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352 related items for PubMed ID: 22424580

  • 21. In vivo comparison of arterial lumen dimensions assessed by co-registered three-dimensional (3D) quantitative coronary angiography, intravascular ultrasound and optical coherence tomography.
    Tu S, Xu L, Ligthart J, Xu B, Witberg K, Sun Z, Koning G, Reiber JH, Regar E.
    Int J Cardiovasc Imaging; 2012 Aug; 28(6):1315-27. PubMed ID: 22261998
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  • 22. OCT compared with IVUS in a coronary lesion assessment: the OPUS-CLASS study.
    Kubo T, Akasaka T, Shite J, Suzuki T, Uemura S, Yu B, Kozuma K, Kitabata H, Shinke T, Habara M, Saito Y, Hou J, Suzuki N, Zhang S.
    JACC Cardiovasc Imaging; 2013 Oct; 6(10):1095-1104. PubMed ID: 24011777
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  • 23. [A comparative study of target vessel assessments by three- and two-dimensional quantitative coronary X-ray angiography and visual estimation].
    Hao PY, Chen AH, Song XD, Wei XL, Zhou SS, He F, Tu SX.
    Nan Fang Yi Ke Da Xue Xue Bao; 2011 Feb; 31(2):333-7. PubMed ID: 21354924
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  • 25. Fractional flow reserve calculation from 3-dimensional quantitative coronary angiography and TIMI frame count: a fast computer model to quantify the functional significance of moderately obstructed coronary arteries.
    Tu S, Barbato E, Köszegi Z, Yang J, Sun Z, Holm NR, Tar B, Li Y, Rusinaru D, Wijns W, Reiber JH.
    JACC Cardiovasc Interv; 2014 Jul; 7(7):768-77. PubMed ID: 25060020
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  • 28. Threshold parameters of left main coronary artery stem stenosis based on intracoronary ultrasound examination.
    Gil RJ, Gziut AI, Prati F, Witkowski A, Kubica J.
    Kardiol Pol; 2005 Sep; 63(3):223-31; discussion 232-3. PubMed ID: 16180175
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  • 31. Assessment of three dimensional quantitative coronary analysis by using rotational angiography for measurement of vessel length and diameter.
    Lee JB, Chang SG, Kim SY, Lee YS, Ryu JK, Choi JY, Kim KS, Park JS.
    Int J Cardiovasc Imaging; 2012 Oct; 28(7):1627-34. PubMed ID: 22179945
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  • 32. Angiographic derived endothelial shear stress: a new predictor of atherosclerotic disease progression.
    Bourantas CV, Ramasamy A, Karagiannis A, Sakellarios A, Zanchin T, Yamaji K, Ueki Y, Shen X, Fotiadis DI, Michalis LK, Mathur A, Serruys PW, Garcia-Garcia HM, Koskinas K, Torii R, Windecker S, Räber L.
    Eur Heart J Cardiovasc Imaging; 2019 Mar 01; 20(3):314-322. PubMed ID: 30020435
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  • 33. Comparison of three-dimensional quantitative coronary angiography and intravascular ultrasound for detecting functionally significant coronary lesions.
    Lee J, Seo KW, Yang HM, Lim HS, Choi BJ, Choi SY, Tahk SJ, Yoon MH.
    Cardiovasc Diagn Ther; 2020 Oct 01; 10(5):1256-1263. PubMed ID: 33224749
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  • 34. Intravascular ultrasound and quantitative coronary angiography assessment of late in-stent restenosis: in vivo human correlation and methodological implications.
    Prati F, Pawlowski T, Sommariva L, Labellarte A, Manzoli A, Boccanelli A, Motolese M.
    Catheter Cardiovasc Interv; 2002 Oct 01; 57(2):155-60. PubMed ID: 12357511
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  • 36. Correlation between dual-axis rotational coronary angiography and intravascular ultrasound in a coronary lesion assessment.
    Jin ZG, Zhang ZQ, Jing LM, Wei YJ, Zhang J, Luo JP, Yang SL, Ma DX, Liu Y, Han W, Yang Y, Liu HL.
    Int J Cardiovasc Imaging; 2017 Feb 01; 33(2):153-160. PubMed ID: 27730313
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  • 40. Accurate and reproducible reconstruction of coronary arteries and endothelial shear stress calculation using 3D OCT: comparative study to 3D IVUS and 3D QCA.
    Toutouzas K, Chatzizisis YS, Riga M, Giannopoulos A, Antoniadis AP, Tu S, Fujino Y, Mitsouras D, Doulaverakis C, Tsampoulatidis I, Koutkias VG, Bouki K, Li Y, Chouvarda I, Cheimariotis G, Maglaveras N, Kompatsiaris I, Nakamura S, Reiber JH, Rybicki F, Karvounis H, Stefanadis C, Tousoulis D, Giannoglou GD.
    Atherosclerosis; 2015 Jun 01; 240(2):510-9. PubMed ID: 25932791
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