Preparation and properties of hydrophilic modified artificial bone scaffold using low-temperature rapid prototyping
10.3969/j.issn.2095-4344.2014.12.004
- VernacularTitle:低温快速成型亲水改性复合人工骨支架的性能测定
- Author:
Meijian HE
;
Daping WANG
;
Jianghong HUANG
;
Ming ZHANG
- Publication Type:Journal Article
- Keywords:
tissue engineering;
hypothermia;
polyethylene glycols;
durapatite
- From:
Chinese Journal of Tissue Engineering Research
2014;(12):1824-1830
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Low-temperature rapid prototyping technology is a new kind of rapid prototyping technology, and it is rapidly used in the preparation of bone tissue engineering scaffolds because it can make scaffold forming control able and can keep the biological activity of the materials, also can easily realize the scaffold with porous of three-dimensional structure and other advantages.
OBJECTIVE:To investigate the preparation process of polyethylene glycol-modified polylactic acid-glycolic acid/nano-hydroxyapatite (PLGA-PEG/n-HA) using the low-temperature rapid prototyping, and to test its performance.
METHODS:PLGA-PEG/n-HA and PLGA/n-HA were prepared by low-temperature rapid prototyping equipment. Under an electron microscopy, we observed ultra-structure of the scaffolds. Immersion (ethanol) method was used to test the porosity, and electronic testing machine was used to determine the material mechanical properties. Then these two kinds of scaffolds with rat osteoblasts were cultured in vitro, the cel adhesion rate was detected by precipitation method after 12 hours, and cel counting kit-8 method was used to determine the cel proliferation at culture days 1, 3, 5, 7, 9, 12.
RESULTS AND CONCLUSION:Both of the two scaffolds had ideal aperture range and high porosity. But the aperture range of PLGA-PEG/n-HA scaffolds had large fluctuations, and the average aperture was smal er than that of PLGA/n-HA. Some pores were closed up. The cel adhesion rate and the cel growth curve of PLGA-PEG/n-HA was better than that of PLGA/n-HA (P<0.05), but the mechanical properties were less than PLGA/n-HA (P<0.05). The results showed the PLGA-PEG/n-HA scaffolds had good cel compatibility.