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Author: G. Calvosa
Publisher: Springer Science & Business Media
Published: 2008-09-28
Total Pages: 41
ISBN-13: 3540738029
DOWNLOAD EBOOK →This publication describes the indications and the various phases of technical rehabilitation to be used after surgical treatment of lumbar degenerative spine. A work of fundamental importance, it will benefit those interested in this area of orthopaedics.
Author: G. Calvosa
Publisher: Springer
Published: 2009-08-29
Total Pages: 40
ISBN-13: 9783540868194
DOWNLOAD EBOOK →This publication describes the indications and the various phases of technical rehabilitation to be used after surgical treatment of lumbar degenerative spine. A work of fundamental importance, it will benefit those interested in this area of orthopaedics.
Author: James J. Yue
Publisher: Elsevier Health Sciences
Published: 2008-06-11
Total Pages: 817
ISBN-13: 1437721672
DOWNLOAD EBOOK →New motion-preserving devices are revolutionizing spine surgery...but the learning curve for these operations is steep, and great attention must be given to patient and device selection and the perfect execution of each procedure. Only one reference spells out exactly how to perform these new techniques...and its peerless author team, comprised of key investigators involved in the devices' actual clinical trials, is uniquely qualified to help you get the best results! These global leaders in this area discuss the advantages and disadvantages of the full range of non-fusion technologies...and present the step-by-step, richly illustrated operative guidance you need to achieve optimal outcomes! Select the best device and approach for each patient! * cervical total disc arthroplasty * lumbar total disc arthroplasty * lumbar partial disc replacement: nucleus replacement * lumbar posterior dynamic stabilization: pedicle screw based * lumbar posterior dynamic stabilization: interspinous based * lumbar facet replacement Produce optimal outcomes with detailed advice on... * advantages and disadvantages of each option * indications and contraindications * patient selection * interpretation of imaging studies * surgical anatomy and biomechanics * surgical techniques * tips and pearls See how to perform each technique, thanks to step-by-step, full-color illustrations
Author: Carol McFarland
Publisher: North Atlantic Books
Published: 2001-11-15
Total Pages: 232
ISBN-13: 9781556433801
DOWNLOAD EBOOK →This manual, written for healthcare professionals, explores the pros and cons of a wide range of currently practiced rehabilitation methods, and includes tests, illustrated exercises, and worksheets for evaluating patients.
Author: Gilles G. Dubois
Publisher: Sauramps Médical
Published: 2006
Total Pages: 299
ISBN-13: 9782840234692
DOWNLOAD EBOOK →Author: Daniel H. Kim
Publisher: Georg Thieme Verlag
Published: 2015-06-08
Total Pages: 482
ISBN-13: 1604068744
DOWNLOAD EBOOK →Thieme congratulates Frank P. Cammisa on being chosen by New York magazine for its prestigious 'Best Doctors 2015' list. Dynamic Reconstruction of the Spine, Second Edition is the most up-to-date resource on the instrumentation, technologies, and fundamental science integral to achieving spine motion preservation and stabilization. It is a completely revised text that includes not only the latest technologies and surgical approaches, including MIS techniques, but also significantly more detail on the clinical biomechanics of the spine than the previous edition. Readers will appreciate the guidance this book provides on how to: successfully adopt new technology, find appropriate indications, address common safety and efficacy issues, and answer health economics questions for ethics committees and payers. Key Features: A substantial revision, with entirely new chapters in three quarters of the book, including a large section on basic as well as more advanced biomechanics topics Highly visual - contains 20% more figures than the previous edition Discusses and explains current advances in genetic and molecular technologies used to repair the spinal disc Includes an unbiased critique of the pro cons, clinical outcomes, and comparative outcomes of different devices This new edition is an indispensable reference for orthopedic surgeons, neurosurgeons, and radiologists, as well as residents and fellows seeking the latest information on the technologies used in spine motion preservation and stabilization.
Author: Bharath K. Parepalli
Publisher:
Published: 2009
Total Pages: 204
ISBN-13:
DOWNLOAD EBOOK →Fusion has been the gold standard treatment for treating the disc degeneration. Fusion surgeries restrict the motion at the implanted level there by imposing additional load at the adjacent levels. Many clinical studies have showed that adjacent segment degeneration was observed in patients over time. In order to overcome problems with fusion devices, dynamic stabilization systems are being used to treat disc degeneration related problems. These implants restore intersegmental motion across the implanted level with minimal effects on the adjacent levels. In vitro cadaveric testing was conducted on seven harvested sheep spines using established protocols. Axient was implanted in the spines 3 months prior to sacrificing. Main aim of this testing is to see if the performance is altered by the presence of surrounding muscle tissue. The specimens were prepared and tested under load control protocol. All six loading modes were tested by applying a pure moment of 10Nm (in steps of 2.5Nm) and angular displacement was calculated for the following cases: 1) Intact spine + Axient with surrounding muscle tissue, 2) Intact spine + Axient with muscle tissue removed, 3) Intact spine (with implant removed). Relative motion of L4 vertebra with respect to L5 was calculated. Statistical analysis was performed (on the implanted level data) to see if there is a statistical significance between cases 1 and 2. Biomechanical testing was also performed on 4 human cadavers to observe the trend with Axient compared to FE results. A validated 3-D non linear finite element model of the L3-S1 lumbar spine was used to evaluate biomechanics of various dynamic stabilization systems in comparison with traditional rigid rod system. The model was modified at L4-L5 level to simulate three different dynamic stabilization systems (DSFM-1, DSFM-2 and Axient, Innovative Spinal Technologies Inc., Mansfield, MA). Grade I was simulated at L4-L5 level. Follower preload of 400N and a 10Nm bending moment was applied to simulate physiological flexion, extension, lateral bending and axial rotation. Range of motion (ROM), intra discal pressure (IDP) and facet loads were calculated for all the models. Implant with better performance was then compared with fusion system in both grade I and grade II degenerated spines. In vitro results showed that there is no significant difference in the performance of the Axient with and without surrounding muscle tissue in terms of range of motion. Coming to FE results, Axient performed better over the other two implants (DSFM-1 and DSFM-2). Axient device was able to restore the motion at the implanted level compared to fusion device. Higher motions were observed at the adjacent level (L5-S1) with fusion device compared to intact and injured models. Both devices were able to stabilize the diseased spine and unload the treated disc.
