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Journal Abstract Search

126 related items for PubMed ID: 8272948

  • 1. A biomechanical evaluation of magnetic resonance imaging-compatible wire in cervical spine fixation.
    Scuderi GJ, Greenberg SS, Cohen DS, Latta LL, Eismont FJ.
    Spine (Phila Pa 1976); 1993 Oct 15; 18(14):1991-4. PubMed ID: 8272948
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  • 2. In vitro biomechanical comparison of multistrand cables with conventional cervical stabilization.
    Weis JC, Cunningham BW, Kanayama M, Parker L, McAfee PC.
    Spine (Phila Pa 1976); 1996 Sep 15; 21(18):2108-14. PubMed ID: 8893435
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  • 3. Titanium wire internal fixation for stabilization of injury of the cervical spine: clinical results and postoperative magnetic resonance imaging of the spinal cord.
    Geisler FH, Mirvis SE, Zrebeet H, Joslyn JN.
    Neurosurgery; 1989 Sep 15; 25(3):356-62. PubMed ID: 2771006
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  • 4. Comparative mechanical properties of spinal cable and wire fixation systems.
    Dickman CA, Papadopoulos SM, Crawford NR, Brantley AG, Gealer RL.
    Spine (Phila Pa 1976); 1997 Mar 15; 22(6):596-604. PubMed ID: 9089931
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  • 5. Internal fixation of the spine using a braided titanium cable: clinical results and postoperative magnetic resonance imaging.
    Doran SE, Papadopoulos SM, Miller LD.
    Neurosurgery; 1996 Mar 15; 38(3):493-6; discussion 496-7. PubMed ID: 8837801
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  • 6. Use of titanium wire in cervical spine fixation as a means to reduce MR artifacts.
    Mirvis SE, Geisler F, Joslyn JN, Zrebeet H.
    AJNR Am J Neuroradiol; 1988 Mar 15; 9(6):1229-31. PubMed ID: 3143247
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  • 8. Magnetic resonance imaging susceptibility artifacts in the cervical vertebrae and spinal cord related to monocortical screw-polymethylmethacrylate implants in canine cadavers.
    Jones BG, Fosgate GT, Green EM, Habing AM, Hettlich BF.
    Am J Vet Res; 2017 Apr 15; 78(4):458-464. PubMed ID: 28346006
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  • 9. Cobalt chromium sublaminar wires for spinal deformity surgery.
    Cluck MW, Skaggs DL.
    Spine (Phila Pa 1976); 2006 Sep 01; 31(19):2209-12. PubMed ID: 16946655
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  • 10. Magnetic resonance imaging after pedicular screw fixation of the spine.
    Ebraheim NA, Savolaine ER, Stitgen SH, Jackson WT.
    Clin Orthop Relat Res; 1992 Jun 01; (279):133-7. PubMed ID: 1600647
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  • 13. Metallic spinal artifacts in magnetic resonance imaging.
    Vaccaro AR, Chesnut RM, Scuderi G, Healy JF, Massie JB, Garfin SR.
    Spine (Phila Pa 1976); 1994 Jun 01; 19(11):1237-42. PubMed ID: 8073315
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  • 14. Nitinol, Stainless Steel, and Titanium Kirschner Wire Durability.
    Jastifer JR, Gustafson PA, Silva LF, Noffsinger S, Coughlin MJ.
    Foot Ankle Spec; 2021 Aug 01; 14(4):317-323. PubMed ID: 32336159
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  • 15. The radiographic and imaging characteristics of porous tantalum implants within the human cervical spine.
    Levi AD, Choi WG, Keller PJ, Heiserman JE, Sonntag VK, Dickman CA.
    Spine (Phila Pa 1976); 1998 Jun 01; 23(11):1245-50; discussion 1251. PubMed ID: 9636978
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  • 16. The use of sublaminar cables to replace Luque wires.
    Songer MN, Spencer DL, Meyer PR, Jayaraman G.
    Spine (Phila Pa 1976); 1991 Aug 01; 16(8 Suppl):S418-21. PubMed ID: 1785098
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  • 17. Evaluation of monoenergetic imaging to reduce metallic instrumentation artifacts in computed tomography of the cervical spine.
    Komlosi P, Grady D, Smith JS, Shaffrey CI, Goode AR, Judy PG, Shaffrey M, Wintermark M.
    J Neurosurg Spine; 2015 Jan 01; 22(1):34-8. PubMed ID: 25380537
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