DOI:

10.37988/1811-153X_2019_1_24

Application of hyaluronic acid in treatment of patients with vertical atrophy of alveolar process of maxilla. Clinical case

Authors

  • A.M. Sipkin 1, PhD in Medical Sciences, head of the Maxillofacial surgery and hospital surgical dentistry Department
  • T.N. Modina 2, 3, PhD in Medical Sciences, full professor of the Maxillofacial dentistry Department;
  • G.M. Karachunskii 1, PhD in Medical Sciences, head of the Pediatric maxillofacial surgery Division
  • A.D. Chenosova 1, postgraduate at the Maxillofacial surgery and hospital surgical dentistry Department
  • 1 Moscow Regional Research Clinical Institute (MONIKI), 129110, Moscow, Russia
  • 2 Pirogov National Medical & Surgical Center, 105203, Moscow, Russia
  • 3 Prof. Modina Clinic, 115191, Moscow, Russia

Abstract

In this article, on the example of a clinical case, demonstrated the stages of the method of guided bone regeneration with the use of the medical device of hyaluronic acid, followed by implantation after 4 months.

Key words:

dentistry, dental implant, osseointegration, regeneration, hyaluronic acid, bone grafting, bone substitutes

For Citation

[1]
Sipkin A.M., Modina T.N., Karachunskii G.M., Chenosova A.D. Application of hyaluronic acid in treatment of patients with vertical atrophy of alveolar process of maxilla. Clinical case. Clinical Dentistry (Russia).  2019; 1 (89): 24—27. DOI: 10.37988/1811-153X_2019_1_24

References

  1. Безруков В.М., Кулаков А.А. Субпериостальная имплантация как метод хирургической реабилитации пациентов со значительной атрофией челюстей. - Российский вестник дентальной имплантологии. - 2003; 1: 60-4.
  2. Урбан И. Увеличение высоты и толщины альвеолярного гребня (пер. с англ.). - М.: Азбука, 2017. - 400 с.
  3. Семенов П.С. Использование костного морфогенетического белка для стимуляции остеорегенерации. - Вестник ВолГУ. - 2013; 11: 81-3.
  4. Иванов С.Ю., Бизяев А.Ф., Ломакин М.В. и др. Стоматологическая имплантология. - М.: ВУНМЦ МЗ РФ, 2000. - 96 с.
  5. Ballini A., Cantore S., Capodiferro S., Grassi F.R. Esterified hyaluronic acid and autologous bone in the surgical correction of the infra-bone defects. - Int J Med Sci. - 2009; 6 (2): 65-71.
  6. Karsenty G. Genetic control of skeletal development. - Novartis Found Symp. - 2001; 232: 6-17.
  7. Nefussi J.R. Biology and physiology of the implant bone site. - In: Khoury F., Antoun H., Missika P. (eds.) Bone augmentation in oral implantology. - Quintessense Books, 2007. - P. 1-27.
  8. Simion M., Fontana F., Rasperini G., Maiorana C. Vertical ridge augmentation by expanded-polytetrafluoroethylene membrane and a combination of intraoral autogenous bone graft and deproteinized anorganic bovine bone (Bio Oss). - Clin Oral Implants Res. - 2007; 18(5): 620-9.
  9. Stern R. Hyaluronan catabolism: a new metabolic pathway. - Eur J Cell Biol. - 2004; 83 (7): 317-25.
  10. Tadjoedin E.S., de Lange G.L., Lyaruu D.M., Burger E.H. Deproteinized cancellous bovine bone (Bio-OSS) as bone substitute for sinus floor elevation. A retrospective, histomorphomentrical study of five cases. - J Clin Periodontol. - 2003, 30:261-70.

Published on

March 1, 2019