Development and related characterization of heterogeneous bone scaffold materials
- VernacularTitle:异种骨支架材料的研制及相关表征
- Author:
Chunyang GAO
;
Ge SUN
;
Dongmei HAN
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2007;0(03):-
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Heterogeneous deproteinized bone because of wide source and its special biological characteristics maybe a good bone tissue engineering scaffold.Its immunogenicity and mechanical properties are different by different interventions.OBJECTIVE:To proof the preparation technology,immunological and mechanical properties of heterogeneous deproteinized bone.DESIGN,TIME AND SETTING:A control observational experiment was performed in the Heilongjiang Key Laboratory of Anti-fibrosis Biotherapy from February to October 2008.MATERIALS:Fresh femoral cancellous bones extracted from adult pigs,which were not including cartilages and cortical bones,were prepared into size of 3 cm?0.5 cm?0.5 cm.Their long axis direction was the same with orientation of trabeculae.The apparent pore densities of the used bones were almost same.METHODS:The bones were soaked in chloroform-carbinol(1:1) 24 hours for degrease.They were shaken and washed by distilled water at 50 ℃,and then put into 20% H2O2 for 24 hours.The procedure repeated three times.The bones were soaked in distilled water at room temperature for 24 hours,and then dryed.MAIN OUTCOME MEASURES:The gross morphological and histological features of the deproteinized cancellous bones were observed.The contents of amino acid and their biomechanical properties were measured.RESULTS:The three-dimensional space structures of the deproteinized cancellous bones were not damage greatly,and they had a natural pore network system which composited of hydroxyapatite and collagen.The contents of collagen amino acids in the deproteinized cancellous bones had no obvious difference from fresh cancellous bones,but the wave crests of aromatic amino acids such as tyrosine and methionine were disappear.The elastic moduli of deproteinized cancellous bones were significantly higher than those of fresh cancellous bones(P
