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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

373 related items for PubMed ID: 10584834

  • 21. Accuracy of Intraoperative Computed Tomography during Deep Brain Stimulation Procedures: Comparison with Postoperative Magnetic Resonance Imaging.
    Bot M, van den Munckhof P, Bakay R, Stebbins G, Verhagen Metman L.
    Stereotact Funct Neurosurg; 2017; 95(3):183-188. PubMed ID: 28601874
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  • 22. What You See Is What You Get: Lead Location Within Deep Brain Structures Is Accurately Depicted by Stereotactic Magnetic Resonance Imaging.
    Hyam JA, Akram H, Foltynie T, Limousin P, Hariz M, Zrinzo L.
    Neurosurgery; 2015 Sep; 11 Suppl 3():412-9; discussion 419. PubMed ID: 26087006
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  • 23. Electrode implantation for deep brain stimulation in dystonia: a fast spin-echo inversion-recovery sequence technique for direct stereotactic targeting of the GPI.
    Pinsker MO, Volkmann J, Falk D, Herzog J, Alfke K, Steigerwald F, Deuschl G, Mehdorn M.
    Zentralbl Neurochir; 2008 May; 69(2):71-5. PubMed ID: 18444217
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  • 27. Accuracy of frame-based stereotactic magnetic resonance imaging vs frame-based stereotactic head computed tomography fused with recent magnetic resonance imaging for postimplantation deep brain stimulator lead localization.
    Pezeshkian P, DeSalles AA, Gorgulho A, Behnke E, McArthur D, Bari A.
    Neurosurgery; 2011 Dec; 69(6):1299-306. PubMed ID: 21725253
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  • 28. Accuracy and distortion of deep brain stimulation electrodes on postoperative MRI and CT.
    Pinsker MO, Herzog J, Falk D, Volkmann J, Deuschl G, Mehdorn M.
    Zentralbl Neurochir; 2008 Aug; 69(3):144-7. PubMed ID: 18666049
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  • 29. Implantation of deep brain stimulators into the subthalamic nucleus: technical approach and magnetic resonance imaging-verified lead locations.
    Starr PA, Christine CW, Theodosopoulos PV, Lindsey N, Byrd D, Mosley A, Marks WJ.
    J Neurosurg; 2002 Aug; 97(2):370-87. PubMed ID: 12186466
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  • 31. A stereotactic near-infrared probe for localization during functional neurosurgical procedures: further experience.
    Giller CA, Liu H, German DC, Kashyap D, Dewey RB.
    J Neurosurg; 2009 Feb; 110(2):263-73. PubMed ID: 19012484
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  • 32. Bilateral subthalamic stimulation for Parkinson's disease by using three-dimensional stereotactic magnetic resonance imaging and electrophysiological guidance.
    Bejjani BP, Dormont D, Pidoux B, Yelnik J, Damier P, Arnulf I, Bonnet AM, Marsault C, Agid Y, Philippon J, Cornu P.
    J Neurosurg; 2000 Apr; 92(4):615-25. PubMed ID: 10761650
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  • 34. Pretargeting for the implantation of stimulation electrodes into the subthalamic nucleus: a comparative study of magnetic resonance imaging and ventriculography.
    Breit S, LeBas JF, Koudsie A, Schulz J, Benazzouz A, Pollak P, Benabid AL.
    Neurosurgery; 2008 Feb; 62 Suppl 2():840-52. PubMed ID: 18596423
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  • 37. Three-tesla magnetic resonance imaging of the ventrolateral thalamus: a correlative anatomical description.
    Mercado R, Mandat T, Moore GR, Li D, MacKay A, Honey CR.
    J Neurosurg; 2006 Aug; 105(2):279-83. PubMed ID: 17219834
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  • 38. Minimizing brain shift during functional neurosurgical procedures - a simple burr hole technique that can decrease CSF loss and intracranial air.
    Coenen VA, Abdel-Rahman A, McMaster J, Bogod N, Honey CR.
    Cent Eur Neurosurg; 2011 Nov; 72(4):181-5. PubMed ID: 21739410
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  • 40. Comparison of 3-D stereoscopic MR imaging with pre and post lesion recording in pallidotomy.
    Lehman RM, Zheng J, Hamilton JL, Micheli-Tzanako E.
    Acta Neurochir (Wien); 2000 Nov; 142(3):319-28. PubMed ID: 10819263
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