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Special Collection: Molecular Imaging

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Original Contribution
Effects of Acoustic Radiation Force on the Binding Efficiency of BR55, a VEGFR2-Specific Ultrasound Contrast Agent
Ultrasound in Medicine and Biology
Vol. 38Issue 8p1460–1469Published online: May 14, 2012
- Peter J.A. Frinking
- Isabelle Tardy
- Martine Théraulaz
- Marcel Arditi
- Jeffry Powers
- Sibylle Pochon
- and others
Cited in Scopus: 49
This work describes an in vivo study analyzing the effect of acoustic radiation force (ARF) on the binding of BR55 VEGFR2-specific contrast-agent microbubbles in a model of prostatic adenocarcinoma in rat. A commercial ultrasound system was modified by implementing high duty-cycle 3.5-MHz center frequency ARF bursts in a scanning configuration. This enabled comparing the effects of ARF on binding in tumor and healthy tissue effectively in the same field of view. Bubble binding was established by measuring late-phase enhancement in amplitude modulation (AM) contrast-specific imaging mode (4 MHz, 150 kPa) 10 min after agent injection when the unbound bubbles were cleared from the circulation.