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Alekseeva I.S.

FGU "TsNIIS i ChLKh Minzdravsotsrazvitiia Rossii"

Rachinskaia O.A.

ZAO "ReMeTéks"

Volkov A.V.

Novosibirskiĭ gosudarstvennyĭ meditsinskiĭ universitet Minzdravsotsrazvitiia RF

Kulakov A.A.

Tsentral'nyĭ nauchno-issledovatel'skiĭ institut stomatologii i cheliustno-litsevoĭ khirurgii Minzdravsotsrazvitiia, Moskva

Gol’dshtein D.V.

Federal state budgetary institution of science 'Institute of Problems of Laser and Information Technologies', Russian Academy of Sciences, Moscow

A comparative evaluation of bone tissue formation by tissue scaffold and osteoplastic material "Bio-Oss" transplantation in the maxillary sinus floor

Authors:

Alekseeva I.S., Rachinskaia O.A., Volkov A.V., Kulakov A.A., Gol’dshtein D.V.

More about the authors

Journal: Stomatology. 2012;91(6): 41‑44

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Table of contents

A COMPARATIVE EVALUATION OF BONE TISSUE FORMATION BY TISSUE SCAFFOLD AND OSTEOPLASTIC MATERIAL "BIO-OSS" TRANSPLANTATION IN THE MAXILLARY SINUS FLOOR
A COMPARATIVE EVALUATION OF BONE TISSUE FORMATION BY TISSUE SCAFFOLD AND OSTEOPLASTIC MATERIAL "BIO-OSS" TRANSPLANTATION IN THE MAXILLARY SINUS FLOOR

To cite this article:

Alekseeva IS, Rachinskaia OA, Volkov AV, Kulakov AA, Gol’dshtein DV. A comparative evaluation of bone tissue formation by tissue scaffold and osteoplastic material "Bio-Oss" transplantation in the maxillary sinus floor. Stomatology. 2012;91(6):41‑44. (In Russ.)

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The effectiveness of bone tissue formation by transplantation of tissue-engineering scaffold and frequently used osteoplastic material "Bio-Oss" combined construction in maxillary sinus floor was evaluated and marked differences in regeneration terms by this treatment mode were found out.

Keywords:

tissue engineering
multipotent stem cells
sinus-lifting
bone tissue

Authors:

Alekseeva I.S.

FGU "TsNIIS i ChLKh Minzdravsotsrazvitiia Rossii"

Rachinskaia O.A.

ZAO "ReMeTéks"

Volkov A.V.

Novosibirskiĭ gosudarstvennyĭ meditsinskiĭ universitet Minzdravsotsrazvitiia RF

Kulakov A.A.

Tsentral'nyĭ nauchno-issledovatel'skiĭ institut stomatologii i cheliustno-litsevoĭ khirurgii Minzdravsotsrazvitiia, Moskva

Gol’dshtein D.V.

Federal state budgetary institution of science 'Institute of Problems of Laser and Information Technologies', Russian Academy of Sciences, Moscow

List of references:

  1. Volkov A.V., Alekseeva I.S., Kulakov A.A., Gol'dshtein D.V., Shustrov S.A., Shuraev A.I., Arutyunyan I.V., Bukharova T.B., Rzhaninova A.A., Bol'shakova G.B., Grigor'yan A.S. Regeneratsiya kostei cherepa vzroslykh krolikov pri implantatsii kommercheskikh osteoinduktivnykh materialov i transplantatsii tkaneinzhenernoi konstruktsii. Kletochnye tekhnologii v biologii i meditsine 2010; 2: 72-77.
  2. Aimetti M. et al. Sinus Grafting using autogenous bone and platelet-rich plazma: histologic outcomes in humans. Int J Periodontics Restorative Dent 2008; 28: 585-591.
  3. Boyne P.J., James R.A. Grafting of the maxillary sinus floor with autogenous marrow and bone. J Oral Surg 1980; 38: 613-616.
  4. Ferreira C.E., Novaes A.B., Haraszthy V.I., Bittencourt M., Martinelli C.B., Luczyszyn S.M. A clinical study of 406 sinus augmentations with 100% anorganic bovine bone. J Periodontol 2009; 80: 12: 1920-1927.
  5. Goldberg V.M., Stevenson S. Natural history of autografts and allografts. Clin Orthop 1987; 225: 7-16.
  6. Gonshor A., McAllister B.S., Wallace S.S., Prasad H. Histologic and histomorphometric evaluation of an allograft stem cell-based matrix sinus augmentation procedure. Int J Oral Maxillofac Implants 2011; 26: 1: 123-131.
  7. Jensen O.T., Shulman L.B., Block M.S., Iacono V.J. Report of the Sinus Consensus Conferense of 1996. Int J Oral Maxillofac Implants 1998; 13: Suppl: 11-45.
  8. McAllister B.S., Haghighat K., Gonshor A. Histologic evaluation of a stem cell-based sinus-augmentation procedure. J Periodontol 2009; 80: 4: 679-686.
  9. Moy P.K., Loundgren S., Holmes R.E. Maxillary sinus augmentation: Histomorphometric analisis of graft materials for maxillary sinus floor augmentation. J Oral Maxillofac Surg 1993; 51: 857-862.
  10. Parfitt A.M., Drezner M.K., Glorieux F.H., Kanis J.A., Malluche H., Meunier P.J., Ott S.M., Recker R.R. Bone histomorphometry: standardization of nomenclature, symbols, and units. Report of the ASBMR Histomorphometry Nomenclature Committee. J Bone Miner Res 1987; 2: 6: 595-610.
  11. Smiler D., Soltan M., Lee J.W. A histomorphogenic analysis of bone grafts augmented with adult stem cells. Implant Dent 2007; 16: 1: 42-53.
  12. Torres J., Tamimi F., Martinez P.P., Alkhraisat M.H., Linares R., Hernández G., Torres-Macho J., López-Cabarcos E. Effect of platelet-rich plasma on sinus lifting: a randomized-controlled clinical trial. J Clin Periodontol 2009; 36: 8: 677-687.
  13. de Vicente J.C., Hernández-Vallejo G., Braña-Abascal P., Peña I. Maxillary sinus augmentation with autologous bone harvested from the lateral maxillary wall combined with bovine-derived hydroxyapatite: clinical and histologic observations. Clin Oral Implants Res 2010; 21: 4: 430-438.
  14. Yamada Y., Nakamura S., Ito K., Kohgo T., Hibi H., Nagasaka T., Ueda M. Injectable tissue-engineered bone using autogenous bone marrow-derived stromal cells for maxillary sinus augmentation: clinical application report from a 2-6-year follow-up. Tissue Eng Part A 2008; 14: 10: 1699-1707.

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