期刊
JOURNAL OF PERIODONTOLOGY
卷 79, 期 5, 页码 896-904出版社
AMER ACAD PERIODONTOLOGY
DOI: 10.1902/jop.2008.070043
关键词
animal studies; barriers; bone and bones; cells; tissue engineering; tissue scaffolds; tricalcium phosphate
Background: This study used a tissue-engineering approach, which combined autologous periosteal cells with a scaffold material, to promote bone augmentation under an occlusive titanium barrier that was placed on the skull of rabbits. Because the cell-matrix interaction is of key importance in tissue engineering, two different calcium phosphate-based scaffolds were seeded with autologous periosteal cells. One scaffold contained hydroxyapatite, tricalcium phosphate, and Collagen; the other scaffold was a P-tricalcium phosphate structure. Methods: The experiment involved 38 rabbits divided into five groups: the two different scaffolds with and without cells and a blood clot only. Prior to implantation, autologous periosteal cells were harvested from the tibia by stripping the periosteum. Cells were cultured, and I day before the implantation similar to 20 million cells were collected and seeded onto the scaffolds. Two preformed dome-shaped full titanium barriers were placed subperiosteally onto the frontal and parietal bones of each rabbit. Before placement of the barriers, the different scaffolds, seeded with or without cells, were put on top of the skull. As a negative control, autologous blood was injected into the barriers. Histologic evaluation and. histomorphometric analysis were performed after 12 weeks of undisturbed bone growth. Measurements involved the amounts of newly formed tissue and of new bone distinguishing between trabecular bone and osteoid. Results: No significant differences were found between the four treatment groups (scaffolds with or without cells). However, the amount of new bone tissue found underneath the titanium barriers with scaffolds was significantly higher (P<0.04) than with a blood clot only. Conclusion: A better understanding of the mode of action is required to optimize tissue-engineering procedures before entering clinical applications.
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