Description
Taylor & Francis Inc Orthopedic Tissue Engineering Basic Science And Practices by Victor M. Goldberg , Arnold I. Caplan
This book explores the basic science and clinical concepts impacting bone tissue engineering; considers advances in gene therapy for enhancement of bone and cartilage repair; and presents the biomechanical factors affecting articular cartilage engineering. Basic science; principles of tissue engineering and regeneration of skeletal tissue; tissue engineering and morphogenesis - role of morphogenetic proteins - Harri Reddiarr; cell-based approaches to orthopaedic tissue engineering - E.J. Caterson, Rocky Tuant, and Scott Bruder; Intraoperative harvest and concentration of human bone marrow osteoprogenitors for enhancement of spinal fusion - James E. Fleming, Jr.; genomics - Matthew Warman; biodegradable scaffolds - Johnna Temenoff, Emily Steinbis, and Antonio Miklos; biomechanical factors in tissue engineering of articular cartilage - Farshid Guilak; bioreactors for orthopaedic tissue engineering - Gordana Vunjak-Novakovic, B. Oradovici, H. Madry, G. Altman, and D.L Kaplan; clinically applicable animal models in tissue engineering - Ernst Hunziker; clinical application; bone tissue engineering - basic science and clinical concepts - Safdar Khan and Joseph Lane; overview - articular cartilage - Joseph Buckwalter; cartilage - current applications, Bernd Kinner and Myron Spector; tissue engineering of meniscus - Brian Johnstone, Peter Angele, Jung Yoo, and Victor Goldberg; tissue engineering of intervertebral disc - Jung Yoo and Brian Johnstone; clinical applications of orthopaedic tissue engineering - ligament/tendon - Lee Kaplan and Freddie Fu; functional engineered skeletal muscle - Robert G. Dennis; gene therapy to enhance bone and cartilage repair - Jay Lieberman.