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Journal Abstract Search

147 related items for PubMed ID: 25559294

  • 1. Characterization of the behavior of a novel low-stiffness posterior spinal implant under anterior shear loading on a degenerative spinal model.
    Melnyk AD, Chak JD, Singh V, Kelly A, Cripton PA, Fisher CG, Dvorak MF, Oxland TR.
    Eur Spine J; 2015 Apr; 24(4):775-82. PubMed ID: 25559294
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  • 2. Load transfer characteristics between posterior spinal implants and the lumbar spine under anterior shear loading: an in vitro investigation.
    Melnyk AD, Wen TL, Kingwell S, Chak JD, Singh V, Cripton PA, Fisher CG, Dvorak MF, Oxland TR.
    Spine (Phila Pa 1976); 2012 Aug 15; 37(18):E1126-33. PubMed ID: 22565384
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  • 3. An in vitro model of degenerative lumbar spondylolisthesis.
    Melnyk AD, Kingwell SP, Zhu Q, Chak JD, Cripton PA, Fisher CG, Dvorak MF, Oxland TR.
    Spine (Phila Pa 1976); 2013 Jun 15; 38(14):E870-7. PubMed ID: 23558441
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  • 4. The effect of posterior non-fusion instrumentation on segmental shear loading of the lumbar spine.
    Charles YP, Persohn S, Rouch P, Steib JP, Sauleau EA, Skalli W.
    Orthop Traumatol Surg Res; 2014 Sep 15; 100(5):461-7. PubMed ID: 25106101
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  • 6. Biomechanical evaluation of the Total Facet Arthroplasty System® (TFAS®): loading as compared to a rigid posterior instrumentation system.
    Sjovold SG, Zhu Q, Bowden A, Larson CR, de Bakker PM, Villarraga ML, Ochoa JA, Rosler DM, Cripton PA.
    Eur Spine J; 2012 Aug 15; 21(8):1660-73. PubMed ID: 22407270
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  • 9. Biomechanical effect of transforaminal lumbar interbody fusion and axial interbody threaded rod on range of motion and S1 screw loading in a destabilized L5-S1 spondylolisthesis model.
    Fleischer GD, Hart D, Ferrara LA, Freeman AL, Avidano EE.
    Spine (Phila Pa 1976); 2014 Jan 15; 39(2):E82-8. PubMed ID: 24150429
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  • 10. In vitro biomechanical study to quantify range of motion, intradiscal pressure, and facet force of 3-level dynamic stabilization constructs with decreased stiffness.
    Lee JK, Gomez J, Michelsen C, Kim Y, Moldavsky M, Chinthakunta SR, Khalil S.
    Spine (Phila Pa 1976); 2013 Oct 15; 38(22):1913-9. PubMed ID: 23921330
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  • 14. Biomechanical analysis of an expandable lateral cage and a static transforaminal lumbar interbody fusion cage with posterior instrumentation in an in vitro spondylolisthesis model.
    Mantell M, Cyriac M, Haines CM, Gudipally M, O'Brien JR.
    J Neurosurg Spine; 2016 Jan 15; 24(1):32-8. PubMed ID: 26384133
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  • 15. Biomechanical evaluation of the kinematics of the cadaver lumbar spine following disc replacement with the ProDisc-L prosthesis.
    Demetropoulos CK, Sengupta DK, Knaub MA, Wiater BP, Abjornson C, Truumees E, Herkowitz HN.
    Spine (Phila Pa 1976); 2010 Jan 01; 35(1):26-31. PubMed ID: 20042953
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  • 16. The role of cage height on the flexibility and load sharing of lumbar spine after lumbar interbody fusion with unilateral and bilateral instrumentation: a biomechanical study.
    Du L, Sun XJ, Zhou TJ, Li YC, Chen C, Zhao CQ, Zhang K, Zhao J.
    BMC Musculoskelet Disord; 2017 Nov 21; 18(1):474. PubMed ID: 29162074
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  • 20. The effect of design parameters of interspinous implants on kinematics and load bearing: an in vitro study.
    Schilling C, Pfeiffer M, Grupp TM, Blömer W, Rohlmann A.
    Eur Spine J; 2014 Apr 21; 23(4):762-71. PubMed ID: 24549393
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