Kurtz is the Director of an orthopedic implant retrieval program in Philadelphia which is affiliated with Drexel University and Thomas Jefferson University. He has funding from the National Institutes for Health to stdy UHMWPE changes after implanatation in the body, as well as to develop new computer-based tools to predict the performance of new UHMWPE materials.ĭr. #2014 chevy volt range city upgradeKurtz has authored national and international standards for medical upgrade UHMWPE.Īs a principle engineer at Exponent, an international engineering and scientific consulting company, his research on UHMWPE is supported by several major orthopedic manufacturers. He has pioneered the development of new test methods for the material in orthopedics. He has published dozens of papers and several book chapters related to UHMWPE used in joint replacement. Kurtz has been researching ultra-high molecular weight polyehtylene(UHMWPE) for use in orthopedics for over 10 years. Part 3 - PEEK Applications in Medical Devicesġ4 Phospholipid Polymer-Grafted Poly(Ether-Ether-Ketone) by Self-Initiated Surface Graftingġ5 Development and Clinical Performance of PEEK Intervertebral Cagesġ6 Dynamic Stabilization and Semirigid PEEK Rods for Spinal Fusionġ7 Applications of Polyetheretherketone in Arthroscopyġ9 Applications of Polyetheretherketone in Craniomaxillofacial Surgical ReconstructionĢ0 Applications of PEEK in the Dental FieldĢ1 Isoelastic PEEK Implants for Total Joint ReplacementĢ2 Biologic Responses to Polyetheretherketone (PEEK) Wear ParticlesĢ3 Biotribology of PAEK Bearings in Multidirectional Pin-on-Disk TestersĢ4 PEEK Biomaterials in Total Joint ReplacementĢ5 PEEK-on-Ceramic Cervical Disc Arthroplastyĭr. Part 1 - PEEK Foundations, Properties, and BehaviorĢ Synthesis and Processing of PEEK for Surgical ImplantsĤ Morphology and Crystalline Architecture of Polyaryletherketonesĥ Fracture, Fatigue, and Notch Behavior of PEEKĦ Chemical and Radiation Stability of PEEKħ Additive Manufacturing of Polyaryletherketonesġ0 Thermal Plasma Spray Deposition of Titanium and Hydroxyapatite on PEEK Implantsġ1 Surface Modification Techniques of PEEK, Including Plasma Surface Treatmentġ2 Bioactive Polyaryletherketone Composites The book also covers additive manufacturing, which has made significant inroads with PEEK in the past 5 years as well by introducing the prospect of patient-specific implants.Like the 1st edition, the updated Handbook brings together experts in many different facets related to PEEK clinical performance as well as in the areas of materials science, tribology, and biology to provide a complete reference for specialists in the field of plastics, biomaterials, medical device design, and surgical applications.Useful for materials scientists and biomedical engineers, both in industry and academia, the book is a one-stop shop for information on PEEK as a biomaterial-including in-depth coverage of materials properties-while also providing cutting-edge information on applications and combinations of the material. New PEEK formulations have been developed incorporating hydroxyapatite, additives to combat infection, and surface grafted polymers to improve lubrication. Durability, biocompatibility, and excellent resistance to aggressive sterilization procedures make PEEK a polymer of choice, replacing metal in orthopedic implants, from spinal implants and knee replacements to finger joints and dental implants.The new edition of this authoritative work sees the book expand from 17 chapters to 26 chapters to match the expansion in applications in PEEK-from spinal cages to spinal rods and disc replacements hip and knee joint replacement dental trauma and sports medicine. PEEK biomaterials are currently used in hundreds of thousands of spinal fusion patients around the world every year.
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