Regeneration of Skull Bones in Adult Rabbits after Implantation of Commercial Osteoinductive Materials and Transplantation of a Tissue-Engineering Construct

We performed a comparative study of reparative osteogenesis in rabbits with experimental critical defects of the parietal bones after implantation of commercial osteoinductive materials “Biomatrix”, “Osteomatrix”, “BioOss” in combination with platelet-rich plasma and transplantation of a tissue-engi...

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Bibliographic Details
Published in:Bulletin of experimental biology and medicine 2010-10, Vol.149 (4), p.505-510
Main Authors: 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.
Format: Article
Language:English
Subjects:
Adipose tissues
Animals
Biomedical and Life Sciences
Biomedicine
Bone Matrix
Bone Regeneration
Bone Substitutes - therapeutic use
Bone Transplantation
Cell Biology
Female
Internal Medicine
Laboratory Medicine
Male
Minerals - therapeutic use
Osteogenesis
Parietal Bone - physiology
Pathology
Platelet-Rich Plasma - physiology
Rabbits
Stromal Cells - transplantation
Tissue Engineering
Tissue Scaffolds
Translated from Kletochnye Tekhnologii v Biologii i Meditsine (Cell Technologies in Biology and Medicine)
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Summary:We performed a comparative study of reparative osteogenesis in rabbits with experimental critical defects of the parietal bones after implantation of commercial osteoinductive materials “Biomatrix”, “Osteomatrix”, “BioOss” in combination with platelet-rich plasma and transplantation of a tissue-engineering construct on the basis of autogenic multipotent stromal cells from the adipose tissue predifferentiated in osteogenic direction. It was found that experimental reparative osteogenesis is insufficiently stimulated by implantation materials and full-thickness trepanation holes were not completely closed. After transplantation of the studied tissue-engineering construct, the defect was filled with full-length bone regenerate (in the center of the regenerate and from the maternal bone) in contrast to control and reference groups, where the bone tissue was formed only on the side of the maternal bone. On day 120 after transplantation of the tissue-engineering construct, the percent of newly-formed bone tissue in the regenerate was 24% (the total percent of bone tissue in the regenerate was 39%), which attested to active incomplete regenerative process in contrast to control and reference groups. Thus, the study demonstrated effective regeneration of the critical defects of the parietal bones in rabbits 120 days after transplantation of the tissue-engineering construct in contrast to commercial osteoplastic materials for directed bone regeneration.
ISSN:0007-4888
1573-8221
DOI:10.1007/s10517-010-0980-6