Back to Search
Start Over
Release characteristics and bioactivity of gelatin-tricalcium phosphate membranes covalently immobilized with nerve growth factors
- Source :
- Biomaterials. 26:6579-6587
- Publication Year :
- 2005
- Publisher :
- Elsevier BV, 2005.
-
Abstract
- The gelatin-tricalcium phosphate membranes were cross-linking with low concentration glutaraldehyde solution (GTG). This material has good mechanical property, biocompatibility, and is feasible for surgical manipulation. For axonal regeneration, nerve growth factors (NGF) were immobilized onto the composite (GTG) with carbodiimide. The purpose of this study was to evaluate the release characteristics and bioactivity of NGF after covalent immobilization onto the GTG membranes (GEN). NGF immobilized onto and released from the composite was quantified using ELISA method. PC 12 cells were cultured on the GTG and GEN composites. Cell survival, cytotoxicity, and cellular activity were evaluated by total protein content, LDH activity, and MTT assay respectively. Neurite outgrowth assay was used to evaluate the biological activity of NGF released from GEN composite. From ELISA measurement, the releasing curve for NGF showing two distinctive parts with different slopes indicated that NGF were released from the composite in diffusion-controlled mechanism and degradation-controlled mechanism respectively. While culturing with PC 12 cells, LDH leakage results implied that whether GTG composite cross-linked with NGF or not showed little cytotoxicity. The total protein content and cellular activity of PC 12 cells were lower on GTG and GEN membranes than control group. However, 56%±3.98 of PC 12 cells showed significant neurite outgrowth on GEN membranes which was statistically higher than GTG without NGF immobilization. In addition, sustained release of bioactive NGF for two months had been demonstrated by neurite outgrowth assay. From these experiments, it can be concluded that the technique used in the present study is capable of immobilizing NGF onto GTG membranes covalently and remaining the bioactivity of NGF. Therefore, GEN composite can be materials for sustained release of bioactive NGF and a candidate for future therapeutic application in nerve repair.
- Subjects :
- Calcium Phosphates
Time Factors
Materials science
Neurite
Biocompatibility
Cell Survival
Biophysics
Tetrazolium Salts
Biocompatible Materials
Enzyme-Linked Immunosorbent Assay
Bioengineering
PC12 Cells
Diffusion
Biomaterials
chemistry.chemical_compound
Neurites
Animals
MTT assay
Nerve Growth Factors
Cytotoxicity
Cells, Cultured
Cell Proliferation
Cell Size
Neurons
Dose-Response Relationship, Drug
L-Lactate Dehydrogenase
Cell Membrane
Temperature
Biological activity
Molecular biology
Rats
Carbodiimides
Kinetics
Thiazoles
Cross-Linking Reagents
Nerve growth factor
Membrane
Models, Chemical
chemistry
Mechanics of Materials
Ceramics and Composites
Gelatin
Glutaraldehyde
Subjects
Details
- ISSN :
- 01429612
- Volume :
- 26
- Database :
- OpenAIRE
- Journal :
- Biomaterials
- Accession number :
- edsair.doi.dedup.....ac1344544d19b6d01a3ef086207751e0