Bio-Materials and Prototyping Applications in Medicine
Editat de Paulo Jorge Bártolo, Bopaya Bidandaen Limba Engleză Hardback – 10 dec 2007
Summarizes state-of-the-art research in prototyping of bio-materials for medical applications
Provides a wide variety of examples of medical applications using rapid prototyping, including tissue engineering, dental applications, and bone replacement
Addresses the issues involved with using solid freeform fabrication/rapid prototyping/layered manufacturing that is becoming very important in the biomaterials area
Discusses the emergence of computer aided design in the development of prosthetic devices
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Specificații
ISBN-13: 9780387476827
ISBN-10: 0387476822
Pagini: 216
Ilustrații: XI, 216 p.
Dimensiuni: 155 x 235 x 19 mm
Greutate: 0.51 kg
Ediția:2008
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States
ISBN-10: 0387476822
Pagini: 216
Ilustrații: XI, 216 p.
Dimensiuni: 155 x 235 x 19 mm
Greutate: 0.51 kg
Ediția:2008
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States
Public țintă
ResearchCuprins
Metallic and Ceramic Biomaterials: Current and Future Developments.- Polymers, Composites and Nano Biomaterials: Current and Future Developments.- Polyurethane Based Materials with Applications in Medical Devices.- Rapid Prototyping of Hydrogels to Guide Tissue Formation.- Engineered Scaffold Architecture Influences Soft Tissue Regeneration.- Customised Implants for Bone Replacement and Growth.- Direct Digital Manufacturing of Complex Dental Prostheses.- Digital Design and Fabrication in Dentistry.- The Development of an Artificial Finger Joint.- Computer-aided Development of Mega Endo-Prostheses.
Textul de pe ultima copertă
Bio-Materials and Prototyping Applications in Medicine
Bio-materials and prototyping (both virtual and physical) are becoming more and more prevalent in medicine. These materials and technologies are used to design, develop, and manufacture medical devices and instruments, and to fabricate drug dosage forms. These processes are also increasingly being used by surgeons to plan complex operations, especially in the craniofacial and maxillofacial areas. Further, prototyping shows promise in the area of tissue engineering through the use of biomaterials including the direct manufacture of biologically active implants. Bio-Materials and Prototyping Applications in Medicine focuses on bio-materials and prototyping applications in medical environments. The applications that are discussed integrate bio-materials, CAD, and physical prototyping techniques.
Drawing upon the collective knowledge of renowned experts, Paulo Bártolo and Bopaya Bidanda have assembled a wide ranging treatise on biomaterials and prototyping applications in medicine that includes:
Bio-materials and prototyping (both virtual and physical) are becoming more and more prevalent in medicine. These materials and technologies are used to design, develop, and manufacture medical devices and instruments, and to fabricate drug dosage forms. These processes are also increasingly being used by surgeons to plan complex operations, especially in the craniofacial and maxillofacial areas. Further, prototyping shows promise in the area of tissue engineering through the use of biomaterials including the direct manufacture of biologically active implants. Bio-Materials and Prototyping Applications in Medicine focuses on bio-materials and prototyping applications in medical environments. The applications that are discussed integrate bio-materials, CAD, and physical prototyping techniques.
Drawing upon the collective knowledge of renowned experts, Paulo Bártolo and Bopaya Bidanda have assembled a wide ranging treatise on biomaterials and prototyping applications in medicine that includes:
- Summary of state-of-the-art research in prototyping of bio-materials for medical applications;
- The issues involved with using solid freeform fabrication/rapid prototyping/layered manufacturing that is becoming very important in the biomaterials area;
- In-depth discussion on the emergence of computer aided design in the development of prosthetic devices.
Caracteristici
Summarizes state-of-the-art research in rapid prototyping of bio-materials for medical applications Provides a wide variety of examples of medical applications using rapid prototyping, including tissue engineering, dental applications, and bone replacement Addresses the issues involved with using solid freeform fabrication/rapid prototyping/layered manufacturing that is becoming very important in the biomaterials area Discusses the emergence of computer aided design in the development of prosthetic devices
Notă biografică
Paulo Bartolo is Professor of Advanced Manufacturing Processes at the Polytechnic Institute of Leiria (Portugal), Adjunct Professor at Queensland University of Technology (Australia), Visiting Professor at Nanyang University (Singapore), and Professor of Biomaterials (Catedra UNESCO) at the University of Habana (Cuba). He is a CIRP (The International Academy of Production Engineering) member, Vice-Chairman of the CIRP Scientific Technical Committee on Electro-Physical and Chemical Processes, GARPA (Global Alliance of Rapid Prototyping Associations) Portuguese Representative and Member of the Direction Board of the International Society of Biomanufacturing, Scientific advisor of the Research Institute in Biofabrication (BIOFABRIS) funded by the Brazilian Government and regional coordinator of the working group of Rapid Manufacturing Platform.
Bopaya Bidanda is the Ernest E. Roth Professor and Chairman of the Department of Industrial Engineering at theUniversity of Pittsburgh. His research is in the area of manufacturing systems with a special focus on group technology, reverse engineering, cellular manufacturing, lean manufacturing, human issues in manufacturing, product development, and manufacturing modernization.
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Bio-materials and prototyping (both virtual and physical) is becoming more and more prevalent in medicine. These materials and technologies are used to design, develop and manufacture medical devices and instrumentation, and to fabricate drug dosage forms. This process is also increasingly being used by surgeons to plan complex operations, especially in the craniofacial and maxillofacial areas. Further, prototyping shows promise in the area of tissue engineering through the use of biomaterials including the direct manufacture of biologically active implants. This book focuses on bio materials and prototyping applications in medical environments. The applications that are discussed integrate bio-materials, CAD, and physical prototyping techniques.
Summarizes state-of-the-art research in prototyping of bio-materials for medical applications
Provides a wide variety of examples of medical applications using rapid prototyping, including tissue engineering, dental applications, and bone replacement
Addresses the issues involved with using solid freeform fabrication/rapid prototyping/layered manufacturing that is becoming very important in the biomaterials area
Discusses the emergence of computer aided design in the development of prosthetic devices
Bio-materials and prototyping (both virtual and physical) is becoming more and more prevalent in medicine. These materials and technologies are used to design, develop and manufacture medical devices and instrumentation, and to fabricate drug dosage forms. This process is also increasingly being used by surgeons to plan complex operations, especially in the craniofacial and maxillofacial areas. Further, prototyping shows promise in the area of tissue engineering through the use of biomaterials including the direct manufacture of biologically active implants. This book focuses on bio materials and prototyping applications in medical environments. The applications that are discussed integrate bio-materials, CAD, and physical prototyping techniques.
Summarizes state-of-the-art research in prototyping of bio-materials for medical applications
Provides a wide variety of examples of medical applications using rapid prototyping, including tissue engineering, dental applications, and bone replacement
Addresses the issues involved with using solid freeform fabrication/rapid prototyping/layered manufacturing that is becoming very important in the biomaterials area
Discusses the emergence of computer aided design in the development of prosthetic devices