经胸靶向声学激活全身给药的纳米液滴以检测心肌灌注异常。
Targeted Transthoracic Acoustic Activation of Systemically Administered Nanodroplets to Detect Myocardial Perfusion Abnormalities.
作者信息
Porter Thomas R, Arena Christopher, Sayyed Samer, Lof John, High Robin R, Xie Feng, Dayton Paul A
机构信息
From the Department of Internal Medicine, University of Nebraska Medical Center, Omaha (T.R.P., S.S., J.L., R.R.H., F.X.); Department of Engineering, Elon University, NC (C.A.); and Joint Department of Biomedical Engineering, University of North Carolina at Chapel Hill and North Carolina State University (P.A.D.).
出版信息
Circ Cardiovasc Imaging. 2016 Jan;9(1). doi: 10.1161/CIRCIMAGING.115.003770.
BACKGROUND
Liquid core nanodroplets containing condensed gaseous fluorocarbons can be vaporized at clinically relevant acoustic energies and have been hypothesized as an alternative ultrasound contrast agent instead of gas-core agents. The potential for targeted activation and imaging of these agents was tested with droplets formulated from liquid octafluoropropane (C3) and 1:1 mixtures of C3 with liquid decafluorobutane (C3C4).
METHODS AND RESULTS
In 8 pigs with recent myocardial infarction and variable degrees of reperfusion, transthoracic acoustic activation was attempted using 1.3 to 1.7 MHz low (0.2 mechanical index [MI]) or high MI (1.2 MI) imaging in real time (32-64 Hertz) or triggered 1:1 at end systole during a 20% C3 or C3C4 droplet infusion. Any perfusion defects observed were measured and correlated with delayed enhancement magnetic resonance imaging and postmortem staining. No myocardial contrast was produced with any imaging setting when using C3C4 droplets or C3 droplets during low MI real-time imaging. However, myocardial contrast was observed in all 8 pigs with C3 droplets when using triggered high MI imaging and in 5 of 6 pigs that had 1.7 MHz real time-high MI imaging. Although quantitative myocardial contrast was lower with real-time high MI imaging than 1:1 triggering, the correlation between real-time resting defect size and infarct size was good (r=0.97; P<0.001), as was the correlation with number of transmural infarcted segments by delayed enhancement imaging.
CONCLUSIONS
Targeted transthoracic acoustic activation of infused intravenous C3 nanodroplets is effective, resulting in echogenic and persistent microbubbles which provide real-time high MI visualization of perfusion defects.
背景
含有冷凝气态碳氟化合物的液芯纳米液滴可在临床相关的声能下汽化,并且已被假定为可替代气芯造影剂的超声造影剂。使用由液态八氟丙烷(C3)以及C3与液态十氟丁烷(C3C4)的1:1混合物配制而成的液滴,对这些造影剂进行靶向激活和成像的潜力进行了测试。
方法与结果
在8头近期发生心肌梗死且再灌注程度各异的猪中,尝试使用1.3至1.7兆赫的低(0.2机械指数[MI])或高MI(1.2 MI)实时(32 - 64赫兹)成像进行经胸声学激活,或者在输注20% C3或C3C4液滴期间在收缩末期以1:1触发成像。对观察到的任何灌注缺损进行测量,并与延迟增强磁共振成像和尸检染色结果进行关联。在低MI实时成像期间使用C3C4液滴或C3液滴时,任何成像设置均未产生心肌造影。然而,在使用触发式高MI成像时,所有8头使用C3液滴的猪均观察到心肌造影,在6头进行1.7兆赫实时高MI成像的猪中有5头观察到心肌造影。尽管实时高MI成像的定量心肌造影低于1:1触发成像,但实时静息缺损大小与梗死大小之间的相关性良好(r = 0.97;P < 0.001),与延迟增强成像显示的透壁梗死节段数量之间的相关性也是如此。
结论
对输注的静脉内C3纳米液滴进行靶向经胸声学激活是有效的,可产生回声且持久的微泡,从而实现对灌注缺损的实时高MI可视化。
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