Peculiarities of the morphogenesis and topography of the human orbit.

Authors

  • O. V. Tsyhykalo Higher State Educational Establishment of Ukraine «Bukovinian State Medical University», Chernivtsi, Ukraine https://orcid.org/0000-0003-2302-426X
  • N. Ya. Kozariichuk Higher State Educational Establishment of Ukraine «Bukovinian State Medical University», Chernivtsi, Ukraine https://orcid.org/0000-0002-8884-507X
  • Т. V. Protsak Higher State Educational Establishment of Ukraine «Bukovinian State Medical University», Chernivtsi, Ukraine https://orcid.org/0000-0002-8228-0143
  • O. S. Zabrods’ka Higher State Educational Establishment of Ukraine «Bukovinian State Medical University», Chernivtsi, Ukraine

DOI:

https://doi.org/10.26641/1997-9665.2019.4.61-65

Keywords:

orbit, organ of vision, nerves, veins, arteries, ontogenesis

Abstract

Background. Age dynamics of the orbit morphogenesis, stages of the topography formation of its structural components is a significant subject of the scientific search to elucidate the morphological underlying reason of stiopathogenesis of the congenital and acquired diseases of the organ of sight, accessory eye apparatus, muscular, vascular and nervous components of the orbit. Objective. To analyze the modern stage of studying morphogenesis and peculiarities of the age dynamics of the anatomical changes of the human orbit, to elucidate discrepant and not solved issues of morphology of its structures. Methods. Critical analysis of the domestic and foreign sources, dedicated to the human orbit morphology studying, realized 10 years ago. Results. The main stages of morphogenesis of the human orbit structures (bones, adipose tissue, muscles, blood vessels and nerves) have been analyzed in the review of the scientific literature. Human orbit is characterized with sexual-age and peculiar changeability, conformities’ elucidation of which will allow to individualize the operative treatment and prognosticate its possible complications. Data concerning anlage of the human orbit structures, morphogenesis peculiarities and sequence of topographic-anatomical changes of its structures are left to be fragmental and contradictory. Conclusion. Up-to-date data about morphogenesis and formation of topography of the muscular structures of the human orbit require a complex morphological investigation in the age dynamics of the structural and topographic-anatomical changes. The present data concerning prenatal development of the orbit are fragmentary and do not give complete conception about the sequence of the structural transformation during antenatal life. Information about sources, location, term and sequence of anlage of the human orbit structures as well as peculiarities of the change of the form, sizes, syntopy, variation anatomy in the age dynamics of ontogenesis require more precise definition. Determination of these important tasks by the scientists-morphologists will promote the morphological underlying reason formation to develop new methods of the operative treatment and diagnostics of the human orbit pathology.

References

  1. Zhang, Q., Wang, H., Udagawa, J., & Otani, H. Morphological and morphometric study on sphenoid and basioccipital ossification in normal human fetuses. Congenital anomalies. 2011;51(3):138-48. https://doi.org/10.1111/j.1741-4520.2011.00322.x
  2. Dubyna SO, Iabluchanskyi MI. [Morphometric indicators of orbit in adults]. Zaporozhye medical journal. 2015;3(90):99–102. Ukrainian. http://dspace.zsmu.edu.ua/bitstream/123456789/1107/1/zmj_1503_99-102.pdf
  3. Voloshyn MA, Svitlutskuu AO, Sherbacov MC, Matvieishyna TM, Lazaric OL, authors; Topographichna anatomiya golovu ta shiyi [Topografic anatomy head and neck].- Zaporozhye: ZSMU; 2017. 98p. Ukrainian. http://dspace.zsmu.edu.ua/bitstream/123456789/5924/1/anatomiya_golovi_ta_shiyi.pdf
  4. Kuchuk OP, ProniaievDV, Sykyrytska TB, [Clinical anatomy of the eye socket]. Clinical anatomy and operative surgery. 2018;17(2):84-92. Ukrainian. http://www.irbis.nbuv.gov.ua/cgibin/irbis_nbuv/cgiirbis_64.exe?c21com=2&i21dbn=ujrn&p21dbn=ujrn&image_file_download=1&Image_file_name=PDF/kaoch_2018_17_2_17.pdf
  5. Dubyna SO, Iabluchanskyi MI. [Morphmetric characteristics of the orbit inadults according the sex features]. J. Clin. Exp. Med. Res. 2015;3(2):206 13. Ukrainian. http://essuir.sumdu.edu.ua/bitstream/123456789/41890/1/Dubina_orbit.pdf
  6. Burns NS, Iyer RS, Robinson AJ, Chapman T. Diagnostic imaging of fetal and pediatric orbital abnormalities. American Journal of Roentgenology. 2013;201(6):797-808. https://www.ajronline.org/doi/pdf/10.2214/ AJR.13.10949 doi: 10.2214/AJR.13.10949
  7. Petrenko OV, Babkina TM, Vasyltsov IA. [X-ray techniques in the diagnosis of orbital pathology]. Archive of Ukrainian Ophthalmology. 2019;7(2):54-60. Ukrainian. http://ophthalm.zaslavsky.com.ua/article/viewFile/169690/171843
  8. Khudyakova OV, Vinogradov AA. [Variants structures of an eye orbit of people] Ucrainian morphological almanach. 2012;10(2):161-4. Russian. http://www.irbis-nbuv.gov.ua/cgi-/irbis_nbuv/cgiirbis_64.exe?c21com=2&i21dbn=ujrn&p21dbn=ujrn&image_file_download=1&Image_file_name=PDF/Umora_2012_10_2_48.pdf
  9. Tsygikalo OV, Kozariychuk NY, Sikyrytska TB. [Sources and chronological secuence of the eyesocket structures anlage]. Clinical and experimental patology. 2019;18(3):90-5. Ukrainian. http://cep.bsmu.edu.ua/article/download/1727-4338.XVIII.3.69.2019.15/pdf_367
  10. Somov EE. [Clinical anatomy of the human eye]. 4-th (enl): Moskva: Medpress-inform; 2016. 136p. Russian. http://www.03book.ru/upload/iblock/23a/23a826bd3ed309e687d2429a32d48ae4.pdf
  11. Dubyna SO, Yabluchansky MI. [Age characteristic of morphometric parameters of an orbit in adults]. Morphologia. 2015;9(1):29-33. Ukrainian. http://ekhnuir.univer.kharkov.ua/bitstream/123456789/10690/2/Yabluchansky%20MORPHOLOGIA_%202015.pdf
  12. Gaivoronskiy IB, Kirillova MP. [Comparative characteristic of morphometric parameters of the orbital opening in men and women]. Morphologia. 2013;144(4):59-64. Russian. https://elibrary.ru/item.asp?id=20297126
  13. Dubyna SO [Morphometric indicators of an orbit at adults in connection with types of cranium]. Journal of V. N. Karazin` KhNU. № 1154. Series «Medicine» Issue 29. 2015;1154:27-33. Russian. https://cyberleninka.ru/article/n/morphometric-indicators-of-an-orbit-at-adults-in-connection-with-types-of-cranium
  14. Shkrobanets AA [Interrelations of the anatomical structures of the retrobulbar portion of the orbit in fetuses aged 7-9 months]. Clinical anatomy and operative surgery. 2009;8(1):62-5. Ukrainian. http://www.morphology.dp.ua/_pub/CAS-2009-08-01/CAS-2009-08-62.pdf
  15. Shkrobanets AA, Loytra, A.O [The development of the orbital wall in the fetal period of human ontogenesis]. Clinical anatomy and operative surgery. 2014;13(2):82. Ukrainian. http://91.209.235.28:8080/bitstream/123456789/13287/1/8.pdf
  16. Tawfik HA, Dutton JJ. Embryologic and Fetal Development of the Human Orbit. Ophthalmic Plast Reconstr Surg. 2018;34(5):405-21. doi: 10.1097/IOP.0000000000001172
  17. Ali MJ, Kakizaki H. Embryology of the lacrimal drainage system. Principles and Practice of Lacrimal Surgery. Singapore:Springer; 2018:9-18. https://link.springer.com/chapter/10.1007/978-981-10-5442-6_2
  18. Khudyakova OV. [ Anatomic changeability of structure of eye socket of people of ХХ of century]. Bulletin of Luhansk Taras Shevchenko National University. 2012;17(252):157-61. Russian.
  19. http://dspace.ltsu.org/bitstream/123456789/290/1/V2012_17.pdf#page=158
  20. Shumko DO, [Morphometric characteristics of the ocular fossa in the prenatal period and pediatric age of human skull ontogenysy]. In: [A humanitarian and innovative perspective on professional excellence: the search for young scientists; October 2017; Odesa, Ukraine160-162]. 2017. p.160-162. Ukrainian. http://www.mgu.edu.ua/docs/konferencii/3_vcheni.pdf#page=160
  21. Navarchuk NM. [THE features of evolutionary morphology of the visual organ constituents]. Clinical anatomy and operative surgery 2013;12(4):115-21. Ukrainian. http://91.209.235.28:8080/bitstream/123456789/13257/1/28.pdf
  22. Yamaguchi K. Development of the human oculomotor nuclear complex: Somatic nuclei. Ann Anat. 2014;196(6):394-401. doi: 10.1016/j.aanat.2014.07.006
  23. Sobko OV, Oliinyk IYu, Ushenko AG. [Stokes Polarimetric Mapping of Histological Sections Orientation Structure of Human Fetal Oculomotor Muscles]. Bulletin of problems biology and medicine. 2014;4(1):290-5. Ukrainian. https://cyberleninka.ru/article/n/stoks-polyarimetrichne-kartografuvannya-orientatsiynoyi-pobudovi-gistologichnih-zriziv-okoruhovih-m-yaziv-plodiv-lyudini
  24. Avetikov DS. [Clinical-Morphological Ground Of Getting Up And Mobilization Of Skin Fatty Shreds In Area Of Eye Socket]. Bulletin of problems biology and medicine. 2012;2(1):166-8. Ukrainian. https://cyberleninka.ru/article/n/kliniko-morfologichne-obgruntuvannya-pidyomu-ta-mobilizatsiyi-shkirno-zhirovih-klaptiv-z-pidvischenimi-ta-ponizhenimi-mozhlivostyami
  25. Barinov EF, Dubina SA. [Quantitative anatomy of an orbit]. Neurosurgery and Neurology of Kazakhstan. 2014;37(4):24-8. Russian. https://cyberleninka.ru/article/n/kolichestvennaya-anatomiya-glaznitsy

Downloads

How to Cite

Tsyhykalo, O. V., Kozariichuk, N. Y., Protsak Т. V., & Zabrods’ka, O. S. (2019). Peculiarities of the morphogenesis and topography of the human orbit. Морфологія / Morphologia / Morfologìâ, 13(4), 61–65. https://doi.org/10.26641/1997-9665.2019.4.61-65

Issue

Vol. 13 No. 4 (2019)

Section

Статті

License

Copyright (c) 2020 Morphologia

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

 The authors reserve the right to authorship of their work and transfer to the Journal the right to the first publication of this work under the terms of a license Creative commons Attribution 4.0 International (CC BY 4.0), which allows other people to freely distribute the published work with a mandatory reference to the authors of the original work and the first publication of the work in this journal.
        By submitting a manuscript to the editorial office of the Journal ‘Morphologia’ authors agree to transfer the rights to protect and use the manuscript (all supplemental materials, particularly protected objects such as photos, drawings, diagrams, tables, etc.), including the reproduction in the press and distribution via the Internet; translation of the manuscript into any language; export and import of journal copies with the Authors’ article in order to make it available for public. Authors convey the rights mentioned above to the editorial office without any temporal or territorial limitation all over the world. 
        The Authors guarantee that they have the exclusive rights to use the material transferred to editorial office. Editors are not responsible to third parties for contraventions of warranty given by the Authors. The considered rights are transferred to the editorial office since the moment when the current issue is signed for publishing. Reproduction of materials published in the Journal by other individuals and legal entities is possible only with the consent of Editorial office, with the obligatory indication of the full bibliographic reference of the primary publication. The Authors reserve the right to use the published material, its fragments and parts for teaching materials, oral presentations, dissertation thesis prepararion with obligatory bibliographic citation of the original paper. Electron copy of the published article, downloaded from official journal web-site in .pdf format may be put by authors on the official web-site of their institutions, any other official resources with open access.