Effect of glutaraldehyde cross-linking on the properties of chitosan/hydroxyapatite-gentamicin delayed materials
10.3969/j.issn.2095-4344.2014.30.005
- VernacularTitle:戊二醛交联对壳聚糖/羟基磷灰石-庆大霉素缓释材料性能的影响
- Author:
Hongxia ZHAO
- Publication Type:Journal Article
- Keywords:
hydroxyapatites;
chitosan;
mechanics;
biodegradation,environmental
- From:
Chinese Journal of Tissue Engineering Research
2014;(30):4783-4789
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Cross-linking is a common method for the modification of bone tissue engineering materials, but there are few studies about the effect of cross-linking on properties of drug-loaded artificial bone. OBJECTIVE:To study the effect of glutaraldehyde cross-linking on mechanical strength, degradation rate and in vitro release behavior of chitosan/hydroxyapatite-gentamicin delayed materials. METHODS:The chitosan/hydroxyapatite-gentamicin drug-loaded artificial bone and the cross-linked chitosan/hydroxyapatite-gentamicin drug-loaded artificial bone were prepared at 10%, 20%and 30%chitosan mass ratio. The mechanical strength, absorption rate, degradation rate and in vitro release behavior of materials in each group were determined. RESULTS AND CONCLUSION:The compressive strength of 10%, 20%, 30%chitosan/hydroxyapatite-gentamicin drug-loaded artificial bone was (10.16±1.17) MPa, (28.4±0.64) MPa and (23.28±1.30) MPa, respectively. After cross-linking, the strength was increased to (36.3±1.20) MPa, (51.6±2.08) MPa and (36.9±3.22) MPa, respectively. The absorption rate and degeneration rate were reduced by cross-linking. In the first day of drug release in vitro, the rate of gentamicin released from non-cross-linked 30%chitosan/hydroxyapatite-gentamicin drug-loaded artificial bone was 42.2%, while the rate was decreased to 33.6%after cross-linking. At the fol owing 9 days, the total release of the cross-linked material was lower than that of non-cross-linked material. Glutaraldehyde cross-linking could improve the stability, reduce the degradation rate, and significantly ameliorate the release of artificial bone.
