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Journal Abstract Search

195 related items for PubMed ID: 8543983

  • 21. Rest myocardial perfusion/metabolism imaging using simultaneous dual-isotope acquisition SPECT with technetium-99m-MIBI/fluorine-18-FDG.
    Delbeke D, Videlefsky S, Patton JA, Campbell MG, Martin WH, Ohana I, Sandler MP.
    J Nucl Med; 1995 Nov; 36(11):2110-9. PubMed ID: 7472607
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  • 23. Automatic three-dimensional multimodality registration using radionuclide transmission CT attenuation maps: a phantom study.
    Dey D, Slomka PJ, Hahn LJ, Kloiber R.
    J Nucl Med; 1999 Mar; 40(3):448-55. PubMed ID: 10086710
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  • 24. Clinical significance of reverse redistribution on 24-hour delayed imaging of exercise thallium-201 myocardial SPECT: comparison with myocardial fluorine-18-FDG-PET imaging and left ventricular wall motion.
    Ohte N, Hashimoto T, Banno T, Narita H, Kobayashi K, Akita S, Fujinami T.
    J Nucl Med; 1995 Jan; 36(1):86-92. PubMed ID: 7799089
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  • 25. A standardized method for the construction of tracer specific PET and SPECT rat brain templates: validation and implementation of a toolbox.
    Vállez Garcia D, Casteels C, Schwarz AJ, Dierckx RA, Koole M, Doorduin J.
    PLoS One; 2015 Jan; 10(3):e0122363. PubMed ID: 25823005
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  • 26. Automatic registration of SPECT images as an alternative to immobilization in neuroactivation studies.
    Barber DC, Tindale WB, Hunt E, Mayes A, Sagar HJ.
    Phys Med Biol; 1995 Mar; 40(3):449-63. PubMed ID: 7732073
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  • 27. Functional neuroimaging strategy in temporal lobe epilepsy: a comparative study of 18FDG-PET and 99mTc-HMPAO-SPECT.
    Ryvlin P, Philippon B, Cinotti L, Froment JC, Le Bars D, Mauguière F.
    Ann Neurol; 1992 Jun; 31(6):650-6. PubMed ID: 1514777
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  • 29. Prospective localization of epileptogenic foci: comparison of PET and SPECT with site of surgery and clinical outcome.
    Mastin ST, Drane WE, Gilmore RL, Helveston WR, Quisling RG, Roper SN, Eikman EA, Browd SR.
    Radiology; 1996 May; 199(2):375-80. PubMed ID: 8668781
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  • 32. Hyperperfusion and hypermetabolism in brain radiation necrosis with epileptic activity.
    Sasaki M, Ichiya Y, Kuwabara Y, Yoshida T, Inoue T, Morioka T, Hisada K, Fukui M, Masuda K.
    J Nucl Med; 1996 Jul; 37(7):1174-6. PubMed ID: 8965192
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  • 35. Evaluation of algorithms for the registration of 99Tcm-HMPAO brain SPET studies.
    Ros D, Espinosa M, Setoain JF, Falcón C, Lomeña FJ, Pavía J.
    Nucl Med Commun; 1999 Mar; 20(3):227-36. PubMed ID: 10093072
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  • 36. Cardiac phantom evaluation of simultaneously acquired dual-isotope rest thallium-201/stress technetium-99m SPECT images.
    Lowe VJ, Greer KL, Hanson MW, Jaszczak RJ, Coleman RE.
    J Nucl Med; 1993 Nov; 34(11):1998-2006. PubMed ID: 8229250
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  • 37. A technique to localize activation in the human brain with technetium-99m-HMPAO SPECT: a validation study using visual stimulation.
    Crosson B, Williamson DJ, Shukla SS, Honeyman JC, Nadeau SE.
    J Nucl Med; 1994 May; 35(5):755-63. PubMed ID: 8176455
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  • 38. Automated alignment and sizing of myocardial stress and rest scans to three-dimensional normal templates using an image registration algorithm.
    Slomka PJ, Hurwitz GA, Stephenson J, Cradduck T.
    J Nucl Med; 1995 Jun; 36(6):1115-22. PubMed ID: 7769437
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  • 39. Volumetric analysis of cerebral hypoperfusion on SPECT: validation and reliability.
    Infeld B, Binns D, Lichtenstein M, Hopper JL, Davis SM.
    J Nucl Med; 1997 Sep; 38(9):1447-53. PubMed ID: 9293806
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  • 40. Fluorine-18-deoxyglucose SPECT and coincidence imaging for myocardial viability: Clinical and technologic issues.
    Dilsizian V, Bacharach SL, Khin MM, Smith MF.
    J Nucl Cardiol; 2001 Sep; 8(1):75-88. PubMed ID: 11182712
    [No Abstract] [Full Text] [Related]

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