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Journal Abstract Search

258 related items for PubMed ID: 26796712

  • 21. Technical factors related to the incidence of adjacent superior segment facet joint violation after transpedicular instrumentation in the lumbar spine.
    Chen Z, Zhao J, Xu H, Liu A, Yuan J, Wang C.
    Eur Spine J; 2008 Nov; 17(11):1476-80. PubMed ID: 18795343
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  • 22. Analysis of risk factors for adjacent superior vertebral pedicle-induced facet joint violation during the minimally invasive surgery transforaminal lumbar interbody fusion: a retrospective study.
    Zeng ZL, Jia L, Xu W, Yu Y, Hu X, Jia YW, Wang JJ, Cheng LM.
    Eur J Med Res; 2015 Sep 24; 20():80. PubMed ID: 26399320
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  • 24. Minimally invasive lumbar pedicle screw fixation using cortical bone trajectory - Screw accuracy, complications, and learning curve in 100 screw placements.
    Dayani F, Chen YR, Johnson E, Deb S, Wu Y, Pham L, Singh H.
    J Clin Neurosci; 2019 Mar 24; 61():106-111. PubMed ID: 30420203
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  • 27. Incidence of and risk factors for superior facet violation in minimally invasive versus open pedicle screw placement during transforaminal lumbar interbody fusion: a comparative analysis.
    Lau D, Terman SW, Patel R, La Marca F, Park P.
    J Neurosurg Spine; 2013 Apr 24; 18(4):356-61. PubMed ID: 23394166
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  • 28. Evaluation of the Fixation Strength of Pedicle Screws Using Cortical Bone Trajectory: What Is the Ideal Trajectory for Optimal Fixation?
    Matsukawa K, Taguchi E, Yato Y, Imabayashi H, Hosogane N, Asazuma T, Nemoto K.
    Spine (Phila Pa 1976); 2015 Aug 01; 40(15):E873-8. PubMed ID: 26222663
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  • 31. Rates of Upper Facet Joint Violation in Minimally Invasive Percutaneous and Open Instrumentation: A Comparative Cohort Study of Different Insertion Techniques.
    Archavlis E, Amr N, Kantelhardt SR, Giese A.
    J Neurol Surg A Cent Eur Neurosurg; 2018 Jan 01; 79(1):1-8. PubMed ID: 28672411
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  • 32. Robotic-Navigated Percutaneous Pedicle Screw Placement Has Less Facet Joint Violation Than Fluoroscopy-Guided Percutaneous Screws.
    Katsevman GA, Spencer RD, Daffner SD, Bhatia S, Marsh RA, France JC, Cui S, Dekeseredy P, Sedney CL.
    World Neurosurg; 2021 Jul 01; 151():e731-e737. PubMed ID: 33962072
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  • 34. Posterior lumbar interbody fusion with cortical bone trajectory screw fixation versus posterior lumbar interbody fusion using traditional pedicle screw fixation for degenerative lumbar spondylolisthesis: a comparative study.
    Sakaura H, Miwa T, Yamashita T, Kuroda Y, Ohwada T.
    J Neurosurg Spine; 2016 Nov 01; 25(5):591-595. PubMed ID: 27231813
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  • 35. Lumbar spine superior-level facet joint violations: percutaneous versus open pedicle screw insertion using intraoperative 3-dimensional computer-assisted navigation.
    Tian W, Xu Y, Liu B, Liu Y, He D, Yuan Q, Lang Z, Lyu Y, Han X, Jin P.
    Chin Med J (Engl); 2014 Nov 01; 127(22):3852-6. PubMed ID: 25421179
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  • 36. Differences in bone mineral density of fixation points between lumbar cortical and traditional pedicle screws.
    Mai HT, Mitchell SM, Hashmi SZ, Jenkins TJ, Patel AA, Hsu WK.
    Spine J; 2016 Jul 01; 16(7):835-41. PubMed ID: 26656170
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  • 37. Safe placement of pedicle screw in lumbar spine with minimum three year follow-up: a case series and technical note.
    Zhang D, Gao X, Jiang J, Shen Y, Ding W, Cui H.
    Int Orthop; 2018 Mar 01; 42(3):567-573. PubMed ID: 29396802
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  • 38. Risk factor analysis of disc and facet joint degeneration after intersegmental pedicle screw fixation for lumbar spondylolysis.
    Meng H, Gao Y, Lu P, Zhao GM, Zhang ZC, Sun TS, Li F.
    J Orthop Surg Res; 2022 Apr 22; 17(1):247. PubMed ID: 35459170
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  • 40. Incidence and risk factors of adjacent segment disease following posterior decompression and instrumented fusion for degenerative lumbar disorders.
    Wang H, Ma L, Yang D, Wang T, Liu S, Yang S, Ding W.
    Medicine (Baltimore); 2017 Feb 22; 96(5):e6032. PubMed ID: 28151909
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