Frequency and reasons for the use of autologous bone in combination with resorbable membranes in maxillofacial and dental surgery at the present time: analytical literature review

Irina O. Pohodenko-Chudakova; Походенько-Чудакова Ирина Олеговна; Nilupaer Nijiati; Ницзяти Нилупар

doi:10.17816/pmj42220-28

Frequency and reasons for the use of autologous bone in combination with resorbable membranes in maxillofacial and dental surgery at the present time: analytical literature review

Authors: Pohodenko-Chudakova I.O.¹, Nijiati N.²
Affiliations:
1. Belarusian State Medical University
2. Dental Clinic Affilliated to Medical University
Issue: Vol 42, No 2 (2025)
Pages: 20-28
Section: Review of literature
URL: https://journal-vniispk.ru/PMJ/article/view/294270
DOI: https://doi.org/10.17816/pmj42220-28
ID: 294270

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Abstract

The frequency and reasons for the use of autologous bone in combination with resorbable membranes in maxillofacial and dental surgery at the present time were analyzed, the basic fundamental and practical tasks for their use were determined and the ways to solve them were identified. For the analysis we performed the following queries in the search engine “PubMed”: 1) autograft, maxillofacial surgery, jawbone defect; 2) bioresorbable membrane, maxillofacial surgery, jawbone defect. 1090 sources were retrieved, 417 of them for the first query and 673 for the second onYe. The first 100 consecutive sources for both the first and second queries were analyzed.

There are 2.5 times as many studies on dental implantation and the use of resorbable membranes as on the use of autologous bone in this situation. 1.9 times as much research is dedicated to the use of autografts in orthognathic interventions. The analysis of studies containing data on the frequency of autograft use in combination with resorbable membranes in maxillofacial surgery and dental surgery at the present moment proves that research containing information on small defects is 1.4 times more prevalent, with bioresorbable membranes being used 1.5 more frequently for their reconstruction.

The analysis of literature sources according to the time of their publication indicates its compliance with the current level of knowledge on the problem. An experimental study with a mandatory morphological component dedicated to the fundamental analysis of the effectiveness of the complex application of autologous bone and bioresorbable membranes in reconstruction of small defects of jawbones is essential.

Keywords

Jawbone defect, guided bone tissue regeneration, surgical treatment, autograft, resorbable membranes

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About the authors

Irina O. Pohodenko-Chudakova

Belarusian State Medical University

Author for correspondence.
Email: ip-c@yandex.ru
ORCID iD: 0000-0002-0353-0125
SPIN-code: 9486-9067
Scopus Author ID: 8245222500
ResearcherId: F-6892-2018

DSc (Medicine), Professor, Head of the Department of Dental Surgery

Belarus, Minsk

Nilupaer Nijiati

Dental Clinic Affilliated to Medical University

Email: ip-c@yandex.ru
ORCID iD: 0000-0003-4895-2281

PhD (Medicine), Dental Surgeon

China, Guangzhou

References

Сельский Н.Е., Трохалин А.В., Мухамадиев Д.М. Остеопластика альвеолярной части нижней челюсти комбинированными костными трансплантатами. Креативная хирургия и онкология 2019; 9 (3): 199‒208. doi: 10.24060/2076-3093-2019-9-3-199-208 / Selsky N.E., Trokhalin A.V., Mukhamadiev D.M. Alveolar mandible osteoplasty with combined bone transplants. Creative Surgery and Oncology 2019; 9 (3): 199–208. doi: 10.24060/2076-3093-2019-9-3-199-208 (in Russian).
Haddad I., Khalil A. Evaluation of the efficacy of horizontal distraction osteogenesis using expansion screws in the repair of the acquired jaw bone defects. Ann. Med. Surg. 2023; 85 (8): 3938‒3942. doi: 10.1097/MS9.0000000000000983
Liu Zh., Zhou N.-G., Li Y., Zhou L. Autotransplantation for restoration of dentition defects after excision of jaw cysts. J. Craniofac. Surg. 2024; 34 (1): e58‒e60. doi: 10.1097/SCS.0000000000009809
Мухаметов У.Ф., Люлин С.В., Борзунов Д.Ю., Гареев И.Ф., Бейлерли О.А., Yang Guang. Аллопластические и имплантационные материалы для костной пластики: обзор литературы. Креативная хирургия и онкология 2021; 11 (4): 343‒353. doi: 10.24060/2076-3093-2021-11-4-343-353 / Mukhametov U.F., Lyulin S.V., Borzunov D.Y., Gareev I.F., Beylerli O.A., Yang G. Alloplastic and implant materials for bone grafting: a literature review. Creative Surgery and Oncology 2021; 11 (4): 343–353. doi: 10.24060/2076-3093-2021-11-4-343-353 (in Russian).
Saravanan T., Balaguhan B., Venkatesh A., N Geethapriya N., Goldpearlinmary, Karthick A. Prevalence of mandibular fractures. Indian. J. Dent. Res. 2020; 31 (6): 971‒974. doi: 10.4103/ijdr.IJDR_286_18
Zufía J., Sans F.A. Applications of maxillary tuberosity block autograft. J. Esthet. Restor. Dent. 2022; 34 (7): 1015‒1028. doi: 10.1111/jerd.12911
Vyas T., Gupta P., Kumar S., Gupta R., Gupta T., Singh H.P. Cleft of lip and palate: A review. J. Family Med. Prim. Care 2020; 9 (6): 2621‒2625. doi: 10.4103/jfmpc.jfmpc_472_20
Парфенов В.И., Мадай Д.Ю., Самохвалов И.М., Бадалов В.И. Лечение пострадавших с ранениями челюстно-лицевой области огнестрельным оружием ограниченного действия. Нейрохирургия 2024; 26 (1): 22‒28. / Parfenov V.E., Madaj D. Ju., Samohvalov I.M., Badalov V.I. Treatment of victims with wounds to the maxillofacial region with limited-action firearms. Russian Journal of Neurosurgery 2024; 26 (1): 22–28 (in Russian).
Чантырь И.В., Завгороднев К.Д., Бельченко В.А. Анализ качества оказания хирургической помощи пациентам с последствиями огнестрельных боевых ранений челюстно-лицевой области. Медицинский алфавит 2024; 11: 53‒61. doi: 10.33667/2078-5631-2024-11-53-61 / Chantyr I.V., Zavgorodnev K.D., Belchenko V.A. Analysis of the quality of surgical care for patients with consequences of gunshot combat wounds of the maxillofacial area. Medical Alphabet 2024; 11: 53–61. doi: 10.33667/2078-5631-2024-11-53-61 (in Russian).
Yoshioka T., Kikuchi I., Adorno C.G., Suda H. Periapical bone defects of root filled teeth with persistent lesions evaluated by cone-beam computed tomography. Int. Endod. J. 2011; 44 (3): 245‒252. doi: 10.1111/j.1365-2591.2010.01814
Alotaibi F.F., Rocchietta I., Buti J., D'Aiuto F. Comparative evidence of different surgical techniques for the management of vertical alveolar ridge defects in terms of complications and efficacy: A systematic review and network meta-analysis. J. Clin. Periodontol. 2023; 50 (11): 1487‒1519. doi: 10.1111/jcpe.13850
Кирилова И.А., Садовой М.А., Подорожная В.Т. Сравнительная характеристика материалов для костной пластики: состав и свойства. Хирургия позвоночника 2012; 3: 72‒83. DOI: 10.14531.ss2012.3.72-83 / Kirilova I.A., Sadovoy M.A., Podorozhnaja V.T. Comparative characteristics of materials for bone grafting: composition and properties. Russian Journal of Spine Surgery 2012; 3: 72–83. DOI: 10.14531.ss2012.3.72-83 (in Russian).
Нагиева С.Э., Исмаилова Ф.Э., Нагиев Э.Р. Перспективы трансплантации костной ткани при замещении дефектов нижней челюсти. (Обзор литературы). Научное обозрение. Медицинские науки 2016; 4: 69‒77. / Nagieva S.Je., Ismailova F.Je., Nagiev Je.R. Prospects for bone transplantation in the replacement of mandibular defects. (Literature review). Scientific Review. Medical Sciences 2016; 4: 69–77 (in Russian).
Добрынина Т.В., Овчар С.А., Толкачев Д.В. Эффективность применения наноструктурных композитных биорезорбируемых барьерных мембран BIOKEEP в сравнении с существующими на рынке. Медицинский алфавит 2018; 24: 39‒42. / Dobrynina T.V., Ovchar S.A., Tolkachev D.V. Efficiency of app; ication of nanostructured composite bioresorbable barrier membranes BIOKEEP in comparison with existing products on the market. Medical Alphabet 2018; 24: 39–42 (in Russian).
Кабаньков А.В., Иванов А.С., Мнацаканов С.С., Румакин В.П., Резниченко А.С. Особенности направленной регенерации костной ткани при использовании резорбируемых мембран на основе поливенилового спирта в добавлением фуллеренов С60. Вестник ВГМУ 2019; 18 (4): 91‒97. doi: 10.22263/2312-4156.2019.4.91 / Kaban’kov A.V., Ivanov A.S., Mnatskanov S.S., Rumakin V.P., Reznichenko A.S. The peculiarities of the guided bone tissue regeneration on using resorbable membranes based on polyvinyl alcohol with the addition of C60 fullerenes. Vitebsk Medical Journal 2019; 18 (4): 91–97. doi: 10.22263/2312-4156.2019.4.91 (in Russian).
Мецуку И., Мураев А.А., Гажва Ю.В., Ивашкевич С.Г. Сравнительная характеристика различного типа барьерных мембран, используемых для направленной костной регенерации в стоматологии и челюстно-лицевой хирургии. Российский стоматологический журнал 2017; 21 (5): 291‒296. doi: 10.18821/1728-2802-2017-21-5-291-296 / Mecuku I., Muraev A.A., Gazhva Ju.V., Ivashkevich S.G. Comparative characteristics of various types of membranes used for bone grafting and guided tissue regeneration in dentistry and maxillofacial surgery. Russian Journal of Dentistry 2017; 21 (5): 291–296. doi: 10.18821/1728-2802-2017-21-5-291-296 (in Russian).
Lizio G., Corinaldesi G., Marchetti C. Alveolar ridge reconstruction with titanium mesh: a three-dimensional evaluation of factors affecting bone augmentation. Int. J. Oral Maxillofac. Implants 2014; 29 (6): 1354‒1363. doi: 10.11607/jomi.3417
Базикян Э.А., Самбатян Б.С. Направленная тканевая регенерация в дентальной имплантологии. Клиническая стоматология 2008; 47 (3): 42‒48. / Bazikyan E.A., Smbatyan B.S. Directed tissue regeneration in dental implantology. Clinical Dentistry 2008; 47 (3): 42–48 (in Russian).
Tseng Y.Y., Liao J.Y., Chen W.A., Kao Y.C., Liu S.J. Sustainable release of carmustine from biodegradable poly[((D,L))-lactide-coglycolide] nan fibrous membranes in the cerebralcavity: in vitro and in vivo studies. Exp. Opin Drug. Deliv. 2013; 10 (7): 879‒888. DOI: 0.1517/17425247.2013.758102
Otawa N., Sumida T., Kitagaki H., Sasaki K., Fujibayashi Sh., Takemoto M., Nakamura T., Yamada T., Mori Y., Matsushita T. Custom-made titanium devices as membranes for bone augmentation in implant treatment: Modeling accuracy of titanium products constructed with selective laser melting. J. Cranio-Maxillofacial Surgery 2015; 43 (7): 1289‒1295. doi: 10.1016/j.jcms.2015.05.006
Fiorini N., Lipman D.J., Lu Z. Towards PubMed 2.0. Elife 2017; 30 (6): e28801. doi: 10.7554/eLife.28801
Долгалев А.А., Зеленский В.А., Амхадова М.А., Бойко Е.М., Брусницын Д.А. Опыт применения отечественных ксеноматериалов для направленной костной регенерации в дентальной имплантации. Медицинский алфавит 2017; 11: 13‒17. / Dolgalev A.A., Zelensky V.A., Amkhadova M.A., Boyko E.M., Brusnitsin D.A. Application of domestic xenograft for guided bone regeneration in dentistry. Medical Alphabet 2017; 11: 13–17 (in Russian).
Василюк В.П., Штраубе Г.И., Четвертных В.А., Файзрахманов Р.А., Ерискина Е.В. Концептуальный подход устранения костных дефектов челюстей. Институт стоматологии 2020; 86 (1): 107‒109. / Vasilyuk V.P., Shtraube G.I., Chetvertnyh V.A., Fayzakhmanov R.A., Eriskina E.V. The conceptual approach to removing jaw bone defects. The Dental Institute 2020; 86 (1): 107–109 (in Russian).

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2. Fig. 1. Distribution of analyzed sources of specialized literature in accordance with the periods of their publication

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3. Fig. 2. The ratio of the number of publications devoted to the replenishment of large defects of the jaw bones to the number of works covering the results of treating small defects using autogenous bone and resorbable membranes

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