Bioactive Glass Stimulates In Vitro Osteoblast Differentiation and Creates a Favorable Template for Bone Tissue Formation

Autor:	M. T. Tan, J.M. Sautier, E. Jallot, David C. Greenspan, Nadine Forest, C. Loty, M. Oboeuf, Habib Boulekbache
Rok vydání:	2001
Předmět:	Bone sialoprotein Endocrinology Diabetes and Metabolism In Vitro Techniques Bone tissue Apatite law.invention Rats Sprague-Dawley law Bone cell medicine Animals Orthopedics and Sports Medicine Bone Development Osteoblasts biology Chemistry Cell Differentiation Osteoblast Anatomy Rats medicine.anatomical_structure Bioactive glass visual_art Microscopy Electron Scanning visual_art.visual_art_medium Ultrastructure Biophysics biology.protein Alkaline phosphatase Glass Electron Probe Microanalysis
Zdroj:	Journal of Bone and Mineral Research. 16:231-239
ISSN:	0884-0431
DOI:	10.1359/jbmr.2001.16.2.231
Popis:	In this study, we have investigated the behavior of fetal rat osteoblasts cultured on bioactive glasses with 55 wt% silica content (55S) and on a bioinert glass (60S) used either in the form of granules or in the form of disks. In the presence of Bioglass granules (55 wt% silica content), phase contrast microscopy permitted step-by-step visualization of the formation of bone nodules in contact with the particles. Ultrastructural observations of undecalcified sections revealed the presence of an electron-dense layer composed of needle-shaped crystals at the periphery of the material that seemed to act as a nucleating surface for biological crystals. Furthermore, energy dispersive X-ray (EDX) analysis and electron diffraction patterns showed that this interface contains calcium (Ca) and phosphorus (P) and was highly crystalline. When rat bone cells were cultured on 55S disks, scanning electron microscopic (SEM) observations revealed that cells attached, spread to all substrata, and formed multilayered nodular structures by day 10 in culture. Furthermore, cytoenzymatic localization of alkaline phosphatase (ALP) and immunolabeling with bone sialoprotein antibody revealed a positive staining for the bone nodules formed in cultures on 55S. In addition, the specific activity of ALP determined biochemically was significantly higher in 55S cultures than in the controls. SEM observations of the material surfaces after scraping off the cell layers showed that mineralized bone nodules remained attached on 55S surfaces but not on 60S. X-ray microanalysis indicated the presence of Ca and P in this bone tissue. The 55S/bone interfaces also were analyzed on transverse sections. The interfacial analysis showed a firm bone bonding to the 55S surface through an intervening apatite layer, confirmed by the X-ray mappings. All these results indicate the importance of the surface composition in supporting differentiation of osteogenic cells and the subsequent apposition of bone matrix allowing a strong bond of the bioactive materials to bone.
Databáze:	OpenAIRE
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