Email this article Efficacy of alveolar mandible tunnel bone grafting
- Authors: Andriadze E.O.1, Sipkin A.М.1, Gnatyuk N.D.1, Okshin D.Y.1
-
Affiliations:
- Moscow Regional Research and Clinical Institute
- Issue: Vol 28, No 6 (2024)
- Pages: 591-600
- Section: Clinical Investigation
- URL: https://ogarev-online.ru/1728-2802/article/view/313582
- DOI: https://doi.org/10.17816/dent636748
- ID: 313582
Cite item
Open Access
Access granted
Subscription Access
Abstract
BACKGROUND: The development and implementation of novel bone grafting approaches to prevent surgical injuries, improve bone conglomerate stabilization, reduce the incidence of postoperative complications, and minimize the severity of postoperative clinical signs remain relevant.
AIM: To assess the efficacy of the proposed tunnel bone grafting technique in patients with mandibular ridge atrophy.
MATERIALS AND METHODS: The study included 60 patients with distal mandibular ridge atrophy. The study subjects were divided into two groups. Treatment group underwent distal mandibular surgery using the patented tunnel bone grafting technique. Control group underwent conventional open guided bone regeneration.
RESULTS: The study found that the proposed alveolar mandible tunnel bone grafting technique improved wound healing and decreased the incidence of complications. After 4 months, histopathological examinations of regenerated bone samples in both groups revealed that the treatment group had more mature regenerated bone than the control group.
CONCLUSION: Tunnel bone grafting may become the option of choice in the treatment of distal mandibular ridge atrophy.
Full Text
##article.viewOnOriginalSite##About the authors
Ekaterina O. Andriadze
Moscow Regional Research and Clinical Institute
Author for correspondence.
Email: andriadze.ekaterina@mail.ru
ORCID iD: 0000-0003-2824-2039
SPIN-code: 2591-3189
Russian Federation, 61/2 Shchepkina street, 129110 Moscow
Alexander М. Sipkin
Moscow Regional Research and Clinical Institute
Email: aleksipkin@bk.ru
ORCID iD: 0000-0001-8287-741X
SPIN-code: 3603-1248
MD, Dr. Sci. (Medicine), Associate Professor
Russian Federation, 61/2 Shchepkina street, 129110 MoscowNikita D. Gnatyuk
Moscow Regional Research and Clinical Institute
Email: nikkitagnatiuk@gmail.com
ORCID iD: 0000-0001-5756-4999
SPIN-code: 8391-4718
Russian Federation, 61/2 Shchepkina street, 129110 Moscow
Dmitriy Yu. Okshin
Moscow Regional Research and Clinical Institute
Email: med-fack@mail.ru
ORCID iD: 0000-0002-1307-3968
SPIN-code: 2202-9356
Russian Federation, 61/2 Shchepkina street, 129110 Moscow
References
- Amkhadova MA, Atabiev RM, Akhmadov IS, Tsukaev KA. Clinical and experimental substantiation of the use of domestic resorbable membranes in directed bone regeneration. Medical Alphabet. 2018;4(34):41–45. EDN: VUYCCA
- Kosareva OS, Drovosekov MN, Ivanova NA, et al. Modern methods of restoration of bone tissue defects in dental practice. Morphological Newsletter. 2022;30(1):63–70. EDN: TDTOFU doi: 10.20340/mv-mn.2022.30(1).598
- Kazeko LA, Benesh YuD. Bone resorption in rapidly progressive periodontitis. Dental journal. 2018;19(3):190–194. (In Russ.) EDN: TITKTZ
- Managarov NG. Bone grafting in maxillofacial surgery. Healthcare of Yugra: experience and innovations. 2018;(3):24–28. (In Russ.) EDN: VKJYTV
- Abakarov MM, Magomedov AB, Nurutdinov NP. Directional bone regeneration in implantology. Fundamental and Applied Scientific Research: Topical Issues, Achievements and Innovations. 2023;72–75. (In Russ.)
- Eisenbraun OV. The use of tunneling techniques of bone grafting in patients with jaw bone atrophy [dissertation]. Moscow; 2018. (In Russ.) EDN: SIQPAP
- Patent RUS No. 2786139 / 19.12.2022. Andriadze EO, Tonkikh-Podolskaya OA, Sipkin AM. Method of reconstruction of the extended end defect of the mandibular alveolar bone in the distal region. EDN: QLQIZJ
- Andriadze EO, Sipkin AM, Shapiro IE. Modern methods of dental implantation and bone grafting. Russian Bulletin of Dental Implantology. 2022;(1-2):98–108. EDN: CBDZTE
- Andriadze EO, Sipkin AM, Modina TN, et al. Tunnel bone grafting for reconstruction of an extended terminal defect of the alveolar bone of the mandible in the distal region: a clinical case. Clinical Dentistry (Russia). 2024;27(2):90–93. EDN: NDJSWS doi: 10.37988/1811-153X_2024_2_90
- Tsitsiashvili AM, Panin AM, Arutyunov SD, et al. Biomodel of bone tissue and xenogenic bone graft: mechanical properties. Russian Journal of Dentistry. 2019;23(6):254–262. EDN: YJROHV doi: 10.18821/1728-2802-2019-23-6-254-262
- Iordanishvili AK, Muzikin MI, Soldatov VS. Patterns of bone tissue regeneration. Dental Scientific and Educational Journal. 2019;(1-2):21–29. (In Russ.)
- Sipkin AM, Modina TN, Gnatiuk ND, et al. Clinical and radiological evaluation of the use of bone-plastic material based on collagen hydrogel in the experiment. Clinical Dentistry (Russia). 2024;27(1):60–65. EDN: MTYQBI doi: 10.37988/1811-153X_2024_1_60
Supplementary files
