Full Description
This textbook delivers a comprehensive, systematic and clinically grounded overview of the latest developments in regenerative orthopaedic surgery, encompassing the latest surgical techniques, injection therapies, next generation orthobiologics, and emerging gene therapies. It explores the integration of AI-driven diagnostics covering computer vision, deep learning, and machine learning into musculoskeletal assessment and clinical decision making. Core scientific principles of biology, chemistry, physics, and time are discussed as a foundation for musculoskeletal regeneration. Highlights the role of sleep regulation, biomechanics, psychology, and rehabilitative processes in supporting musculoskeletal repair and functional recovery. This textbook offers a practical framework for surgeons to clinicians to implement regenerative strategies and AI in clinical practice in the evolving field of musculoskeletal regeneration.
Musculoskeletal Regeneration Medicine provides a unique, comprehensive, and accessible resource for those seeking to understand and apply the latest discoveries and techniques in this exciting area of healthcare. The book is aimed at medical professionals, researchers, and students, equipping readers with a broad understanding of the core principles and techniques currently revolutionizing orthopaedics and regeneration medicine. From stem cell technologies, growth factor injections, bracing, and surgical realignment to a detailed understanding of the biological intricacies that drive cell regeneration, this text provides an in-depth, interdisciplinary perspective.
Contents
The Principles of Musculoskeletal Regeneration: An Engineering Approach.- Unlocking the Biochemical Science of Cell Regeneration.- Biomechanics: Exploring the Role in Musculoskeletal Regeneration.- Sleep and Regeneration: Uncovering the Biological Connection.- Timing, Computer Vision, and Deep Learning: Advancements in Regeneration.- Clinical Applications of Musculoskeletal Regeneration: From Theory to Practice.- Injection Therapy in Regeneration Medicine: PRP, BMAC, mFat, and Hydrogel.- Groin, Core, Hernias, and ASIA Syndrome: Challenges and Regeneration Strategies.- Spine and Back Regeneration: Alignment, Balance, and Healing. Knee Regeneration: Meniscus and Cartilage Repair Strategies.- Knee Osteotomy: Aligning the Physics for Optimal Regeneration. Ankle Fracture and Replacement: Regeneration Strategies for Ankle Health.- Achilles Tendon and Ankle Cartilage Regeneration: Restoring Function and Mobility.- Shoulder Cuff Tear and Tendon Regeneration: Advancements in Treatment.- Elbow Ligament and Instability: Regeneration Strategies for Optimal Healing.- Hip Osteitis Pubis and Adductor Tendon Regeneration: Addressing Challenges and Promoting Healing.- Hip Cartilage and Labral Tear Regeneration: Restoring Joint Health and Function.- Upper Limb Joint Replacement and Regeneration Principles: Enhancing Function and Quality of Life.- Lower Limb Joint Replacement and Regeneration Principles: Restoring Mobility and Function.- Clinical Applications of Sleep in Musculoskeletal Regeneration: Promoting Healing and Recovery.- Rapid Biological Recovery Physiotherapy: Accelerating Regeneration through Rehabilitation.- Psychology in Musculoskeletal Regeneration: Addressing Mental and Emotional Well-being.- The Future of Regeneration Medicine: Advancements and Emerging Technologies.
