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Journal Abstract Search


183 related items for PubMed ID: 25259585

  • 1. A feasibility study of an intravascular imaging antenna to image atherosclerotic plaques in Swine using 3.0 T MRI.
    Zhang C, Zhao L, Ma X, Zhang Z, Fan Z.
    PLoS One; 2014; 9(9):e108301. PubMed ID: 25259585
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  • 2. [Feasibility of using intravascular loopless monopole antenna to image atherosclerotic plaque in a porcine model with 3.0 T magnetic resonance imaging].
    Zhao L, Zhang C, Ma XH, Shang JF, Yuan HY, Zhang J, Zhang ZQ.
    Zhonghua Xin Xue Guan Bing Za Zhi; 2013 May; 41(5):411-5. PubMed ID: 24021125
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  • 6. High resolution ex vivo magnetic resonance imaging of in situ coronary and aortic atherosclerotic plaque in a porcine model.
    Worthley SG, Helft G, Fuster V, Fayad ZA, Fallon JT, Osende JI, Roqué M, Shinnar M, Zaman AG, Rodriguez OJ, Verhallen P, Badimon JJ.
    Atherosclerosis; 2000 Jun; 150(2):321-9. PubMed ID: 10856524
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  • 7. Intracranial-derived atherosclerosis assessment: an in vitro comparison between virtual histology by intravascular ultrasonography, 7T MRI, and histopathologic findings.
    Majidi S, Sein J, Watanabe M, Hassan AE, Van de Moortele PF, Suri MF, Clark HB, Qureshi AI.
    AJNR Am J Neuroradiol; 2013 Dec; 34(12):2259-64. PubMed ID: 23811977
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  • 8. Ultra-high resolution, 3-dimensional magnetic resonance imaging of the atherosclerotic vessel wall at clinical 7T.
    Willemink MJ, Coolen BF, Dyvorne H, Robson PM, Bander I, Ishino S, Pruzan A, Sridhar A, Zhang B, Balchandani P, Mani V, Strijkers GJ, Nederveen AJ, Leiner T, Fayad ZA, Mulder WJM, Calcagno C.
    PLoS One; 2020 Dec; 15(12):e0241779. PubMed ID: 33315867
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  • 10. Endovascular shear strain elastography for the detection and characterization of the severity of atherosclerotic plaques: in vitro validation and in vivo evaluation.
    Majdouline Y, Ohayon J, Keshavarz-Motamed Z, Roy Cardinal MH, Garcia D, Allard L, Lerouge S, Arsenault F, Soulez G, Cloutier G.
    Ultrasound Med Biol; 2014 May; 40(5):890-903. PubMed ID: 24495438
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  • 11. Measurement of atherosclerotic plaque volume in hyperlipidemic rabbit aorta by intravascular ultrasound.
    Iwata A, Miura S, Imaizumi S, Zhang B, Saku K.
    J Cardiol; 2007 Oct; 50(4):229-34. PubMed ID: 17987838
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  • 14. Analysis of contrast-enhanced intravascular ultrasound images for the assessment of coronary plaque neoangiogenesis: another step closer to the identification of the vulnerable plaque.
    Ruiz EM, Papaioannou TG, Vavuranakis M, Stefanadis C, Naghavi M, Kakadiaris IA.
    Curr Pharm Des; 2012 Oct; 18(15):2207-13. PubMed ID: 22352774
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  • 15. Characterization of lipid-rich aortic plaques by intravascular photoacoustic tomography: ex vivo and in vivo validation in a rabbit atherosclerosis model with histologic correlation.
    Zhang J, Yang S, Ji X, Zhou Q, Xing D.
    J Am Coll Cardiol; 2014 Jul 29; 64(4):385-90. PubMed ID: 25060374
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  • 16. Visualization of plaque distribution in a curved artery: three-dimensional intravascular ultrasound imaging.
    Choi A, McPherson DD, Kim H.
    Comput Assist Surg (Abingdon); 2017 Dec 29; 22(sup1):120-126. PubMed ID: 29034729
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  • 17. Intravascular ultrasound and magnetic resonance imaging in the assessment of atherosclerotic lesions in rabbit aorta. Correlation to histopathologic findings.
    Manninen HI, Vanninen RL, Laitinen M, Räsänen H, Vainio P, Luoma JS, Pakkanen T, Tulla H, Ylä-Herttuala S.
    Invest Radiol; 1998 Aug 29; 33(8):464-71. PubMed ID: 9704286
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  • 18. Comparative Quantification of Arterial Lipid by Intravascular Photoacoustic-Ultrasound Imaging and Near-Infrared Spectroscopy-Intravascular Ultrasound.
    Kole A, Cao Y, Hui J, Bolad IA, Alloosh M, Cheng JX, Sturek M.
    J Cardiovasc Transl Res; 2019 Jun 29; 12(3):211-220. PubMed ID: 30488332
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  • 19. Identification and quantification of coronary atherosclerotic plaques: a comparison of 64-MDCT and intravascular ultrasound.
    Sun J, Zhang Z, Lu B, Yu W, Yang Y, Zhou Y, Wang Y, Fan Z.
    AJR Am J Roentgenol; 2008 Mar 29; 190(3):748-54. PubMed ID: 18287448
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