The Effect of Binding on the Subharmonic Emissions from Individual Lipid-Encapsulated Microbubbles at Transmit Frequencies of 11 and 25 MHz

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• 作者：Brandon L. Helfield^&lowast ; ; ^&dagger ; ; ^{brandon.helfield@sri.utoronto.ca} ; Emmanuel Cherin^&dagger ; ; F. Stuart Foster^&lowast ; ; ^&dagger ; ; David E. Goertz^&lowast ; ; ^&dagger ;
• 关键词：Microbubbles ; Subharmonic ; High frequency ; Molecular imaging ; Ultrasound contrast agent
• 刊名：Ultrasound in Medicine and Biology
• 出版年：2013
• 出版时间：February, 2013
• 年：2013
• 卷：39
• 期：2
• 页码：345-359
• 全文大小：712 K

文摘

Targeted microbubble imaging at ultrasound frequencies above 5 MHz has applications in both a preclinical context for a range of disease processes and clinically for the assessment of atherosclerosis and superficial tumors. Although the feasibility of ultrasound molecular imaging has been well demonstrated for a range of target molecules, little work has examined the effects of binding on microbubble oscillations, which is of potential relevance to improving the sensitivity, specificity, and quantification of bound-bubble detection. In this study we investigated the influence of binding on the subharmonic response of bubbles at transmit frequencies of 11 and 25 MHz. Individual bubbles were situated adjacent to a boundary in either a bound or an unbound state, optically sized and acoustically interrogated with pressures ranging from 0.02 to 1.2 MPa. At 11 MHz, unbound bubbles (n?= 53) were found to have strong subharmonic activity for sizes between 2.4 and 2.6 ¦Ìm, whereas bound bubbles (n?=?50) were most active from 2.6 to 3.0 ¦Ìm. Destruction thresholds were found to be lower for bound bubbles. At 25 MHz, bound-bubble (n?= 57) activity was found to peak at 1.9 ¦Ìm as compared to 2.1 ¦Ìm in the unbound cases (n?= 53), with a 20 % increase in amplitude. Comparison with simulations indicates that both unbound and bound bubbles undergo compression-only behavior at 11 MHz, and expansion-dominated behavior at 25 MHz. Subharmonic emissions elicited from 0 radian transmit pulses were found to be ¦Ð/2 radians out of phase with those elicited from a ¦Ð radian transmit pulse, suggesting inefficient subharmonic preservation from pulse inversion schemes. With the appropriate postprocessed phase correction, an increase in the subharmonic amplitude of up to 60 % was shown, depending on the bubble size and transmit frequency.