R.T. NIGMATULLIN, R.Z. KUTUSHEV, B.R. MOTYGULLIN

All-Russia Eye and Plastic Surgery Centre of the Russian Health Ministry, 67/1 Zorge Str., Ufa, Russian Federation, 450075

  Nigmatullin R.T. ― D. Sc. (medicine), Deputy Director General for Science, tel. (347) 224-68-03, e-mail: nigmatullinr@mail.ru

Kutushev R.Z. ― Head of the Ophthalmological Department, tel. (347) 224-68-19, e-mail: rinat-dok@yandex.ru

Motygullin B.R. ― probationer-researcher, tel. (347) 224-68-19, e-mail: mbr24@yandex.ru

The article presents literature data and authors’ own experience in using different types of transplants in orbital reconstructive surgery. The factors of recipients and grafts are identified, the complex analysis of which ensures the choice of the optimal implant material and the success of the reconstructive operation.

Key words: transplants, orbital walls, plastic surgery.

(For citation: Nigmatullin R.T., Kutushev R.Z., Motygullin B.R. Ways of transplant selection for orbital reconstructive surgery (literature review). Practical Medicine. 2018)

REFERENCES

1. Travma glaza, pod obshch. red. R.A. Gundorovoy, V.V. Neroeva, V.V. Kashnikova [Trauma of the eye. Ed. by R.A. Gundorova, V.V. Neroev, V.V. Kashnikov]. Moscow: GEOTAR-Media, 2014. 560 p.
2. Levchenko O.V. Khirurgicheskoe lechenie kranioorbital’nykh povrezhdeniy v ostrom periode cherepno-mozgovoy travmy: avtoref. dis. … d-ra med. nauk [Surgical treatment of craniocorbital injuries in the acute period of craniocerebral trauma. Synopsis of dis. Dr med. sci]. Moscow, 2012. 43 p.
3. Baryshev V.V., Andreev V.G., Akki E.D. Possibilities for reconstruction of the orbit in cancer patients (review of literature). Sibirskiy onkologicheskiy zhurnal, 2012, no. 5 (53), pp. 80-84 (in Russ.).
4. Davydov D.V., Ammar Ali Akhmed Tabet. Characteristics of materials used in surgical correction of orbit walls. Annaly plasticheskoy, rekonstruktivnoy i esteticheskoy khirurgii, 2009, no. 3, pp. 52-59 (in Russ.).
5. Grusha Ya.O. Modern Aspects of Reconstructive Surgery in Orbital Trauma. Vestnik oftal’mologii, 2014, no. 6, pp. 50-55 (in Russ.).
6. Kobzeva I.V., Dubina L.Kh., Drobyshev A.Yu et al. Modern concepts of diagnostics and reconstructive-rehabilitative treatment of patients with posttraumatic defects and deformities of the bones of the facial skeleton. Vestnik eksperimental’noy i klinicheskoy khirurgii, 2012, vol. 5, no. 1, pp. 181-185 (in Russ.).
7. Polyakov A.P., Ratushnyy M.V., Reshetov I.V. et al. Clinical example of complex rehabilitation of a patient with a defect in the central zone of the face after surgical treatment of a locally advanced maxillary sinus tumor. Onkologiya. Zhurnal im. P.A. Gertsena, 2017, vol. 6, no. 3, pp. 54-60 (in Russ.).
8. Ronchevich R., Savkovich Z., Nigmatullin R.T. Traumatic fractures of the orbit and attitude to them. Rossiyskiy oftal’mologicheskiy zhurnal, 2016, vol. 9, no. 3, pp. 100-108 (in Russ.).
9. Huguier V., Rousseau P., Robiolle C. et al. Eyelid, medial canthus and medial orbital wall reconstruction using a combination of Hubner and conchal grafts with two illustrative cases. Annales de Chirurgie Plastique Esthétique, 2013, vol. 58, no. 2, pp. 159-165.
10. Liu W., Niu F., Zhang Z., Gui L. Reconstruction of old orbital wall fractures with mandibular outer cortex. Journal of Craniofacial Surgery, 2010, vol. 21, no. 4, pp. 1252-1256.
11. Garg V., Giraddi G.B., Roy S. Comparison of efficacy of mandible and iliac bone as autogenous bone graft for orbital floor reconstruction. Journal of Maxillofacial and Oral Surgery, 2015, vol. 14, no. 2, pp. 291-298.
12. Lekishvili M.V., Ryabov A.Yu., Yurasova Yu.B. Experience in the application of demineralized alloimplants from the bones of the cranial vault to eliminate enopyphthalmia in children with fracture of the walls of the orbit. Vestnik Orenburgskogo gosudarstvennogo universiteta, 2011, no. 14 (133), pp. 227-230 (in Russ.).
13. Volkov A.G. Plasticity of defects in the walls of the paranasal sinuses: experience and perspectives (Rostov School of Otorhinolaryngology — continuation of traditions). Rossiyskaya rinologiya, 2016, vol. 24, no. 3, pp. 17-28 (in Russ.).
14. Lazarenko I.V., Shumilova A.A., Proskurin E.V. et al. Reconstruction of model defects in the lower wall of the eye orbit of laboratory animals using resorbable 3D plates. Zhurnal Sibirskogo federal’nogo universiteta. Seriya: Biologiya, 2016, vol. 9, no. 1, pp. 98-108 (in Russ.).
15. Muldasheva I.E. Khirurgicheskoe lechenie posttravmaticheskikh gipoftal’ma i enoftal’ma s primeneniem biomaterialov Alloplant: avtoref. dis. … kand. med. nauk [Surgical treatment of posttraumatic hypophthalmia and enophthalmus using biomaterial Alloplant. Synopsis of dis. PhD med. sci]. Chelyabinsk, 2007. 21 p.
16. Kim J., Lew D.H., Roh T.S., Lee W.J. Use of acellular allogenic dermal matrix (MegaDerm) in orbital wall reconstruction: a comparison with absorbable mesh plate and porous polyethylene. The Journal of craniofacial surgery, 2017, vol. 28, no. 7, pp. e644-e649.
17. Regenerativnaya meditsina. Biomaterialy Alloplant v oftal’mokhirurgii, pod obshch. red. E.R. Muldasheva [Regenerative medicine. Biomaterial Alloplant in ophthalmic surgery. Under the general. ed. E.R. Muldashev]. Ufa: GUP “Bashkortostan”, 2014. 432 p.
18. Salikhov A.Yu. Pervichnaya plastika biomaterialami alloplant v oftal’moonkologii: avtoref. dis. … d-ra med. nauk [Primary plastic with alloplant biomaterials in ophthalmoniccology. Synopsis of dis. Dr med. sci]. Moscow, 2004. 41 p.
19. Rinna C., Reale C., Foresta E., Mustazza M.C. Medial orbital wall reconstruction with swine bone cortex. Journal of Craniofacial Surgery, 2009, vol. 20, no. 3, pp. 881-884.
20. Anabami N., Mithieux S.M., Camci-Unal G. et al.  Elastomeric recombinant proteinbased biomaterials. Biochemical Engineering Journal, 2013, vol. 77, rr. 110-118.
21. Derricks K.E., Rich C.B., Buczek-Thomas J.A., Nugent M.A. Ascorbate enhances elastin synthesis in 3D tissue-engineered pulmonary fibroblasts constructs. Tissue and Cell, 2013, vol. 45, rr. 253-260.
22. Muldashev E.R., Nigmatullin R.T., Galimova V.U. et al. Ksenogennyy biomaterial dlya regenerativnoy khirurgii: patent no. 2440148, prioritet 21.12.2009, opubl. 20.01.2012 byul. no. 2 [Xenogenic biomaterial for regenerative surgery: patent No. 2440148, priority 21.12.2009, publ. 20.01.2012 no. 2].
23. Nigmatullin R.T., Kutushev R.Z. Application of elastin biomaterial in reconstructive surgery of orbit walls. Prakticheskaya meditsina, 2016, no. 6 (98), pp. 119-121 (in Russ.).
24. Nigmatullin R.T., Kutushev R.Z., Motygullin B.R. Elastin biomaterial as an inducer of osteogenesis. Prakticheskaya meditsina, 2017, no. 9 (110), pp. 149-151 (in Russ.).
25. Bakushev A.P. Khirurgicheskoe lechenie patsientov s izolirovannymi povrezhdeniyami nizhney stenki glaznitsy: avtoref. dis. … kand. med. nauk [Surgical treatment of patients with isolated lesions of the lower orbital wall. Synopsis of dis. PhD med. sci]. Moscow, 2017. 22 p.
26. Eolchiyan S.A. Plasty of complex skull defects with titanium and polyetheretherketone (PEEK) implants, manufactured using CAD/CAM technologies. Voprosy neyrokhirurgii im. N.N. Burdenko, 2014, vol. 78, no. 4, pp. 3-13 (in Russ.).
27. Davydov D.V., Lezhnev D.A., Fedenko I.A. et al. Use of polymeric implants in isolated lesions of the orbital wall of the orbit. Annaly plasticheskoy, rekonstruktivnoy i esteticheskoy khirurgii, 2014, no. 1, pp. 20-25 (in Russ.).
28. Moe K.S., Murr A.H., Wester S.T. Orbital Fractures. Facial Plastic Surgery Clinics of North America, 2018, vol. 26, no. 2, pp. 237-251.
29. Bittermann G., Metzger M.C., Schlager S. et al. Orbital reconstruction: prefabricated implants, data transfer, and revision surgery. Facial plastic surgery, 2014, vol. 30, no. 5, pp. 554-560.
30. Ovchinsky A., Cranford J.P. Medial orbital wall reconstruction with a porous polyethylene titan barrier implant. Ent-Ear Nose & Throat Journal, 2016, vol. 95, no. 3, pp. 102-103.
31. Han H.H., Yun S., Won J.Y., Lee J.S., Kim K.J. et al. Orbital wall reconstruction in rabbits using 3D printed polycaprolactone-beta-tricalcium phosphate thin membrane. Materials Letters, 2018, vol. 218, pp. 280-284.
32. Gradinaru S., Popescu L.M., Piticescu R.M. et al. Repair of the Orbital Wall Fractures in Rabbit Animal Model Using Nanostructured Hydroxyapatite-Based Implant. Nanomaterials, 2016, vol. 6, no. 1, 13 p.
33. Mayborodin I.V., Drovosekov M.N., Toder M.S. et al. Regeneration of injured bones of the lower jaw of rats against the background of introduction of autologous mesenchymal stem cells of bone marrow origin. Fundamental’nye issledovaniya, 2011, no. 9-2, pp. 264-269 (in Russ.).
34. Alekseeva I.S., Volkov A.V., Kulakov A.A., Gol’dsheyn D.V. Clinical and experimental substantiation of the use of a combined cell transplant on the basis of multipotent mesenchymal stromal cells of adipose tissue in patients with a pronounced deficit of the jaw bone. Kletochnaya transplantologiya i tkanevaya inzheneriya, 2012, vol. 7, no. 1, pp. 97-105 (in Russ.).
35. Deng Y., Zhou H.F., Gu P., Fan X.Repair of canine medial orbital bone defects with miR-31-modified bone marrow mesenchymal stem cells. Investigative Ophthalmology and Visual Science, 2014, vol. 55, no. 9, pp. 6016-6023.
36. Kagan I.I., Kanyukov V.N. Funktsional’naya i klinicheskaya anatomiya organa zreniya: rukovodstvo dlya oftal’mologov i oftal’mokhirurgov [Functional and clinical anatomy of the organ of vision: a guide for ophthalmologists and ophthalmic surgeons]. Moscow: GEOTAR-Media, 2017. 208 p.