrence C Smith; Melba O Gastal; Eduardo L Gastal; Maria Angélica Miglino Journal: J Mol Neurosci Date: 2016-08-15 Impact factor: 3.444
Authors: Stephan Handschuh; Carolina T C Okada; Ingrid Walter; Christine Aurich; Martin Glösmann Journal: Anat Histol Embryol Date: 2022-07-18 Impact factor: 1.130