Quantifying Activation of Perfluorocarbon-Based Phase-Change Contrast Agents Using Simultaneous Acoustic and Optical Observation

Sinan Li, Shengtao Lin, Yi Cheng, Terry O. Matsunaga, Robert J. Eckersley, Meng Xing Tang*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

27 Citations (Scopus)

Abstract

Phase-change contrast agents in the form of nanoscale droplets can be activated into microbubbles by ultrasound, extending the contrast beyond the vasculature. This article describes simultaneous optical and acoustical measurements for quantifying the ultrasound activation of phase-change contrast agents over a range of concentrations. In experiments, decafluorobutane-based nanodroplets of different dilutions were sonicated with a high-pressure activation pulse and two low-pressure interrogation pulses immediately before and after the activation pulse. The differences between the pre- and post-interrogation signals were calculated to quantify the acoustic power scattered by the microbubbles activated over a range of droplet concentrations. Optical observation occurred simultaneously with the acoustic measurement, and the pre- and post-microscopy images were processed to generate an independent quantitative indicator of the activated microbubble concentration. Both optical and acoustic measurements revealed linear relationships to the droplet concentration at a low concentration range <10<sup>8</sup>/mL when measured at body temperature. Further increases in droplet concentration resulted in saturation of the acoustic interrogation signal. Compared with body temperature, room temperature was found to produce much fewer andlarger bubbles after ultrasound droplet activation.

Original languageEnglish
Pages (from-to)1422-1431
Number of pages10
JournalUltrasound in Medicine and Biology
Volume41
Issue number5
DOIs
Publication statusPublished - 1 May 2015

Keywords

  • Acoustic droplet vaporization
  • Concentration
  • Contrast agent
  • Microbubble
  • Perfluorocarbon droplet
  • Phase change
  • Quantification
  • Temperature

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