Effect of Bioactive Borate Glass Microstructure on Bone Regeneration, Angiogenesis, and Hydroxyapatite Conversion in a Rat Calvarial Defect Model
Wagner, W. R.
Borate bioactive glasses are biocompatible and enhance new bone formation, but the effect of their microstructure on bone regeneration has received little attention. In this study scaffolds of borate bioactive glass (1393B3) with three different microstructures (trabecular, fibrous, and oriented) were compared for their capacity to regenerate bone in a rat calvarial defect model. 12weeks post-implantation the amount of new bone, mineralization, and blood vessel area in the scaffolds were evaluated using histomorphometric analysis and scanning electron microscopy. The amount of new bone formed was 33%, 23%, and 15%, respectively, of the total defect area for the trabecular, oriented, and fibrous microstructures. In comparison, the percent new bone formed in implants composed of silicate 45S5 bioactive glass particles (250-300μm) was 19%. Doping the borate glass with copper (0.4 wt.% CuO) had little effect on bone regeneration in the trabecular and oriented scaffolds, but significantly enhanced bone regeneration in the fibrous scaffolds (from 15 to 33%). The scaffolds were completely converted to hydroxyapatite within the 12week implantation. The amount of hydroxyapatite formed, 22%, 35%, and 48%, respectively, for the trabecular, oriented, and fibrous scaffolds, increased with increasing volume fraction of glass in the as-fabricated scaffold. Blood vessels infiltrated into all the scaffolds, but the trabecular scaffolds had a higher average blood vessel area compared with the oriented and fibrous scaffolds. While all three scaffold microstructures were effective in supporting bone regeneration, the trabecular scaffolds supported more bone formation and may be more promising in bone repair.
L. Bi and M. N. Rahaman and D. E. Day and Z. Brown and C. Samujh and X. Liu and A. Mohammadkhah and V. M. Dusevich and J. D. Eick and L. F. Bonewald, "Effect of Bioactive Borate Glass Microstructure on Bone Regeneration, Angiogenesis, and Hydroxyapatite Conversion in a Rat Calvarial Defect Model," Acta Biomaterialia, vol. 9, no. 8, pp. 8015-8026, Elsevier, Jan 2013.
The definitive version is available at https://doi.org/10.1016/j.actbio.2013.04.043
Materials Science and Engineering
Keywords and Phrases
Bioactive Glass; Bioengineering; Biomaterials; Bone Chemistry; Computing; Law; Materials Science; Orthopedic Surgery; Periodontology
International Standard Serial Number (ISSN)
Article - Journal
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