使用真实头部几何模型的蒙特卡罗模拟比较散斑对比光学光谱法和扩散相关光谱法在脑血流监测中的性能潜力。
Comparing the performance potential of speckle contrast optical spectroscopy and diffuse correlation spectroscopy for cerebral blood flow monitoring using Monte Carlo simulations in realistic head geometries.
作者信息
Robinson Mitchell B, Cheng Tom Y, Renna Marco, Wu Melissa M, Kim Byungchan, Cheng Xiaojun, Boas David A, Franceschini Maria Angela, Carp Stefan A
机构信息
Massachusetts General Hospital, Harvard Medical School, Athinoula A. Martinos Center for Biomedical Imaging, Department of Radiology, Boston, Massachusetts, United States.
Boston University, Neurophotonics Center, Department of Biomedical Engineering, Boston, Massachusetts, United States.
出版信息
Neurophotonics. 2024 Jan;11(1):015004. doi: 10.1117/1.NPh.11.1.015004. Epub 2024 Jan 27.
SIGNIFICANCE
The non-invasive measurement of cerebral blood flow based on diffuse optical techniques has seen increased interest as a research tool for cerebral perfusion monitoring in critical care and functional brain imaging. Diffuse correlation spectroscopy (DCS) and speckle contrast optical spectroscopy (SCOS) are two such techniques that measure complementary aspects of the fluctuating intensity signal, with DCS quantifying the temporal fluctuations of the signal and SCOS quantifying the spatial blurring of a speckle pattern. With the increasing interest in the use of these techniques, a thorough comparison would inform new adopters of the benefits of each technique.
AIM
We systematically evaluate the performance of DCS and SCOS for the measurement of cerebral blood flow.
APPROACH
Monte Carlo simulations of dynamic light scattering in an MRI-derived head model were performed. For both DCS and SCOS, estimates of sensitivity to cerebral blood flow changes, coefficient of variation of the measured blood flow, and the contrast-to-noise ratio of the measurement to the cerebral perfusion signal were calculated. By varying complementary aspects of data collection between the two methods, we investigated the performance benefits of different measurement strategies, including altering the number of modes per optical detector, the integration time/fitting time of the speckle measurement, and the laser source delivery strategy.
RESULTS
Through comparison across these metrics with simulated detectors having realistic noise properties, we determine several guiding principles for the optimization of these techniques and report the performance comparison between the two over a range of measurement properties and tissue geometries. We find that SCOS outperforms DCS in terms of contrast-to-noise ratio for the cerebral blood flow signal in the ideal case simulated here but note that SCOS requires careful experimental calibrations to ensure accurate measurements of cerebral blood flow.
CONCLUSION
We provide design principles by which to evaluate the development of DCS and SCOS systems for their use in the measurement of cerebral blood flow.
意义
基于漫射光学技术的脑血流无创测量作为重症监护中脑灌注监测和功能性脑成像的研究工具,受到了越来越多的关注。漫射相关光谱法(DCS)和散斑对比度光谱法(SCOS)是两种测量强度波动信号互补方面的技术,DCS量化信号的时间波动,SCOS量化散斑图案的空间模糊。随着对这些技术使用的兴趣日益增加,全面的比较将使新使用者了解每种技术的优势。
目的
我们系统地评估DCS和SCOS测量脑血流的性能。
方法
在一个由MRI衍生的头部模型中进行动态光散射的蒙特卡罗模拟。对于DCS和SCOS,计算了对脑血流变化的敏感度估计值、测量血流的变异系数以及测量与脑灌注信号的对比度噪声比。通过改变两种方法之间数据采集的互补方面,我们研究了不同测量策略的性能优势,包括改变每个光学探测器的模式数量以及散斑测量的积分时间/拟合时间,还有激光源传输策略。
结果
通过将这些指标与具有实际噪声特性的模拟探测器进行比较,我们确定了优化这些技术的几个指导原则,并报告了在一系列测量特性和组织几何形状下两者的性能比较。我们发现在这里模拟的理想情况下,SCOS在脑血流信号的对比度噪声比方面优于DCS,但注意到SCOS需要仔细的实验校准以确保准确测量脑血流。
结论
我们提供了设计原则,据此可评估用于测量脑血流的DCS和SCOS系统的开发情况。
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