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Journal Abstract Search


148 related items for PubMed ID: 38788233

  • 1. 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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  • 4. Bilateral pedicle screw fixation provides superior biomechanical stability in transforaminal lumbar interbody fusion: a finite element study.
    Ambati DV, Wright EK, Lehman RA, Kang DG, Wagner SC, Dmitriev AE.
    Spine J; 2015 Aug 01; 15(8):1812-22. PubMed ID: 24983669
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  • 5. 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 01; 24(1):32-8. PubMed ID: 26384133
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  • 8. MIS Expandable Interbody Spacers: A Literature Review and Biomechanical Comparison of an Expandable MIS TLIF With Conventional TLIF and ALIF.
    Cannestra AF, Peterson MD, Parker SR, Roush TF, Bundy JV, Turner AW.
    Spine (Phila Pa 1976); 2016 Apr 01; 41 Suppl 8():S44-9. PubMed ID: 26825792
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  • 9. The anterior and traverse cage can provide optimal biomechanical performance for both traditional and percutaneous endoscopic transforaminal lumbar interbody fusion.
    He L, Xiang Q, Yang Y, Tsai TY, Yu Y, Cheng L.
    Comput Biol Med; 2021 Apr 01; 131():104291. PubMed ID: 33676337
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  • 10. Biomechanical Evaluation of Transforaminal Lumbar Interbody Fusion with Coflex-F and Pedicle Screw Fixation: Finite Element Analysis of Static and Vibration Conditions.
    Zhu J, Shen H, Cui Y, Fogel GR, Liao Z, Liu W.
    Orthop Surg; 2022 Sep 01; 14(9):2339-2349. PubMed ID: 35946442
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  • 11. Biomechanical effects of interbody cage height on adjacent segments in patients with lumbar degeneration: a 3D finite element study.
    Lu X, Li D, Wang H, Xia X, Ma X, Lv F, Zou F, Jiang J.
    J Orthop Surg Res; 2022 Jun 21; 17(1):325. PubMed ID: 35729647
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  • 14. Biomechanical Evaluation of Transforaminal Lumbar Interbody Fusion and Oblique Lumbar Interbody Fusion on the Adjacent Segment: A Finite Element Analysis.
    Wang B, Hua W, Ke W, Lu S, Li X, Zeng X, Yang C.
    World Neurosurg; 2019 Jun 21; 126():e819-e824. PubMed ID: 30862579
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  • 15. Biomechanical comparison of single-level posterior versus transforaminal lumbar interbody fusions with bilateral pedicle screw fixation: segmental stability and the effects on adjacent motion segments.
    Sim HB, Murovic JA, Cho BY, Lim TJ, Park J.
    J Neurosurg Spine; 2010 Jun 21; 12(6):700-8. PubMed ID: 20515358
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  • 17. Effect of supplemental translaminar facet screw fixation on the stability of stand-alone anterior lumbar interbody fusion cages under physiologic compressive preloads.
    Phillips FM, Cunningham B, Carandang G, Ghanayem AJ, Voronov L, Havey RM, Patwardhan AG.
    Spine (Phila Pa 1976); 2004 Aug 15; 29(16):1731-6. PubMed ID: 15303015
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  • 18. Compressive preload improves the stability of anterior lumbar interbody fusion cage constructs.
    Patwardhan AG, Carandang G, Ghanayem AJ, Havey RM, Cunningham B, Voronov LI, Phillips FM.
    J Bone Joint Surg Am; 2003 Sep 15; 85(9):1749-56. PubMed ID: 12954834
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