Embryology - 17 May 2024        Expand to Translate
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Corner GW. Maturation of the ovum in swine . (1917) Anat. Rec. 13(2): 109-112.

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This 1917 paper by George Corner describes pig implantation. Modern Notes: pig | oocyte Pig Links: Introduction | Estrous Cycle | 1897 Pig Embryo Development Plates | 1951 Pig Embryology | Category:Pig   Historic Papers: 1894 Blastodermic Vesicle | 1903 12mm Pig | 1903 Pig Adrenal | 1905 Thymus | 1906 Testis | 1908 Pancreas | 1908 Pharyngeal Pouches | 1908 Intestinal Diverticula | 1910 Hypoglossal Ganglia | 1911 Prenatal Growth | 1911 Embryo 7.8 mm | 1916 Colon | 1916 Yolk Sac | 1918 Wolffian body | 1919 Corpus Luteum | 1919 Postnatal Thyroid | 1919 Placental Cord | 1921 Estrous and Implantation | 1922 Limb Arteries | 1924 Pig | 1937 Coronary Circulatory | 1938 Abnormal Brain

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Pages where the terms "Historic" (textbooks, papers, people, recommendations) appear on this site, and sections within pages where this disclaimer appears, indicate that the content and scientific understanding are specific to the time of publication. This means that while some scientific descriptions are still accurate, the terminology and interpretation of the developmental mechanisms reflect the understanding at the time of original publication and those of the preceding periods, these terms, interpretations and recommendations may not reflect our current scientific understanding.     (More? Embryology History | Historic Embryology Papers)

Maturation of the Ovum in Swine

George Corner (1889 - 1981)

By George W. Corner

From the Anatnmical Laboratory, University of California

Since the first description of maturation of the ovum of the rabl)it l>y \'an Beneden in 1875, the study of this remarkable phenonieiioii lias boon extended to certain other niannnals. with the result that practically all observers now agi'ee that two polar bodies are formed by every o\'um, the first of which is extruded from the egg while still in the ovary, but immeiliately before rupture of the follicle. Formation of the second jwlar body then proceeds to the formation of a division-spindle, but goes no farther until the egg is discharged and fertilized. .Vfter the entrance of the spermatozoon the .seconil polar body is completed and extrudcil. In the event that fertilization does not occur, the ovum degenerates in the state in which it was freed from the ovary.

Full and comprehensive observations of the proc(>ss of maturation have been made in the rat (Sobotta and Hunkhard '10), guinea-pig (Rubaschkin '()o), opos,sum (Hartman 'IG), a bat, Vesperugo noctula (\'an der Stricht '08), the domestic cat (Longley '11), and the mouse. The studies of Sobotta ('95) and others, lead them to believe that in the last named species many eggs form but one polar body. The interest excited by this statement has caused the mouse to be more fully investigated than any other, with tlie result that the views ciuoted have been proven ineoiTeet. The reader is referred to the work of I>ong and Mark Cll) for details of the question together with the most comprehensive account of maturation yet presenteti in any nuimmal.

The final disproof of this supposed exceptional case raises the question as to whether the process may not be identical in all manunals. To answer this a wider search will be necessary, for the species named above comprise but three rodents, one marsupial, one carnivore, and one chiropter. There are also old or undetailed accounts or preliniinary notes ujion the ova of the dog (O. \ an der Stricht 'OS), tlie rabbit (Van Beneden 75, Heape '05), the niarsuiual Dasyurus viverrinus or Australian "native eat" (Hill '10). an insectivore. Tupaia javanica (Hubrecht '95), and of a lemuroid ape. Tarsius spectrum (Hubrecht '02), and thus of the twelve orders of mammals there are four in which the process of maturation is well known in one species or more, two in which it is very obscure, anil six in which ripening ova have never been seen.

Among the last are the ungulates, in which the species are either rare and inaccessible, or if conunon, are so large that the search for the ova is very difficult. For these reasons it will be of interest to describe a small series consisting of 15 ova from 7 sows (sus scropha domesticus). I am indebted to Mr. Ralston B. Brown, Sui)eriiiten(lent of the Oakland Meat and Packing Company of Oakland. California, for the opportunity to collect the material, and to Mr. A. E. Amsbaugh and Mr. Felix H. Hurni for a.ssistance in its preparation. The sows were selected and the tubal ova found by the method given in a previous paper (Corner and Amsbaugh '17). Ovarian ova wer6 studied in serial sections of the follicles (celloidin) or by cutting hardened follicles into sliees, locating the discus proligerus and sectioning it in paraffin.

Summary

1. Killed during oestrus, probably on the first day. Unruptured follicles. Three ovarian ova sectioned, two show germinative vesicles, the other shows the first polar body and the second polar spindle.
2. First or second day of oestrus. One follicle ruptured, its ovum not found in the tubes. An ovarian ovum shows the first polar body and the second spindle.
3. Second or third day of oestrus. All follicles ruptured. Four imfertilized tubal ova sectioned: all show the first polar body and the second spindle.
4. History unknown. Five unfertilized tubal ova found, of which four (studied fresh) show one polar body extruded.
5. Probably socoml day of oostrus. Copulation observed 24 hours before killing. One tubal ovum found, covered with spermatozoa. In sections, the male and female pronuclei are in contact. Two polar bodies.
6. Second or third day of oostrus. Copulation observed 10 hours before killing. Two ova found in the tubes; both were covered by spermatozoa. One of them, studied fresh, showed two polar bodies. The other was sectioned, and showed the pronuclei in contact, but unfortunately the polar bodies were obscured by damage to the sections.
7. Tubes contained segmenting ova of 2, 4. and G blastomeres. One of the two-celled embryos (studied fresh) showed two polar bodies; a favorable view of the others could not be obtained.

Conclusions

The first ova of an ungulate mammal to be studied indicate that the sequence of maturation is the same in swine as in previously stuilictl forms of other orders, the first polar body being extrudetl and the second polar division proceeding as far as spindle formation before fertilization, the second polar body being cut off only after the entrance of the spermatozoon.

Literature Cited

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Lapin. l$iill. do I'.Vcad. Royale de Bclpiqup. T. 40, no. I'J, p. fiSfi. CoUNER, G. W. AM) .Vmsuaui;!!, a. E. 1917 Oestrus and ovulation in swine.

Anat. Rec, vol. 12, p. 287. Hakt.max, v. O. 191C Studies in the development of the opossum, Didelphys

virjiiniana L. Jour. Morph., vol. 27, p. 1. Heape, W. 1905 Ovulation and deffcneration of ova in the rabbit. Proc. Royal

Soeiety, London, vol. 71), B, p. 2()0. Hli.l,, J. P. 1910 The early development of the marsupialia with especial reference to the native cat I Dasyurus viverrinusi. Quart. Jour. Micros.

Sci., vol. 5f), p. 1. HuBRECHT. .\. A. W. 1,S95 Die Phylogenose des .^mniros und die Bedeutung des Trophoblasts. Verhandelingen der Kon. .\kad. van Wctenschap pcn. te .\ni8terdam. Tweedo .'^ectie, Dec!. 4, No. 5.

1902 Furrhung und Keimblattbildung bei Tarsius spectrum. Ibid., Dccl 8, No. 6.

Long, J. A. and Mahk, E. L. ISMl Tin- imitiirntion of tlif fn\i of llie nio\i8C.

Puliliriilion N<i. 142 of the CariicKii' Iiuslitiition of WaKhiiiKton. LoNfiLEY, W. H. mil Till- iiiiktiiratioii of tlii> ccfc nnd oviilution in the (lumestir

cut. Am. Jour. Aniil.. vol. V2. p. 13'J. RrBASciiKiN. \V. 10(15 I'i'Imt <lir Ki'ifuiiR.s — iiiul I)<>fru(-htiiii):i<|)rozes8c dcs

Mccrsrhweinclu'iK'icK. Anat. Ilcflc, Bd. 29, S. 507. SoDOTTA. J. 1895 Die HefriirhtunK und Furchung dcs Eic8 dcr Mans. Arcli. f.

Mikr. Anat., Hd. J.i. S. 15. SoBOTTA, J. AND BrHrHKAiiD. (i. L. 1910 Kcifung und Bofruchtiing dcs Eies

dcr Wcissi-ii Ilattr. Aiml. Hcftc. Bd. 42, S. 43.3. VA.N DEK i^THKiiT. O. 1!K)S La Structure <ic I'ocuf chcz la chioniic. C. R.

dc I'Assoc. dcs .Vnatoiiiists. Dixicmc Hounion. Marseille.

1910 La structure <le I'oeuf des inaniiniferes, (C'hauve-souris, Vcspc rugo noctulai. Troisieme partie. Memoire presentc a la classc des

isciences, Academic Hoyalc de Bel|{i(|ue, 2 ""^ Serie, Tome 2.

Cite this page: Hill, M.A. (2024, May 17) Embryology Paper - Maturation of the ovum in swine (1917). Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Paper_-_Maturation_of_the_ovum_in_swine_(1917)

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