Advanced Biomaterials
Fundamentals, Processing, and Applications
Samenvatting
Enables readers to take full advantage of the latest advances in biomaterials and their applications.
Advanced Biomaterials: Fundamentals, Processing, and Applications reviews the latest biomaterials discoveries, enabling readers to take full advantage of the most recent findings in order to advance the biomaterials research and development. Reflecting the nature of biomaterials research, the book covers a broad range of disciplines, including such emerging topics as nanobiomaterials, interface tissue engineering, the latest manufacturing techniques, and new polymeric materials.
The book, a contributed work, features a team of renowned scientists, engineers, and clinicians from around the world whose expertise spans the many disciplines needed for successful biomaterials development. All readers will gain an improved understanding of the full range of disciplines and design methodologies that are used to develop biomaterials with the physical and biological properties needed for specific clinical applications.
Specificaties
Inhoudsopgave
<p>Preface xi</p>
<p>Contributors xv</p>
<p>About the Editors xxi</p>
<p>SECTION I</p>
<p>1 FUNDAMENTALS OF BIOMATERIALS AND BIOCOMPATIBILITY 3<br />Bikramjit Basu and Shekhar Nath</p>
<p>2 FUNDAMENTALS OF HYDROXYAPATITE AND RELATED CALCIUM PHOSPHATES 19<br />Racquel Zapanta LeGeros, Atsuo Ito, Kunio Ishikawa, Toshiro Sakae, and John P. LeGeros</p>
<p>3 MATERIALS FOR ORTHOPEDIC APPLICATIONS 53<br />Shekhar Nath and Bikramjit Basu</p>
<p>4 THE MICRO MACROPOROUS BIPHASIC CALCIUM PHOSPHATE CONCEPT FOR BONE RECONSTRUCTION AND TISSUE ENGINEERING 101<br />Guy Daculsi, Franck Jegoux, and Pierre Layrolle</p>
<p>5 SCIENCE AND TECHNOLOGY INTEGRATED TITANIUM DENTAL IMPLANT SYSTEMS 143<br />Yoshiki Oshida and Elif Bahar Tuna</p>
<p>6 INJECTABLE HYDROGELS AS BIOMATERIALS 179<br />Lakshmi S. Nair, Cato T. Laurencin, and Mayank Tandon</p>
<p>7 NANOMATERIALS FOR IMPROVED ORTHOPEDIC AND BONE TISSUE ENGINEERING APPLICATIONS 205<br />Lijie Zhang, Sirinrath Sirivisoot, Ganesh Balasundaram, and Thomas J. Webster</p>
<p>SECTION II</p>
<p>8 INTRODUCTION TO PROCESSING OF BIOMATERIALS 245<br />Dhirendra S. Katti, Shaunak Pandya, Meghali Bora, and Rakesh Mahida</p>
<p>9 LASER PROCESSING OF ORTHOPEDIC BIOMATERIALS 277<br />Rajarshi Banerjee and Soumya Nag</p>
<p>10 FUNCTIONALLY GRADED ALL CERAMIC HIP JOINT 323<br />Omer Van der Biest, Guy Anné, Kim Vanmeensel, and Jef Vleugels</p>
<p>11 MEDICAL DEVICES BASED ON BIOINSPIRED CERAMICS 357<br />Pío González, Julián Martínez–Fernández, Antonio R. de Arellano–López, and Mrityunjay Singh</p>
<p>12 IONOMER GLASSES: DESIGN AND CHARACTERIZATION 411<br />Artemis Stamboulis and Fei Wang</p>
<p>13 DESIGNING NANOFIBROUS SCAFFOLDS FOR TISSUE ENGINEERING 435<br />Neha Arya, Poonam Sharma, and Dhirendra S. Katti</p>
<p>14 DESIGN OF SUPERMACROPOROUS BIOMATERIALS VIA GELATION AT SUBZERO TEMPERATURES CRYOGELATION 499<br />Fatima M. Plieva, Ashok Kumar, Igor Yu. Galaev, and Bo Mattiasson</p>
<p>SECTION III</p>
<p>15 BIOMATERIAL APPLICATIONS 535<br />Ashok Kumar, Akshay Srivastava, and Era Jain</p>
<p>16 CELL–BASED NANOCOMPOSITES AND BIOMOLECULES FOR BONE TISSUE ENGINEERING 551<br />Michelle Ngiam, Susan Liao, Casey Chan, and S. Ramakrishna</p>
<p>17 ORTHOPEDIC INTERFACE TISSUE ENGINEERING: BUILDING THE BRIDGE TO INTEGRATED MUSCULOSKELETAL TISSUE SYSTEMS 589<br />Helen H. Lu, Kristen L. Moffat, and Jeffrey P. Spalazzi</p>
<p>18 CELLS OF THE NERVOUS SYSTEM AND ELECTRICAL STIMULATION 613<br />Carlos Atico Ariza and Surya K. Mallapragada</p>
<p>19 PLACENTAL UMBILICAL CORD BLOOD: A TRUE BLOOD SUBSTITUTE 643<br />Niranjan Bhattacharya</p>
<p>20 SUPPORTED CELL MIMETIC MONOLAYERS AND THEIR BLOOD COMPATIBILITY 663<br />K. Kaladhar and Chandra P. Sharma</p>
<p>21 TITANIUM NITRIDE AND DIAMOND LIKE CARBON COATINGS FOR CARDIOVASCULAR APPLICATIONS 677<br />C.V. Muraleedharan and G.S. Bhuvaneshwar</p>
<p>INDEX 707</p>