Rehabilitation of patients with post-traumatic deformation of the orbital walls using thin-profile titanium nickelide implants with shape memory

  • Authors: Vetrova A.V.1, Shtin V.I.2, Marchenko E.S.1, Novikov V.A.2, Choinzonov E.L.2, Menshikov K.Y.2, Shilova O.G.3, Nikitchuk A.V.4
  • Affiliations:
    1. Национальный исследовательский Томский государственный университет
    2. Научно-исследовательский институт онкологии, Томский национальный исследовательский медицинский центр Российской академии наук
    3. Новокузнецкий государственный институт усовершенствования врачей - филиал федерального государственного бюджетного образовательного учреждения дополнительного профессионального образования «Российская медицинская академия непрерывного профессионального образования» Министерства здравоохранения Российской Федерации
    4. ООО «Люмена»
  • Section: Original study articles
  • Submitted: 22.05.2024
  • Accepted: 22.08.2025
  • Published: 30.10.2025
  • URL: https://journals.eco-vector.com/0869-8678/article/view/632448
  • DOI: https://doi.org/10.17816/vto632448
  • ID: 632448


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Abstract

BACKGROUND: Despite the development of modern methods of reconstructive surgery, a number of controversial issues remain related to the lack of a unified approach to the treatment of traumatic fractures of the orbital walls and to the use of one or another method of orbital plastic surgery. Many methods of surgical rehabilitation are often technically complex or require expensive consumables.

AIM: To develop a technique for the restoration of the inferior and medial walls of the eye socket in patients with post-traumatic deformity of the eye socket using superelastic biocompatible titanium nickelide implants.

METHODS: A single-center pilot observational longitudinal study was conducted using a consecutive sample of 20 patients with traumatic injuries of the facial skeleton, specifically isolated fractures of the inferior and medial orbital walls. In all cases, restoration of the walls of the orbit and the natural position of the eyeball was carried out using thin-profile, super-elastic implants made of titanium nickelide. The study was prospective in nature, and qualitative outcomes of the restoration of the natural eyeball position were assessed. Outcome monitoring and evaluation of rehabilitation quality were carried out using instrumental methods according to the following diagnostic algorithm: ophthalmologic examination; intraoperative assessment of the implant position using a C-arm, as well as follow-up evaluation at all rehabilitation stages using computed tomography; and investigation of reparative processes in the implantation area using Karl Storz 30° and 45° endoscopes on the 10th postoperative day.

RESULTS: In all operated patients, it was possible to maintain or restore the position and function of the eyeball as an organ of vision. This method makes it possible to produce an implant that best matches the prosthetic area, which reduces and simplifies the installation time of the implant and, thereby, reduces the time and improves the quality of the entire surgical intervention.

CONCLUSIONS: The method developed and presented in the work has proven high efficiency and stability. In all operated patients, it was possible to maintain or restore the position and function of the eyeball as an organ of vision.

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About the authors

Anna Viktorovna Vetrova

Национальный исследовательский Томский государственный университет

Author for correspondence.
Email: aniuta-vetrova@mail.ru
ORCID iD: 0000-0002-7605-6735
SPIN-code: 1298-0113

Valentin Igorevich Shtin

Научно-исследовательский институт онкологии, Томский национальный исследовательский медицинский центр Российской академии наук

Email: shtinv@mail.ru
ORCID iD: 0000-0002-2774-6916
SPIN-code: 8094-8995

Ekaterina Sergeevna Marchenko

Национальный исследовательский Томский государственный университет

Email: 89138641814@mail.ru
ORCID iD: 0000-0003-4615-5270
SPIN-code: 7116-2901

Valeriy Aleksandrovich Novikov

Научно-исследовательский институт онкологии, Томский национальный исследовательский медицинский центр Российской академии наук

Email: novikov@oncology.tomsk.ru
ORCID iD: 0000-0003-0364-0831
SPIN-code: 9350-3617

Evgeniy Lhamacyrenovich Choinzonov

Научно-исследовательский институт онкологии, Томский национальный исследовательский медицинский центр Российской академии наук

Email: choynzonov@gmail.com
ORCID iD: 0000-0002-3651-0665
SPIN-code: 2240-8730

Kirill Yurievich Menshikov

Научно-исследовательский институт онкологии, Томский национальный исследовательский медицинский центр Российской академии наук

Email: kiri_78@mail.ru
ORCID iD: 0000-0002-4244-6364
SPIN-code: 9802-8530

Olga Gennadievna Shilova

Новокузнецкий государственный институт усовершенствования врачей - филиал федерального государственного бюджетного образовательного учреждения дополнительного профессионального образования «Российская медицинская академия непрерывного профессионального образования» Министерства здравоохранения Российской Федерации

Email: odpo@ngiuv.ru
SPIN-code: 1423-4364

Alexander Vladimirovich Nikitchuk

ООО «Люмена»

Email: Nikitc@mail.ru
SPIN-code: 9460-9903

References

  1. Shtin VI, Novikov VA, Balatskaya LN, Krasavina EA. Life quality as a criterion of treatment and rehabilitation effectiveness of patients with nasal cavituy and paranasal sinus cancer. Sibirskij onkologicheskij zhurnal. 2013;(1):22–27. EDN: PYFLVN
  2. Matrosova YV, Kataev MG, Fabrikantov OL. An integrated approach to the treatment of patients with traumatic strabismus. Sovremennye problemy nauki i obrazovaniya. 2023;(5):24. doi: 10.17513/spno.32977 EDN: SDKYDF
  3. Epifanof S.A., Apostolidi K.G., Akhinyan E.K. minimally invasive method of reconstruction of inferior and medial orbital walls in cases of blowout fractures, with the ballooning technique. Nacional'nyj mediko-hirurgicheskij Centr imeni N.I. Pirogova. 2018;13(4):71–74. doi: 10.25881/BPNMSC.2018.19.76.013 EDN: YTWYBN
  4. Karayan AS, Bezrukov VM, Kudinova ES. Clinical and anatomical justification of the safety of using coronary access in the treatment of post-traumatic defects and deformities of the zygomatic complex. Annaly plasticheskoj, rekonstruktivnoj i esteticheskoj hirurgii. 2002;(4):29–30. (in Russ.) EDN: UTYTCP
  5. Durnovo EA, Khomutinnikova NE, Mishina NV, Trofimov AO. The peculiarities of the reconstruction of the walls of orbital cavity during the treatment of traumatic damages of facial skeleton. Medicinskij al'manah. 2013;(5):159–161. EDN: RSHYCL
  6. Shtin VI, Novikov VA, Choynzonov EL, et al. Orbital wall reconstruction with titanium nickelide implants in cancer patients: characteristics of reparative processes and the potential for their management. Voprosy onkologii. 2023;69(2):259–267. doi: 10.37469/0507-3758-2023-69-2-259-267 EDN: HICWST
  7. Seen S, Young S, Lang SS, et al. Orbital Implants in Orbital Fracture Reconstruction: A Ten-Year Series. Craniomaxillofac Trauma Reconstr. 2021;14(1):56–63. doi: 10.1177/1943387520939032
  8. Schreurs R, Dubois L, Klop C, et al. Surgical instrument to improve implant positioning in orbital reconstruction: a feasibility study. British Journal of Oral and Maxillofacial Surgery. 2021;59(7):826–830. doi: 10.1016/j.bjoms.2021.02.023
  9. Belousova NY, Khomutinnikova NE, Poltanova TI, Syrovatskaya .A. Experience in the treatment of patients with fractures of the zygomatic orbital complex and the lower wall of the orbit. Tochka zreniya. Vostok — Zapad. 2019;(3):39–41. (in Russ.). doi: 10.25276/2410-1257-2019-3-39-41 EDN: HHONUZ
  10. Sakong Y, Chung KJ, Kim YH. The Incidence of Traumatic Optic Neuropathy Associated With Subtypes of Orbital Wall Fracture. J Craniofac Surg. 2022;33(1):93–96. doi: 10.1097/SCS.0000000000008007
  11. Oripov OI, Bilalov EN, Boimurodov SA. Modern aspects of surgical treatment of orbital wall fractures. Oftal'mologicheskij zhurnal. 2020;(4):77–82. (in Russ.). doi: 10.31288/oftalmolzh202047782 EDN: WKSGUF
  12. Novikov VA, Shtin VI, Frolova IG, et al. Novel approaches to treatment and rehabilitation of patients with cancer of nasal accessory sinuses using titanium nickelid and computer-bases technologies. Sibirskij onkologicheskij zhurnal. 2007;(2):63–68. EDN: IAZHOP
  13. Reshetov IV, Davydov DV, Sitov GA, et al. The results of the use of hydrogel implants in reconstructive plastic surgery of the orbit. Annaly plasticheskoj, rekonstruktivnoj i esteticheskoj hirurgii. 2004;(2):19–26. (in Russ.)
  14. Shefer NA, Topolnitskiy EB, Yunusov AN, Marchenko ES. Reconstructive surgery of diaphragmatic-intercostal hernia: from history to practice. Siberian Medical Review. 2024;(2):107–112. doi: 10.20333/25000136-2024-2-107-112 EDN: OGUVYY
  15. Topol`nickij EB, Chekalkin TL, Marchenko ES, et al. Evaluation of clinical performance of tini-based implants used in chest wall repair after resection for malignant tumors. Journal of Functional Biomaterials. 2021;12(4):60. doi: 10.3390/jfb12040060 EDN: EGWZVZ
  16. Chernyshova A, Kolomiets L, Chekalkin T, et al. Fertility-Sparing Surgery Using Knitted TiNi Mesh Implants and Sentinel Lymph Nodes: A 10-Year Experience. Journal of Investigative Surgery. 2021;34(10):1110–1118. doi: 10.1080/08941939.2020.1745965 EDN: EUZITB
  17. Marchenko ES, Kozulin AA, Vetrova AV, et al. Experimental and computational study of the NiTi thin wires mechanical behavior. MAMS. 2024;31(26):8233–8241. doi: 10.1080/15376494.2024.2342031 EDN: NYPFUV

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