By Giuseppe Perale, Jöns Hilborn
Bioresorbable Polymers for Biomedical purposes: From basics to Translational Medicine offers readers with an outline of bioresorbable polymeric fabrics within the biomedical box. an invaluable source for fabrics scientists in and academia, delivering details at the basics and issues, synthesis and processing, and the medical and R and D purposes of bioresorbable polymers for biomedical applications.
- Focuses on biomedical purposes of bioresorbable polymers
- Features a finished diversity of themes together with basics, synthesis, processing, and applications
- Provides balanced insurance of the sector with contributions from academia and industry
- Includes medical and R and D functions of bioresorbable polymers for biomedical applications
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Extra resources for Bioresorbable Polymers for Biomedical Applications. From Fundamentals to Translational Medicine
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PPF degrades by simple hydrolysis of the ester bonds into the nontoxic products propylene glycol, poly(acrylic acid-co-fumaric acid), and fumaric acid. Due to in situ cross-linking characteristics, biodegradability, and injectability, PPF has been extensively investigated for bone repair; in particular, it has been used for fabricating preformed scaffolds (Lee, 2006). Such devices could be constructed by using UV laser stereolithography to photocross-link a linear, biodegradable polymer into a 3D implant (Fisher, 2002).
9, 615e627. , 2011. Additive layered manufacturing: sectors of industrial application shown through case studies. Int. J. Production Res. 49 (4), 1061e1079. , 2005. Effect of glass composition on the degradation properties and ion release characteristics of phosphate glassepolycaprolactone composites. Biomaterials 26, 2209e2218. , 1992. Trends in the development of bioresorbable polymers for medical applications. J. Biomater. Appl. 6 (3), 216e250. , 2014.