Industrial Materials Institute, National Research Council of Canada, 75 De Mortagne Boulevard, Boucherville, Québec J4B 6Y4, Canada.
J Biomed Opt. 2012 Jun;17(6):061217. doi: 10.1117/1.JBO.17.6.061217.
The detection of ultrasound in photoacoustic tomography (PAT) usually relies on ultrasonic transducers in contact with the biological tissue through a coupling medium. This is a major drawback for important potential applications such as surgery. Here we report the use of a remote optical method, derived from industrial laser-ultrasonics, to detect ultrasound in tissues. This approach enables non-contact PAT (NCPAT) without exceeding laser exposure safety limits. The sensitivity of the method is based on the use of suitably shaped detection laser pulses and a confocal Fabry-Perot interferometer in differential configuration. Reliable image reconstruction is obtained by measuring remotely the surface profile of the tissue with an optical coherence tomography system. The proposed method also allows non-contact ultrasound imaging (US) by applying a second reconstruction algorithm to the data acquired for NCPAT. Endogenous and exogenous inclusions exhibiting optical and acoustic contrasts were detected ex vivo in chicken breast and calf brain specimens. Inclusions down to 0.3 mm in size were detected at depths exceeding 1 cm. The method could expand the scope of photoacoustic and US to in-vivo biomedical applications where contact is impractical.
在光声断层摄影术(PAT)中,超声的检测通常依赖于通过耦合介质与生物组织接触的超声换能器。对于诸如手术等重要潜在应用而言,这是一个主要的缺点。在此,我们报告了一种源自工业激光超声的远程光学方法,用于检测组织中的超声。这种方法能够实现不超过激光暴露安全限制的非接触式 PAT(NCPAT)。该方法的灵敏度基于使用适当形状的检测激光脉冲和差分配置的共焦法布里-珀罗干涉仪。通过使用光学相干断层扫描系统远程测量组织的表面轮廓,可以获得可靠的图像重建。通过对用于 NCPAT 的数据应用第二个重建算法,该方法还允许进行非接触式超声成像(US)。在鸡胸肉和小牛脑标本中,对具有光学和声学对比度的内源性和外源性内含物进行了离体检测。在深度超过 1 cm 的地方可以检测到大小为 0.3mm 以下的内含物。该方法可以将光声和 US 的应用范围扩展到接触不实际的体内生物医学应用中。
