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扩散介质中频域光学测量的深度敏感性

Depth sensitivity of frequency domain optical measurements in diffusive media.

作者信息

Binzoni Tiziano, Sassaroli Angelo, Torricelli Alessandro, Spinelli Lorenzo, Farina Andrea, Durduran Turgut, Cavalieri Stefano, Pifferi Antonio, Martelli Fabrizio

机构信息

Département de Neurosciences Fondamentales, University of Geneva, Switzerland.

Département de l'Imagerie et des Sciences de l'Information Médicale, University Hospital, Geneva, Switzerland.

出版信息

Biomed Opt Express. 2017 May 17;8(6):2990-3004. doi: 10.1364/BOE.8.002990. eCollection 2017 Jun 1.

DOI:10.1364/BOE.8.002990
PMID:28663921
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5480444/
Abstract

The depth sensitivity functions for AC amplitude, phase (PH) and DC intensity signals have been obtained in the frequency domain (where the source amplitude is modulated at radio-frequencies) by making use of analytical solutions of the photon diffusion equation in an infinite slab geometry. Furthermore, solutions for the relative contrast of AC, PH and DC signals when a totally absorbing plane is placed at a fixed depth of the slab have also been obtained. The solutions have been validated by comparisons with gold standard Monte Carlo simulations. The obtained results show that the AC signal, for modulation frequencies < 200 MHz, has a depth sensitivity with similar characteristics to that of the continuous-wave (CW) domain (source modulation frequency of zero). Thus, the depth probed by such a signal can be estimated by using the formula of penetration depth for the CW domain (Sci. Rep.6, 27057 (2016)). However, the PH signal has a different behavior compared to the CW domain, showing a larger depth sensitivity at shallow depths and a less steep relative contrast as a function of depth. These results mark a clear difference in term of depth sensitivity between AC and PH signals, and highlight the complexity of the estimation of the actual depth probed in tissue spectroscopy.

摘要

通过利用无限平板几何结构中光子扩散方程的解析解,在频域(其中源幅度在射频下调制)中获得了交流幅度、相位(PH)和直流强度信号的深度灵敏度函数。此外,还获得了在平板固定深度处放置完全吸收平面时交流、PH和直流信号相对对比度的解。通过与金标准蒙特卡罗模拟进行比较,验证了这些解。所得结果表明,对于调制频率<200MHz的交流信号,其深度灵敏度具有与连续波(CW)域(源调制频率为零)相似的特性。因此,可使用CW域的穿透深度公式(《科学报告》6, 27057 (2016))来估计由此类信号探测的深度。然而,与CW域相比,PH信号具有不同的行为,在浅深度处显示出更大的深度灵敏度,并且作为深度函数的相对对比度变化较平缓。这些结果表明交流和PH信号在深度灵敏度方面存在明显差异,并突出了组织光谱学中实际探测深度估计的复杂性。

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