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Journal Abstract Search

453 related items for PubMed ID: 24238503

  • 21. The impact of microscope-integrated intraoperative near-infrared indocyanine green videoangiography on surgery of arteriovenous malformations and dural arteriovenous fistulae.
    Hänggi D, Etminan N, Steiger HJ.
    Neurosurgery; 2010 Oct; 67(4):1094-103; discussion 1103-4. PubMed ID: 20881574
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  • 22. Evaluation of the Utility of Indocyanine Green Video Angiography in Cerebral Arteriovenous Malformation Surgery.
    Erdogan K, Mammadkhanli O, Abbasoglu B, Bayatli E, Ozden M, Bozkurt M.
    World Neurosurg; 2023 Feb; 170():e603-e611. PubMed ID: 36436772
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  • 26. A Novel Intraoperative Laser Light Imaging System to Simultaneously Visualize Visible Light and Near-Infrared Fluorescence for Indocyanine Green Videoangiography.
    Sato T, Bakhit M, Suzuki K, Sakuma J, Fujii M, Murakami Y, Ito Y, Sure U, Saito K.
    Cerebrovasc Dis Extra; 2018 Feb; 8(2):96-100. PubMed ID: 30056450
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  • 27. Complementary role of Indocyanine green video angiography, dual-image video angiography and flow-800.
    Khasanov KA, Alikhodjayeva GA, Yamada Y, Kato Y, Yakubov JB, Yağmurlu K, Chaurasia B.
    Br J Neurosurg; 2023 Dec; 37(6):1652-1658. PubMed ID: 37132265
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  • 28. Assessment of Hemodynamic Changes and Hyperperfusion Risk After Extracranial-to-Intracranial Bypass Surgery Using Intraoperative Indocyanine Green-Based Flow Analysis.
    Rennert RC, Strickland BA, Ravina K, Bakhsheshian J, Russin JJ.
    World Neurosurg; 2018 Jun; 114():352-360. PubMed ID: 29626683
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  • 29. Quantitative fluorescence angiography for neurosurgical interventions.
    Weichelt C, Duscha P, Steinmeier R, Meyer T, Kuß J, Cimalla P, Kirsch M, Sobottka SB, Koch E, Schackert G, Morgenstern U.
    Biomed Tech (Berl); 2013 Jun; 58(3):269-79. PubMed ID: 23740655
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  • 30. Comparison of indocyanine green fluorescent angiography to digital subtraction angiography in brain arteriovenous malformation surgery.
    Bilbao CJ, Bhalla T, Dalal S, Patel H, Dehdashti AR.
    Acta Neurochir (Wien); 2015 Mar; 157(3):351-9. PubMed ID: 25488175
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  • 33. Near infrared fluorescence imaging with ICG in TECAB surgery using the da Vinci Si surgical system in a canine model.
    Hassan M, Kerdok A, Engel A, Gersch K, Smith JM.
    J Card Surg; 2012 Mar; 27(2):158-62. PubMed ID: 22372818
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  • 34. Intraoperative near-infrared indocyanine green fluorescence angiography (NIR-ICG AG) can predict delayed small bowel stricture after ischemic intestinal injury: report of a case.
    Iinuma Y, Hirayama Y, Yokoyama N, Otani T, Nitta K, Hashidate H, Yoshida M, Iida H, Masui D, Manabe S.
    J Pediatr Surg; 2013 May; 48(5):1123-8. PubMed ID: 23701792
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  • 35. The application of intraoperative near-infrared indocyanine green videoangiography and analysis of fluorescence intensity in cerebrovascular surgery.
    Chen SF, Kato Y, Oda J, Kumar A, Watabe T, Imizu S, Oguri D, Sano H, Hirose Y.
    Surg Neurol Int; 2011 Mar 31; 2():42. PubMed ID: 21541008
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  • 36. Assessment of flow in perforating arteries during intracranial aneurysm surgery using intraoperative near-infrared indocyanine green videoangiography.
    de Oliveira JG, Beck J, Seifert V, Teixeira MJ, Raabe A.
    Neurosurgery; 2007 Sep 31; 61(3 Suppl):63-72; discussion 72-3. PubMed ID: 17876226
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  • 37. Near-infrared indocyanine green video angiography: a new method for intraoperative assessment of vascular flow.
    Raabe A, Beck J, Gerlach R, Zimmermann M, Seifert V.
    Neurosurgery; 2003 Jan 31; 52(1):132-9; discussion 139. PubMed ID: 12493110
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