Nonfusion Techniques for the Spine: Motion Preservation and Balance
Edited by James H. Maxwell, MD, FACS; Steven L. Griffith, PhD; William C. Welch, MD, FACS, FICS
Nonfusion Techniques for the Spine: Motion Preservation & Balance presents information on spine surgery implants and highlights the state of the art in total artificial discs. It addresses the features and benefits of the debate between motion-sparing devices versus motion-eliminating devices as well as emphasizes the fundamental, basic biomechanical principles applied to spinal implant development. In addition, this book offers valuable pearls of wisdom from developers and clinical users.
Individual chapters dedicated to specific spinal implants that are being used in clinical practice and investigative studies, as well as those on the horizon, are included. Informative chapters on lumbar discs are written by the developers of the products and/or the lead clinical investigators. These individuals are experts on the nuances and technical aspects of the devices featured. Through the book's balanced approached to the pros, cons, and limitations of each technology, readers will find this an essential resource for determining which device is best suited for each individual patient.
A Unique Collaboration
A rare meeting of the minds provides the great allure of this book and gives it an individuality all its own. One of the book's strongest attributes is its collaborative nature. The editors, researchers, and engineers from industry and academia are teamed with contributing spine surgeons and medical professionals. Nonfusion Techniques for the Spine: Motion Preservation & Balance effectively captures this unique collaboration and results in a book with clinical and scientific viewpoints.
Biomechanics and Clinical Applications
Weaving together biomechanics and clinical applications, the book's two major divisions, is an important feature of the overall book but also of each individual chapter. The clinical needs and patient emphasis will guide a scientific engineer through the development process needed for new implants, whereas the scientific, mathematical, and engineering principles provide essential knowledge to clinicians. The combination of these two thought processes is very powerful and provides a comprehensive look at the latest information on spine surgery implants.
For the spine surgeon interested in providing patients with the latest treatments and procedures in motion preservation technology, this book is a must. It is beautifully illustrated in 4-color throughout and packed with step-by-step surgical instructions that guide the reader through each surgical technique. An accompanying DVD features the key techniques discussed in the book.
This book is uniquely positioned to appeal to the general practicing surgeon, the academic professor, and the industry researcher/executive and is a must read for all involved in the field of spine surgery.
2006. Hardcover, 379 pages, 400 illustrations. 1 DVD.