By Giuseppe Perale, Jöns Hilborn
Bioresorbable Polymers for Biomedical purposes: From basics to Translational Medicine offers readers with an summary 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 entire variety of subject matters together with basics, synthesis, processing, and applications
- Provides balanced insurance of the sphere with contributions from academia and industry
- Includes medical and R and D purposes of bioresorbable polymers for biomedical applications
Read or Download Bioresorbable Polymers for Biomedical Applications. From Fundamentals to Translational Medicine PDF
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Extra resources for Bioresorbable Polymers for Biomedical Applications. From Fundamentals to Translational Medicine
Wiley, Hoboken, NJ. , 2009. Material properties of alginates. Alginates: Biol. Appl. 13, 1e53. , 2010. Synthesis of poly(alkyl cyanoacrylates) as biodegradable polymers for drug delivery applications. Macromol. Symposia 289, 124e128. , 2004. Biocompatibility of chemoenzymatically derived dextran-acrylate hydrogels. J. Biomed. Mater. Res. A 68, 584e596. , 2005. Biocatalytic synthesis of highly ordered degradable dextran-based hydrogels. Biomaterials 26, 4707e4716. , 2002. Soft and hard tissue response to photocrosslinked poly(propylene fumarate) scaffolds in a rabbit model.
Alginate has been widely adopted as a carrier to immobilize or encapsulate drugs, bioactive molecules, proteins, and cells. To date, many types of alginate-based carriers such as hydrogels, colloidal particles, and polyelectrolyte complexes are under investigation, and some of them have been used practically. 3 Poly(ester-ether) Polydioxanone is a colorless, crystalline, biodegradable synthetic polymer. Chemically, it is a polymer of multiple repeating ether-ester units. It is obtained by ringopening polymerization of the monomer p-dioxanone.
Am. Chem. Soc. 109, 817e820. , 2007. Hydrogel biomaterials: a smart future? Biomaterials 28 (34), 5185e5192. , 2014. Natural and Synthetic Biomedical Polymers. Elsevier Science. , 2003. Preparation of water-soluble chitosan/heparin complex and its application as wound healing accelerator. Biomaterials 24, 1595e1601. , 1995. Functions of hyaluronan. Ann. Rheum. Dis. 54, 429e432. , 2002. Enhance bone formation by controlled growth factor delivery from chitosan-based biomaterials. J. Control Release 78, 187e197.