Cover image for Orthopaedic biomaterials in research and practice
Title:
Orthopaedic biomaterials in research and practice
Personal Author:
Publication Information:
Boca Raton, FL : CRC Press, 2014
Physical Description:
xxv, 438 p. : ill. ; 26 cm.
ISBN:
9781466503502

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32050000000343 RD755.5 B53 2014 Open Access Book Book
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30000010344218 RD755.5 B53 2014 Open Access Book Book
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Summary

Summary

Revised, expanded, and updated, Orthopaedic Biomaterials in Research and Practice, Second Edition introduces materials science and applies it to medical research and treatment. This book incorporates math and engineering, which makes it accessible to trainees and others working in the industry who are lacking primary mathematical and engineering training.

What's New in the Second Edition:

In the second edition, the new material includes regeneration, hybrid and replant materials, tissue engineering, electrical stimulation for tissue growth and repair, modeling of material behavior in service, and long-term function of materials in patients. It explores tools for non-destructive and destructive analysis of explanted devices, and provides updates on all material classes including shape memory and degradable alloys, fracture-resistant ceramics, and bioabsorbable polymers. It provides a compendium for implant host response including in-depth discussion of metallosis and hypersensitive response. It also adds new case studies, worked problems, and a complete self-evaluation test with annotated answers.

Includes focused, practical study questions after each chapter Presents extensive, detailed figures accompanying example problems and concepts Provides a one-stop reference for understanding all biomaterials that are used in contemporary orthopaedic surgery and beyond Introduces key concepts of relevance in each chapter

Orthopaedic Biomaterials in Research and Practice, Second Edition serves as a textbook for orthopaedic residents. It can also serve as a review for the Orthopaedists In-Training Examination (OITE), the Orthopaedic Self-Assessment Examination, or the Orthopaedic Board Examination.


Author Notes

Dr. Kevin L. Ong is a senior managing engineer in Exponent's Biomedical Engineering practice. He holds degrees in mechanical engineering (B.S. and Ph.D., Cornell University). His area of interest is in product design evaluation and failure analysis of medical devices. Dr. Ong has received two awards from the American Association of Hip and Knee Surgeons for his research on clinical outcomes, as well as an award from the British Orthopaedic Research Society/British Orthopaedic Trainees Association for his research in hip resurfacing. Dr. Ong also currently holds a visiting research professor appointment at the Drexel University School of Biomedical Engineering, Science and Health Systems, Philadelphia, PA.

Jonathan Black, FBSE, adjunct professor of biomedical engineering (Cornell University), holds degrees in physics (BS, Cornell University), engineering science (ME, The Pennsylvania State University) and metallurgy (biomaterials) (PhD, University of Pennsylvania). Before his appointment as the first occupant of the Hunter Chair of Bioengineering at Clemson in 1988, he was for 17 years a member of the Department of Orthopaedic Surgery at the University of Pennsylvania with a secondary appointment in the Department of Bioengineering. In 1992-5, he was a Senior Visiting Fellow in the IRC for Biomaterials at Queen Mary and Westfield College (London, UK), with support from an SERC Fellowship. In 2011, he was appointed adjunct professor of biomedical engineering at Cornell University, Ithaca, NY, USA.

Dr. Scott Lovald holds degrees in mechanical engineering (B.S. and Ph.D., University of New Mexico), manufacturing engineering (M.E., University of New Mexico), and business (M.B.A., University of New Mexico). He is currently a senior associate in Exponent's Biomedical Engineering Practice. His past experience has included various positions focused on medical implant design and research. Immediately prior to working at Exponent, Dr. Lovald initiated and directed the research, seed funding, design, manufacturing, FDA 510(k) clearance, and post-market study Investigational Review Board approval of a novel trauma system that has been the subject of numerous peer-reviewed journal publications and subsequently introduced into a Level I trauma center.


Table of Contents

Forces and Equilibrium
Deformation
Mechanical Properties
Viscoelasticity
Properties of Natural Materials
Polymers
Metals
Ceramics and Composites
Tissue Engineering
Hybrid, Combination and Replant Materials
Friction and Wear
Corrosion and Degradation
Fixation
Host Response
Testing and Introduction of New Materials
Materials Retrieval and Analysis
Annotated Bibliography
Index