Surfaces and Interfaces for Biomaterials
Published on 27. May 2005
Book
Hardback
824 pages
978-1-85573-930-7 (ISBN)
Description
Given such problems as rejection, the interface between an implant and its human host is a critical area in biomaterials. Surfaces and interfaces for biomaterials summarises the wealth of research on understanding the surface properties of biomaterials and the way they interact with human tissue.The first part of the book reviews the way biomaterial surfaces form. Part Two discusses ways of monitoring and characterising surface structure and behaviour. The final two parts of the book look at a range of in vitro and in vivo studies of the complex interactions between biomaterials and the body. Chapters cover such topics as bone and tissue regeneration, the role of interface interactions in biodegradable biomaterials, microbial biofilm formation, vascular tissue engineering and ways of modifying biomaterial surfaces to improve biocompatibility.Surfaces and interfaces for biomaterials is a standard work on how to understand and control surface processes in ensuring biomaterials are used successfully in medicine.
More details
Series
Language
English
Place of publication
Cambridge
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
Professional and scholarly
Dimensions
Height: 234 mm
Width: 156 mm
Weight
1320 gr
ISBN-13
978-1-85573-930-7 (9781855739307)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Pankaj Vadgama
Surfaces and Interfaces for Biomaterials
E-Book
05/2005
Woodhead Publishing
€280.00
Available for download
Person
P. Vadgama is Director of the Interdisciplinary Research Centre in Biomedical Materials at Queen Mary, University of London.
Content
Part 1 Forming methods: Fundamental properties of surfaces; Control of polymeric biomaterial surfaces; Organic thin film architectures: Fabrication and properties; Membranes and permeable films; Stable use of biosensors at the sample interface; Micro- and nanoscale surface patterning techniques for localising biomolecules and cells: The essence of nanobiotechnology. Part 2 Measurement, monitoring and characterisation: Surface spectroscopies; Surface microscopies; Nanoidentation; Surface plasmon resonance; Ellipsometry for optical surface study applications; Neutron reflection; Microgravimetry. Part 3 Surface interactions and in-vitro studies: Interaction between biomaterials and cell tissues; Blood flow dynamics and surface interactions; Cell guidance through surface cues; Controlled cell deposition techniques; Biofouling in membrane separation systems. Part 4 Surface interactions and in-vivo studies: Bioactive 3D scaffolds in regenerative medicine: The role of interface interactions; Intravascular drug delivery systems and devices: Interactions at biointerface; Surface degradation and microenvironmental outcomes; Microbial biofilms and clinical implants; Extracellular matrix molecules in vascular tissue engineering; Biomineralisation processes; On the topographical characterisation of biomaterial surfaces. Part 5 Appendices: Surface modification of polymers to enhance biocompatibility; Issues concerning the use of assays of cell adhesion to biomaterials; Protein adsorption to surfaces and interfaces.