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Journal Abstract Search


134 related items for PubMed ID: 37805128

  • 21. Oblique lateral interbody fusion combined with different internal fixations for the treatment of degenerative lumbar spine disease: a finite element analysis.
    Zhang S, Liu Z, Lu C, Zhao L, Feng C, Wang Y, Zhang Y.
    BMC Musculoskelet Disord; 2022 Mar 04; 23(1):206. PubMed ID: 35246101
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  • 22. Finite Element Analysis of a New Pedicle Screw-Plate System for Minimally Invasive Transforaminal Lumbar Interbody Fusion.
    Li J, Shang J, Zhou Y, Li C, Liu H.
    PLoS One; 2015 Mar 04; 10(12):e0144637. PubMed ID: 26649749
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  • 26. Do expandable cage size and number of cages matter in transforaminal lumbar interbody fusion at L5-S1? A comparative biomechanical analysis using finite element modeling.
    Bakhaidar M, Harinathan B, Banurekha Devaraj K, Yoganandan N, Shabani S.
    J Neurosurg Spine; 2024 Aug 01; 41(2):209-215. PubMed ID: 38788233
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  • 27. Biomechanical Analysis of Lateral Lumbar Interbody Fusion Constructs with Various Fixation Options: Based on a Validated Finite Element Model.
    Zhang Z, Fogel GR, Liao Z, Sun Y, Liu W.
    World Neurosurg; 2018 Jun 01; 114():e1120-e1129. PubMed ID: 29609081
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  • 28. The effect of polymethylmethacrylate augmentation on the primary stability of stand-alone implant construct versus posterior stabilization in oblique lumbar interbody fusion with osteoporotic bone quality- a finite element study.
    Bereczki F, Turbucz M, Pokorni AJ, Hajnal B, Ronai M, Klemencsics I, Lazary A, Eltes PE.
    Spine J; 2024 Jul 01; 24(7):1323-1333. PubMed ID: 38307174
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  • 31. Does Cage Position Affect the Risk of Cage Subsidence After Oblique Lumbar Interbody Fusion in the Osteoporotic Lumbar Spine: A Finite Element Analysis.
    Qin Y, Zhao B, Yuan J, Xu C, Su J, Hao J, Lv J, Wang Y.
    World Neurosurg; 2022 May 01; 161():e220-e228. PubMed ID: 35123023
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  • 32. Effects of osteoporosis on the biomechanics of various supplemental fixations co-applied with oblique lumbar interbody fusion (OLIF): a finite element analysis.
    Liu ZX, Gao ZW, Chen C, Liu ZY, Cai XY, Ren YN, Sun X, Ma XL, Du CF, Yang Q.
    BMC Musculoskelet Disord; 2022 Aug 19; 23(1):794. PubMed ID: 35986271
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  • 34. Biomechanical Evaluation of Lateral Lumbar Interbody Fusion with Various Fixation Options for Adjacent Segment Degeneration: A Finite Element Analysis.
    Lee HJ, Lee SJ, Jung JM, Lee TH, Jeong C, Lee TJ, Jang JE, Lee JW.
    World Neurosurg; 2023 May 19; 173():e156-e167. PubMed ID: 36775239
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  • 35. Biomechanical evaluation of the hybrid pedicle screw-cortical bone trajectory technique in transforaminal lumbar interbody fusion to adjacent segment degeneration-finite element analysis.
    Zhang R, Kahaer A, Niu H, Wang J, Jumahan A, Qiu Y, Rexiti P, Guo H.
    BMC Musculoskelet Disord; 2023 May 23; 24(1):409. PubMed ID: 37221546
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  • 36. Biomechanical evaluation of two-level oblique lumbar interbody fusion combined with posterior four-screw fixation:A finite element analysis.
    Ge T, Hu B, Zhang Q, Xiao J, Wu X, Xia D.
    Clin Neurol Neurosurg; 2023 Feb 23; 225():107597. PubMed ID: 36696847
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  • 38. Biomechanical comparison of an interspinous fusion device and bilateral pedicle screw system as additional fixation for lateral lumbar interbody fusion.
    Doulgeris JJ, Aghayev K, Gonzalez-Blohm SA, Lee WE, Vrionis FD.
    Clin Biomech (Bristol); 2015 Feb 23; 30(2):205-10. PubMed ID: 25577548
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  • 40. Biomechanical Evaluation of Stand-Alone Oblique Lateral Lumbar Interbody Fusion Under 3 Different Bone Mineral Density Conditions: A Finite Element Analysis.
    Wang Z, Ma R, Cai Z, Wang Z, Yang S, Ge Z.
    World Neurosurg; 2021 Nov 23; 155():e285-e293. PubMed ID: 34418606
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