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113 related items for PubMed ID: 15653235

  • 1. Comparison of different mathematical models to analyze diminution kinetics of ultrasound contrast enhancement in a flow phantom.
    Meyer-Wiethe K, Cangür H, Seidel GU.
    Ultrasound Med Biol; 2005 Jan; 31(1):93-8. PubMed ID: 15653235
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  • 2. On the design of a capillary flow phantom for the evaluation of ultrasound contrast agents at very low flow velocities.
    Veltmann C, Lohmaier S, Schlosser T, Shai S, Ehlgen A, Pohl C, Becher H, Tiemann K.
    Ultrasound Med Biol; 2002 May; 28(5):625-34. PubMed ID: 12079699
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  • 3. Microcirculation volumetric flow assessment using high-resolution, contrast-assisted images.
    Yeh CK, Lu SY, Chen YS.
    IEEE Trans Ultrason Ferroelectr Freq Control; 2008 Jan; 55(1):74-83. PubMed ID: 18334315
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  • 5. In vitro contrast-enhanced ultrasound measurements of capillary microcirculation: comparison between polymer- and phospholipid-shelled microbubbles.
    Grishenkov D, Kari L, Brodin LK, Brismar TB, Paradossi G.
    Ultrasonics; 2011 Jan; 51(1):40-8. PubMed ID: 20542310
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  • 6. Comparison of flow parameters to analyse bolus kinetics of ultrasound contrast enhancement in a capillary flow model.
    Cangür H, Meyer-Wiethe K, Seidel G.
    Ultraschall Med; 2004 Dec; 25(6):418-21. PubMed ID: 15597234
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  • 7. Improved flow measurement using microbubble contrast agents and disruption-replenishment: clinical application to tumour monitoring.
    Hudson JM, Williams R, Lloyd B, Atri M, Kim TK, Bjarnason G, Burns PN.
    Ultrasound Med Biol; 2011 Aug; 37(8):1210-21. PubMed ID: 21683508
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  • 8. Italian Society of Cardiovascular Echography (SIEC) Consensus Conference on the state of the art of contrast echocardiography.
    Ital Heart J; 2004 Apr; 5(4):309-34. PubMed ID: 15185894
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  • 9. [Determination of the renal blood flow in macro- and microcirculation by means of pulse inversion imaging].
    Schlosser T, Veltmann C, Lohmaier S, Ehlgen A, Kuntz-Hehner S, Tiemann K, Becher H.
    Rofo; 2004 May; 176(5):724-30. PubMed ID: 15122472
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  • 10. Assessment of a new mathematical model for the computation of numerical parameters related to renal cortical blood flow and fractional blood volume by contrast-enhanced ultrasound.
    Quaia E, Nocentini A, Torelli L.
    Ultrasound Med Biol; 2009 Apr; 35(4):616-27. PubMed ID: 19193486
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  • 11. Quantification of flow using ultrasound and microbubbles: a disruption replenishment model based on physical principles.
    Hudson JM, Karshafian R, Burns PN.
    Ultrasound Med Biol; 2009 Dec; 35(12):2007-20. PubMed ID: 19822390
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  • 12. Validation of ultrasound contrast destruction imaging for flow quantification.
    Lucidarme O, Kono Y, Corbeil J, Choi SH, Mattrey RF.
    Ultrasound Med Biol; 2003 Dec; 29(12):1697-704. PubMed ID: 14698337
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  • 14. Quantitative evaluation of microvascular blood flow by contrast-enhanced ultrasound (CEUS).
    Greis C.
    Clin Hemorheol Microcirc; 2011 Dec; 49(1-4):137-49. PubMed ID: 22214685
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  • 15. Blood flow assessment by ultrasound-induced destruction of echocontrast agents using harmonic power Doppler imaging: which parameters determine contrast replenishment curves?
    Köster J, Schlosser T, Pohl C, Lentz C, Lohmaier S, Veltmann C, Kuntz-Hehner S, Omran H, Lüderitz B, Becher H, Tiemann K.
    Echocardiography; 2001 Jan; 18(1):1-8. PubMed ID: 11182774
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  • 16. Reliability of semiquantitative ultrasonic perfusion imaging of the brain.
    Eyding J, Wilkening W, Reckhardt M, Meves S, Postert T.
    J Neuroimaging; 2004 Apr; 14(2):143-9. PubMed ID: 15095560
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  • 17. Volumetric contrast-enhanced ultrasound imaging of renal perfusion.
    Mahoney M, Sorace A, Warram J, Samuel S, Hoyt K.
    J Ultrasound Med; 2014 Aug; 33(8):1427-37. PubMed ID: 25063408
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