Details

Biosurfaces


Biosurfaces

A Materials Science and Engineering Perspective
1. Aufl.

von: Kantesh Balani, Vivek Verma, Arvind Agarwal, Roger Narayan

136,99 €

Verlag: Wiley
Format: EPUB
Veröffentl.: 23.01.2015
ISBN/EAN: 9781118950647
Sprache: englisch
Anzahl Seiten: 392

DRM-geschütztes eBook, Sie benötigen z.B. Adobe Digital Editions und eine Adobe ID zum Lesen.

Beschreibungen

<p>Ideal as a graduate textbook, this title is aimed at helping design effective biomaterials, taking into account the complex interactions that occur at the interface when a synthetic material is inserted into a living system.  Surface reactivity, biochemistry, substrates, cleaning, preparation, and coatings are presented, with numerous case studies and applications throughout.</p> <p><i> </i>Highlights include:</p> <ul> <li>Starts with concepts and works up to real-life applications such as implantable devices, medical devices, prosthetics, and drug delivery technology</li> <li>Addresses surface reactivity, requirements for surface coating, cleaning and preparation techniques, and characterization</li> <li>Discusses the biological response to coatings</li> <li>Addresses biomaterial-tissue interaction</li> <li>Incorporates nanomechanical properties and processing strategies</li> </ul>
<p><b>Chapter 1.</b> <b>Introduction to Biomaterials<br /> <br /> </b>1.1 Introduction<br /> <br /> 1.2 Summary<br /> <br /> <b>Chapter 2. Tissue Interaction with Biomaterials<br /> <br /> </b>2.1 Introduction<br /> <br /> 2.2 Protein adsorption and Cell adhesion<br /> <br /> 2.3 Cell Migration<br /> <br /> 2.4 Controlled Cell Deposition<br /> <br /> 2.5  Extracellular Matrix<br /> <br /> 2.6 Biomineralization<br /> <br /> <b>Chapter 3.</b> <b>Host Response of Implanted Biomaterials<br /> <br /> </b>3.1 Immune Response to Implanted Biomaterials<br /> <br /> 3.2 Transplant Immunology<br /> <br /> 3.3 Biocomaptibility<br /> <br /> <b>Chapter 4.</b> <b>Fundamentals of Surface Modification<br /> <br /> </b>4.1 Introduction<br /> <br /> 4.2 Surface Properties of Biomaterials<br /> <br /> 4.3 Surface modifications<br /> <br /> 4.4 Applications<br /> <br /> <b>Chapter 5. Multi Length Scale Hierarchy in Natural Materials<br /> <br /> </b>5.1 Introduction<br /> <br /> 5.2 Multi Length-scale Hierarchy<br /> <br /> 5.3 Human Bone<br /> <br /> 5.4 Turtle shell<br /> <br /> 5.5 Wood<br /> <br /> 5.6 Silk<br /> <br /> 5.7 Nacre<br /> <br /> 5.8 Gecko-feet<br /> <br /> 5.9 Lotus Leaf<br /> <br /> <b>Chapter 6. Superhydrophobic Surfaces<br /> <br /> </b>6.1 Introduction<br /> <br /> 6.2 Surfaces and superhydrophobicity in nature<br /> <br /> 6.3 Classification of surfaces<br /> <br /> 6.4 Mechanics and nature of wetting<br /> <br /> 6.5 Fabrication of artificial superhydrophobic surfaces<br /> <br /> 6.6 Preparation of metallic superhydrophobic surfaces<br /> <br /> 6.7 Controlled wettability surfaces (CWS)<br /> <br /> 6.8 Conclusions<br /> <br /> <b>Chapter 7. Surface Engineering and Modification for Biomedical Applications<br /> <br /> </b>7.1 Corrosion of Biomaterials and Need for Surface Coating for Biomedical Applications<br /> <br /> 7.2 Surface Reactivity and Body Cell Response<br /> <br /> 7.3 Key Requirements of Surface Coating<br /> <br /> 7.4 Key Biomaterial Substrates<br /> <br /> 7.5 Surface Preparation and Cleaning Techniques<br /> <br /> 7.6 Surface Engineering and Coating Techniques<br /> <br /> 7.7 Coatings for Biomedical Applications<br /> <br /> 7.8. Biosurface Characterization<br /> <br /> <b>Chapter 8. Laser Engineering of Surface Structures<br /> <br /> </b>8.1 Introduction<br /> <br /> 8.2 Laser processing of biomaterials<br /> <br /> 8.3 Laser-based prototyping methods<br /> <br /> 8.4 Ultrafast laser pulses<br /> <br /> 8.5 Neural implants<br /> <br /> 8.6 Ophthalmic implants<br /> <br /> 8.7 Laser fabrication of cardiovascular devices<br /> <br /> 8.8 Laser-fabricated nanoscale materials<br /> <br /> 8.9 Two photon polymerization<br /> <br /> 8.10 Microneedle fabrication<br /> <br /> 8.11 Conclusions<br /> <br /> <b>Chapter 9. Processing and Nanomechanical Properties of Hydroxyapatite-Nanotube Biocomposite<br /> <br /> </b>9.1 Introduction<br /> <br /> 9.2 Processing of HA-Carbon Nanotube Composites<br /> <br /> 9.3 Fracture Toughness and Tribological Properties of HA-Carbon Nanotube Composites<br /> <br /> 9.4 Adhesion of Bone Forming Cells on HA-CNT Surface<br /> <br /> 9.5 Biomechanical Compatibility at Bone/Coated Implant Interface<br /> <br /> 9.6 HA-Boron Nitride Nano Tube (BNNT) Composites<br /> <br /> 9.7 HA-TiO<sub>2</sub> Nanotube Composites<br /> <br /> 9.8 Summary<br /> <br /> <b>Chapter 10. Applications of Biomaterials<br /> <br /> </b>10.1 Multi-scale hierarchy in natural Bone<br /> <br /> 10.2 Coronary Stents<br /> <br /> 10.3 Medical Devices<br /> <br /> 10.4 Drug Delivery<br /> <br /> <b>Chapter 11. Nanosafety, Nanosocietal and Nanoethical Issues<br /> <br /> </b>11.1 Governmental Environment and Health Safety Organization Protocols<br /> <br /> 11.2 Related Safety Hazards<br /> <br /> 11.3 Approach to Developing Safety Protocol for Laboratory Environment<br /> <br /> 11.4 Tendency of Nanoparticles<br /> <br /> 11.5 Current Capability of Nanoparticle Filters</p>
<p><b>Kantesh Balani</b>, PhD, is an Associate Professor, in the Department of Materials Science & Engineering, Indian Institute of Technology (IIT) Kanpur. He has presented over 50 lectures in the international conferences and has over 65 publications in the peer-reviewed international journals. His accolades include the 2013 <i>P.K. Kelkar Research Fellowship</i>.</p> <p><i> </i></p> <p><b>Arvind Agarwal</b>, PhD, is Professor of Materials Science and Engineering in the Department of Mechanical and Materials Engineering at the Florida International University (FIU), Miami, Florida, USA.   He has authored more than 200 publications, edited 7 books, and co-authored 1 book in the area of coatings and nano-biomaterials. His accolades include Fellowship of ASM International.</p> <p> </p> <p><b>Vivek Verma</b>, PhD, is an Assistant Professor in the Department of Materials Science and Engineering at Indian Institute of Technology (IIT) Kanpur. He is a recipient of the prestigious American Academy of Mechanics Founder’s prize and grant for the year 2005-06 and Shri Ram Arora Award 2011.</p> <p> </p> <p><b>Roger Narayan</b>, PhD, is Professor in the Joint Department of Biomedical Engineering at the University of North Carolina (UNC) and North Carolina State University (NCSU). He is an author of over 100 publications as well as several book chapters related to biomedical materials. His accolades include the UNC Jefferson-Pilot Fellowship in Academic Medicine.</p>
<p><b>A multidisciplinary approach that elucidates</b> <b>contrasting requirements of materials in their interfaces with the biological environment</b></p> <p>Biomaterials can generally be produced either in nature or synthesized in the laboratory using a variety of chemical approaches utilizing metallic components or ceramics. They are used every day in dental applications, surgery, and drug delivery in which they perform, augment, or replace a natural function. Taking into account the complex interactions that occur at the interface when a synthetic material is inserted into a living system, <i>Biosurfaces: A Materials Science and Engineering Perspective</i> aims to gear students, scientists, researchers and other experts in the field with the tools to design effective biomaterials.</p> <p>Building upon the real-life applications, <i>Biosurfaces: A Materials Science and Engineering Perspective</i> features:</p> <p>+A bird’s eye overview of the critical requirements of materials, followed by a description of the fundamental mechanisms of protein adsorption, platelet and cell-adhesion</p> <p>+Case studies on mechanical properties and laser engineering of surfaces that fulfill the critical requirements in constructing successful implants are included </p> <p>+Discussion of the concept of non-wetting, required especially for anti-biofouling surfaces, via super-hydrophobicity</p> <p>+Views on the social, ethical, and future issues associated with biomaterials design and implementation</p> <p>Ideal as a graduate textbook, this monograph provides a multidisciplinary approach to the paradigm of biosurfaces and biomaterials through experts working in the arena of interfacing materials with bio-engineering. It is also an invaluable tool for the fields of biomedical engineering, biology, mechanical device design, and medical sciences.</p> <p><b> </b></p> <p><b> </b></p> <p><b> </b></p> <p>Kantesh Balani, PhD, is an Associate Professor, in the Department of Materials Science & Engineering, Indian Institute of Technology (IIT) Kanpur. He has presented over 50 lectures in the international conferences and has over 65 publications in the peer-reviewed international journals. His accolades include the 2013 <i>P.K. Kelkar Research Fellowship</i>.</p> <p>Arvind Agarwal, PhD, is Professor of Materials Science and Engineering in the Department of Mechanical and Materials Engineering at the Florida International University (FIU), Miami, Florida, USA.   He has authored more than 200 publications, edited 7 books, and co-authored 1 book in the area of coatings and nano-biomaterials. His accolades include Fellowship of ASM International.</p> <p>Vivek Verma, PhD, is an Assistant Professor in the Department of Materials Science and Engineering at Indian Institute of Technology (IIT) Kanpur. He is a recipient of the prestigious American Academy of Mechanics Founder’s prize and grant for the year 2005-06 and Shri Ram Arora Award 2011.</p> <p>Roger Narayan, PhD, is Professor in the Joint Department of Biomedical Engineering at the University of North Carolina (UNC) and North Carolina State University (NCSU). He is an author of over 100 publications as well as several book chapters related to biomedical materials. His accolades include the UNC Jefferson-Pilot Fellowship in Academic Medicine.</p>

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