Validation d'un banc hydrodynamique pour la caractérisation de produits de contraste ultrasonores (PCUS)

V. Rouffiac, S. Lavisse, F. Bidault, A. Paci, P. Péronneau, A. Roche, N. Lassau

    Résultats de recherche: Contribution à un journalArticleRevue par des pairs

    Résumé

    Purpose. Validation of an experimental ultrasound system on erythrocyte suspensions with variable levels of aggregation and application to the echogenicity quantification of UCA under quasi-physiologic flow conditions. Materials and Methods. The system is constituted with a Couette cell with variable applied shear rates, an ultrasound emitter/receiver and a digital scope for radio-frequency signal acquisition. Ultrasound indices (UI) were defined for the two experimental established protocols based on the gold standard laser methodology. Washed red cells with or without variable Dextran 70 kD concentrations were used to simulate a wide particle size range. A preliminary application to UCA was conducted with Levovist® for calibration of the system. Results. For each protocol, applied ten times on identical whole blood samples, a student t-test revealed no significant variation for all UI. Results on washed red cells were in good agreement with Rayleigh's theory of ultrasound backscattering. Significant correlations were obtained between laser and UI for washed red cells with different Dextran concentrations. An elevation of 12.13 dB in backscattered intensity was obtained after addition of Levovist®. Conclusion. The constituted Couette system allowed reproducible and accurate echogenicity quantification of small scatterers such as UCA in quasi-physiologic blood flow conditions.

    Titre traduit de la contributionValidation of a new methodology for characterizing ultrasound contrast agents (UCA)
    langue originaleFrançais
    Pages (de - à)325-334
    Nombre de pages10
    journalJournal de Radiologie
    Volume86
    Numéro de publication3
    Les DOIs
    étatPublié - 1 janv. 2005

    mots-clés

    • Echogenicity
    • Light backscattering
    • Ultrasound contrast agents

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