Objective To review and evaluate the extensive and further research and the application of the collagenbased biomaterials in the field of clinical medicine. Methods The clinical research and application of collagen-based biomaterials were comprehensively reviewed and evaluated on the basis of the up-to-date publications and our practical experiences in their studies and manufacturing. Results The following five aspects concerned with the collagen-based biomaterials were evaluated: biological property, quality control, formulation of substrate and clinical application, immunogenicity and clinical side effect, and potential of the market development. Conclusion Collgen-based biomaterials have a great potential and market space in their clinical application.
To evaluate the effect of deacetylation degree (DDA) on the gelation behavior of thermosensitive chitosan-β glycerol phosphate disodium salt pentahydrate (CH-GP) system and to compare their rheological behaviors before and after gelation. Methods A series of thermosensitive CH-GP samples with different DDAs (70%, 85%, 90%, 97%)were prepared by dissolving CH with 0.1 mol/L HCl solution, 5 samples for every single DDA, and then all these CH-GP solution samples processed the frequency sweep test and temperature sweep test (10-70℃ , 1℃ /min) on AR 2000ex rheometer, with pH value of 7.02. Also, all the results of hydrogel samples were processed a frequency sweep test. Results With CH concentration of 2% (w/v) and pH value of 7.02 , the gelating temperature of CH-GP systems with different DDAs (85%, 90%, 97%) were (59.90 ± 0.08), (48.10 ± 0.08), (37.10 ± 0.11) ℃ , respectively. While the gelating temperature of CH-GP system with 70% DDA was over 70℃ . There were statistically significant differences in temperature and time of gelation among groups with different DDAs (P lt; 0.05). Furthermore, storage modulus of such system raised from dozens Pa to a magnitude of several kPa during gelation , while loss modulus kept almost steady. Conclusion Gelating temperature and mechanical property of the system could be measured objectively by rheological characterization. Thus during designing tissue engineered scaffolds for various purposes, it is helpful applying selected CH with optimal DDA to different target tissues.