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186 related items for PubMed ID: 15147613

  • 1. Validation of the CBF, CBV, and MTT values by perfusion MRI in chronic occlusive cerebrovascular disease: a comparison with 15O-PET.
    Kaneko K, Kuwabara Y, Mihara F, Yoshiura T, Nakagawa M, Tanaka A, Sasaki M, Koga H, Hayashi K, Honda H.
    Acad Radiol; 2004 May; 11(5):489-97. PubMed ID: 15147613
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  • 4. Semi-quantitative CBF and CBF ratios obtained using perfusion-weighted MR imaging.
    Mihara F, Kuwabara Y, Yoshiura T, Tanaka A, Kaneko K, Sasaki M, Honda H, Matsushima T.
    Neuroreport; 2003 Apr 15; 14(5):725-7. PubMed ID: 12692471
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  • 5. Perfusion MRI (Tmax and MTT) correlation with xenon CT cerebral blood flow in stroke patients.
    Olivot JM, Mlynash M, Zaharchuk G, Straka M, Bammer R, Schwartz N, Lansberg MG, Moseley ME, Albers GW.
    Neurology; 2009 Mar 31; 72(13):1140-5. PubMed ID: 19332690
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  • 6. Reliability of CT perfusion-derived CBF in relation to hemodynamic compromise in patients with cerebrovascular steno-occlusive disease: a comparative study with 15O PET.
    Ibaraki M, Ohmura T, Matsubara K, Kinoshita T.
    J Cereb Blood Flow Metab; 2015 Aug 31; 35(8):1280-8. PubMed ID: 25757749
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  • 7. Arterial Transit Time Mapping Obtained by Pulsed Continuous 3D ASL Imaging with Multiple Post-Label Delay Acquisitions: Comparative Study with PET-CBF in Patients with Chronic Occlusive Cerebrovascular Disease.
    Tsujikawa T, Kimura H, Matsuda T, Fujiwara Y, Isozaki M, Kikuta K, Okazawa H.
    PLoS One; 2016 Aug 31; 11(6):e0156005. PubMed ID: 27275779
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  • 8. Local brain haemodynamics and oxygen metabolism in cerebrovascular disease. Positron emission tomography.
    Sette G, Baron JC, Mazoyer B, Levasseur M, Pappata S, Crouzel C.
    Brain; 1989 Aug 31; 112 ( Pt 4)():931-51. PubMed ID: 2789086
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  • 9. Whole-brain perfusion measurement using 320-detector row computed tomography in patients with cerebrovascular steno-occlusive disease: comparison with 15O-positron emission tomography.
    Shinohara Y, Ibaraki M, Ohmura T, Sugawara S, Toyoshima H, Nakamura K, Kinoshita F, Kinoshita T.
    J Comput Assist Tomogr; 2010 Aug 31; 34(6):830-5. PubMed ID: 21084896
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  • 10. Perfusion-weighted MR imaging studies in brain hypervascular diseases: comparison of arterial input function extractions for perfusion measurement.
    Ducreux D, Buvat I, Meder JF, Mikulis D, Crawley A, Fredy D, TerBrugge K, Lasjaunias P, Bittoun J.
    AJNR Am J Neuroradiol; 2006 May 31; 27(5):1059-69. PubMed ID: 16687543
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  • 12. PET evaluation of cerebral hemodynamics in occlusive cerebrovascular disease pre- and postsurgery.
    Kuwabara Y, Ichiya Y, Sasaki M, Yoshida T, Fukumura T, Masuda K, Fujii K, Fukui M.
    J Nucl Med; 1998 May 31; 39(5):760-5. PubMed ID: 9591570
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  • 13. Arterial spin labeling magnetic resonance imaging at short post-labeling delay reflects cerebral perfusion pressure verified by oxygen-15-positron emission tomography in cerebrovascular steno-occlusive disease.
    Itagaki H, Kokubo Y, Kawanami K, Sato S, Yamada Y, Sato S, Sonoda Y.
    Acta Radiol; 2021 Feb 31; 62(2):225-233. PubMed ID: 32295388
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  • 14. Cerebral blood flow, blood volume, and mean transit time responses to propofol and indomethacin in peritumor and contralateral brain regions: perioperative perfusion-weighted magnetic resonance imaging in patients with brain tumors.
    Rasmussen M, Juul N, Christensen SM, Jónsdóttir KY, Gyldensted C, Vestergaard-Poulsen P, Cold GE, Østergaard L.
    Anesthesiology; 2010 Jan 31; 112(1):50-6. PubMed ID: 19952725
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  • 15. Quantitative assessment of cerebral hemodynamics using perfusion-weighted MRI in patients with major cerebral artery occlusive disease: comparison with positron emission tomography.
    Endo H, Inoue T, Ogasawara K, Fukuda T, Kanbara Y, Ogawa A.
    Stroke; 2006 Feb 31; 37(2):388-92. PubMed ID: 16373637
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  • 16. Cerebrovascular occlusive disease: quantitative cerebral blood flow using dynamic susceptibility contrast mr imaging correlates with quantitative H2[15O] PET.
    Vakil P, Lee JJ, Mouannes-Srour JJ, Derdeyn CP, Carroll TJ.
    Radiology; 2013 Mar 31; 266(3):879-86. PubMed ID: 23297337
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  • 17. Association of developmental venous anomalies with perfusion abnormalities on arterial spin labeling and bolus perfusion-weighted imaging.
    Iv M, Fischbein NJ, Zaharchuk G.
    J Neuroimaging; 2015 Mar 31; 25(2):243-250. PubMed ID: 24717021
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  • 18. Integrated PET/MRI scanner with oxygen-15 labeled gases for quantification of cerebral blood flow, cerebral blood volume, cerebral oxygen extraction fraction and cerebral metabolic rate of oxygen.
    Ito H, Kubo H, Takahashi K, Nishijima KI, Ukon N, Nemoto A, Sugawara S, Yamakuni R, Ibaraki M, Ishii S.
    Ann Nucl Med; 2021 Apr 31; 35(4):421-428. PubMed ID: 33502738
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  • 19. Asymptomatic carotid artery stenosis is associated with cerebral hypoperfusion.
    Khan AA, Patel J, Desikan S, Chrencik M, Martinez-Delcid J, Caraballo B, Yokemick J, Gray VL, Sorkin JD, Cebral J, Sikdar S, Lal BK.
    J Vasc Surg; 2021 May 31; 73(5):1611-1621.e2. PubMed ID: 33166609
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  • 20. Comparison of perfusion computed tomography and computed tomography angiography source images with perfusion-weighted imaging and diffusion-weighted imaging in patients with acute stroke of less than 6 hours' duration.
    Schramm P, Schellinger PD, Klotz E, Kallenberg K, Fiebach JB, Külkens S, Heiland S, Knauth M, Sartor K.
    Stroke; 2004 Jul 31; 35(7):1652-8. PubMed ID: 15155964
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