同步近红外扩散光与超声成像。

Simultaneous near-infrared diffusive light and ultrasound imaging.

作者信息

Chen N G, Guo P, Yan S, Piao D, Zhu Q

出版信息

Appl Opt. 2001 Dec 1;40(34):6367-80. doi: 10.1364/ao.40.006367.

DOI:10.1364/ao.40.006367

PMID:18364946

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3566774/

Abstract

We have constructed a near-real-time combined imager suitable for simultaneous ultrasound and near-infrared diffusive light imaging and coregistration. The imager consists of a combined hand-held probe and the associated electronics for data acquisition. A two-dimensional ultrasound array is deployed at the center of the combined probe, and 12 dual-wavelength laser source fibers (780 and 830 nm) and 8 optical detector fibers are deployed at the periphery. We have experimentally evaluated the effects of missing optical sources in the middle of the combined probe on the accuracy of the reconstructed optical absorption coefficient and assessed the improvements of a reconstructed absorption coefficient with the guidance of the coregistered ultrasound. The results have shown that, when the central ultrasound array area is in the neighborhood of 2 cm x 2 cm, which corresponds to the size of most commercial ultrasound transducers, the optical imaging is not affected. The results have also shown that the iterative inversion algorithm converges quickly with the guidance of a priori three-dimensional target distribution, and only one iteration is needed to reconstruct an accurate optical absorption coefficient.

摘要

我们构建了一种适用于同时进行超声和近红外扩散光成像及配准的近实时组合成像仪。该成像仪由一个组合式手持探头和用于数据采集的相关电子设备组成。二维超声阵列部署在组合探头的中心，12根双波长激光源光纤（780和830纳米）和8根光学探测器光纤部署在周边。我们通过实验评估了组合探头中间缺少光源对重建光学吸收系数准确性的影响，并评估了在配准超声引导下重建吸收系数的改进情况。结果表明，当中央超声阵列区域在2厘米×2厘米附近时，这与大多数商用超声换能器的尺寸相对应时，光学成像不受影响。结果还表明，迭代反演算法在先验三维目标分布的引导下收敛迅速，只需一次迭代就能重建出准确的光学吸收系数。

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