Descripción del título
Advances in Polyurethane Biomaterials brings together a thorough review of advances in the properties and applications of polyurethanes for biomedical applications. The first set of chapters in the book provides an important overview of the fundamentals of this material with chapters on properties and processing methods for polyurethane. Further sections cover significant uses such as their tissue engineering and vascular and drug delivery applications Written by an international team of leading authors, the book is a comprehensive and essential reference on this important biomaterial
Monografía
monografia Rebiun18285998 https://catalogo.rebiun.org/rebiun/record/Rebiun18285998 m o d cr cnu|||unuuu 160127s2016 enk o 001 0 eng d 936883317 9780081006221 electronic bk.) 0081006225 electronic bk.) 9780081006146 UR0426505 UPVA 997027095603706 UCAR 991008196808704213 N$T. eng. rda. pn. N$T. YDXCP. IDEBK. N$T. CDX. OPELS. OCLCF. EBLCP. KNOVL TEC. 009010 bisacsh Advances in polyurethane biomaterials Recurso electrónico-En línea] edited by Stuart L. Cooper, Jianjun Guan Duxford Woodhead Publishing 2016 Duxford Duxford Woodhead Publishing 1 online resource 1 online resource Text txt rdacontent computer c rdamedia online resource cr rdacarrier Woodhead Publishing series in biomaterials no. 108 Includes index Front Cover; Related titles; Advances in Polyurethane Biomaterials; Copyright; Contents; List of contributors; Woodhead Publishing Series in Biomaterials; Preface; One -- Chemistry, processing and applications of polyurethane biomaterials; 1 -- Hierarchal structure-property relationships of segmented polyurethanes; 1.1 Introduction; 1.2 Structure of segmented polyurethanes; 1.2.1 Polyurethane reactions; 1.2.2 Segmented polyurethane elastomers; 1.3 Soft segment chemistry; 1.3.1 Polyester soft segments; 1.3.2 Polyether soft segments; 1.3.3 Triblock soft segments; 1.4 Hard segment chemistry 1.4.1 Isocyanates1.4.2 Chain extenders; 1.5 Microphase separation; 1.5.1 Thermodynamics; 1.5.2 Structural morphology; 1.5.3 Kinetics; 1.6 Compositional effects on mechanical properties; 1.6.1 Effect of the soft segment; 1.6.2 Effect of hard segment; 1.7 Compositional effects on degradation rate; 1.7.1 Effect of soft segment; 1.7.2 Effect of hard segment; 1.8 Summary and future perspectives; References; 2 -- Surface characterization techniques for polyurethane biomaterials; 2.1 Friction measurement; 2.1.1 Coefficient of friction measurement; 2.1.2 Trackability measurement; 2.2 Contact angle 2.2.1 Static sessile drop2.2.2 Dynamic contact angle; 2.2.2.1 Dynamic sessile drop; 2.2.2.2 Wilhelmy plate; 2.3 X-ray photoelectron spectroscopy; 2.4 Secondary ion mass spectrometry; 2.5 Scanning electron microscopy; 2.6 Protein adsorption test; 2.6.1 Quartz crystal microbalance; 2.6.2 Iodination radiolabeling; 2.7 Hemocompatability measurement; 2.7.1 In vitro platelet adhesion; 2.7.1.1 Radioactive isotope labeling; 2.7.1.2 Lactate dehydrogenase assay; 2.7.1.3 Acid phosphatase assay; 2.7.2 Scanning electron microscopy; 2.7.3 In vitro blood loop method; 2.7.4 Ex vivo shunt blood loop 2.8 Antimicrobial efficacy test2.8.1 Zone of inhibition; 2.8.2 Contact kill; 2.9 Antibiofilm efficacy; 2.9.1 Minimum biofilm eradication concentration assay; 2.9.2 Scanning electron microscopy; 2.9.3 Flow cell assay; Acknowledgments; References; 3 -- Design of biodegradable polyurethanes and the interactions of the polymers and their degradation by-products within in vitro and in vivo environments; 3.1 Fundamentals of polyurethane degradation; 3.1.1 Polyurethane chemistry influences stability; 3.1.2 Polyurethane bulk degradation; 3.1.3 Hydrolytic degradation 3.1.4 Molecular mechanisms at the cell-material interface3.1.5 Environmental biodegradation; 3.2 Design of new degradable polyurethanes inspired by biodegradation mechanisms; 3.2.1 Degradable polyurethanes designed with hydrolytically susceptible soft segments; 3.2.2 Degradable polyurethanes developed with blended soft segments; 3.2.3 Degradable polyurethanes with varying chain extenders; 3.2.4 Degradable polyurethanes generated from novel chemistries; 3.3 In vivo testing of polyurethanes from 2005 to 2015 Accesible sólo para usuarios de la UPV Recurso a texto completo Advances in Polyurethane Biomaterials brings together a thorough review of advances in the properties and applications of polyurethanes for biomedical applications. The first set of chapters in the book provides an important overview of the fundamentals of this material with chapters on properties and processing methods for polyurethane. Further sections cover significant uses such as their tissue engineering and vascular and drug delivery applications Written by an international team of leading authors, the book is a comprehensive and essential reference on this important biomaterial Reproducción electrónica Forma de acceso: Web Elsevier. Suscripción Polyurethanes Biomedical materials TECHNOLOGY & ENGINEERING / Chemical & Biochemical Biomedical materials. Polyurethanes. Electronic books Cooper, Stuart L. 1941-) editor Guan, Jianjun editor ScienceDirect (Servicio en línea) Print version Cooper, Stuart L. Advances in Polyurethane Biomaterials. -- : Elsevier Science, 2016 9780081006146 Woodhead Publishing series in biomaterials no. 108