Does Wallis implant reduce adjacent segment degeneration above lumbosacral instrumented fusion?
about
Low Back Pain: Current Surgical ApproachesRole of lumbar interspinous distraction on the neural elements.Interspinous posterior devices: What is the real surgical indication?Topping-off technique prevents aggravation of degeneration of adjacent segment fusion revealed by retrospective and finite element biomechanical analysis.Safety and efficacy of a new percutaneously implantable interspinous process deviceComparison of the efficacy and safety between interspinous process distraction device and open decompression surgery in treating lumbar spinal stenosis: a meta analysis.Bone resorption during the first year after implantation of a single-segment dynamic interspinous stabilization device and its risk factors.Adjacent segment degeneration after lumbar spinal fusion compared with motion-preservation procedures: a meta-analysis.Interspinous process devices for the treatment of neurogenic intermittent claudication: a systematic review of randomized controlled trials.The Michel Benoist and Robert Mulholland yearly European Spine Journal Review: a survey of the "surgical and research" articles in the European Spine Journal, 2009.Wallis interspinous implantation to treat degenerative spinal disease: description of the method and case series.Adjacent segment degeneration and disease after lumbar fusion compared with motion-preserving procedures: a meta-analysis.Do in vivo kinematic studies provide insight into adjacent segment degeneration? A qualitative systematic literature review.Interspinous implant with unilateral laminotomy for bilateral decompression of degenerative lumbar spinal stenosis in elderly patients.Biomechanical evaluation of posterior lumbar dynamic stabilization: an in vitro comparison between Universal Clamp and Wallis systemsElastic resistance of the spine: Why does motion preservation surgery almost fail?Adjacent segmental degeneration following Wallis interspinous stabilization implantation: Biomechanical explanations and the value of magnetic resonance imaging.Could the Topping-Off Technique Be the Preventive Strategy against Adjacent Segment Disease after Pedicle Screw-Based Fusion in Lumbar Degenerative Diseases? A Systematic Review.Functional and radiological outcomes of semi-rigid dynamic lumbar stabilization adjacent to single-level fusion after 2 years.Biomechanical analysis of a new lumbar interspinous device with optimized topology.Biomechanical effect of interspinous process distraction height after lumbar fixation surgery: An in vitro model.Biomechanical investigation of lumbar hybrid stabilization in two-level posterior instrumentation.Role of muscle damage on loading at the level adjacent to a lumbar spine fusion: a biomechanical analysis.A prospective randomised controlled trial to assess the efficacy of dynamic stabilisation of the lumbar spine with the Wallis ligament.PEEK versus Silicon Interspinous Spacer for Reduction of Supradjacent Segment Degeneration following Decompression and Short-Segment Instrumentation for Degenerative Lumbar Spinal Stenosis
P2860
Q26799235-B5BF747F-DE83-4E8D-B51A-3176757B6BADQ30318109-E8F703C7-AB68-4DBB-B442-939B06153E4BQ30430735-95B958B8-DDAD-4EBE-A8F1-BA637F70EF6EQ35074253-05D3B3FA-2F1F-4662-8735-A27B4468D08DQ35083975-A2BF3D8E-CB78-47A8-9449-3CAF1926F382Q35206955-95DB3630-8805-4CE5-8584-E33C743864D1Q35630995-8E3A4954-C970-4495-8BE7-29D6E6955ECDQ35954525-FC388A1C-8309-4082-888F-B372B10A7E8CQ36017644-C0018E94-1BDB-4C9B-9D04-AA4953A823CBQ37660188-11CBB9DE-EB78-4175-A330-EEE9710E8290Q37886142-E49909EF-B2E1-4123-8F20-A67A498A8E61Q38204288-64A43630-6708-4F1A-9133-2E5728B574ABQ38521290-F094827C-F706-4207-9839-819C82DC182EQ40959692-6E197723-70B9-4EDC-867C-C212DBC06A09Q41998374-B63C492F-1DC6-43F6-9C54-6E8158115B2FQ42042392-7A2ED1F2-05D6-43D7-B280-CF553A548668Q42220603-56CC7D35-201B-4D56-B54D-18D970D16EB8Q42317744-3C638F88-578C-4A7F-BC36-11B574148D01Q46563742-F4F9844F-6CBF-4208-8268-3B5E101271D5Q47196193-282BA8F5-03E6-4965-9830-A2FDC62AE9EFQ47220593-5363C486-4DC4-41DC-B898-3BA16A92D51EQ48163404-1566AD39-A492-47D4-B5F1-D932B0FB4675Q50603207-02F66073-B2B1-4CF4-AFE5-D0FD9E42CFE2Q53487700-8F2C9113-F28D-4D2C-9EF3-C6FA2AF08AEEQ58795306-AE882704-E7AE-4B32-ACC9-8243C2B21C3B
P2860
Does Wallis implant reduce adjacent segment degeneration above lumbosacral instrumented fusion?
description
2009 nî lūn-bûn
@nan
2009 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@ast
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@en
type
label
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@ast
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@en
prefLabel
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@ast
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@en
P2093
P2860
P1476
Does Wallis implant reduce adj ...... mbosacral instrumented fusion?
@en
P2093
Andreas Zafiropoulos
Panagiotis Korovessis
Spyros Zacharatos
Thomas Repantis
P2860
P2888
P304
P356
10.1007/S00586-009-0976-Y
P577
2009-04-23T00:00:00Z