模型微观结构对其光学特性的影响。

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Biomedical Optics Pub Date : 2024-09-01 Epub Date: 2024-05-06 DOI:10.1117/1.JBO.29.9.093502
Jošt Stergar, Rok Hren, Matija Milanič
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引用次数: 0

摘要

意义重大:开发稳定、坚固且经济实惠的组织模拟模型是生物医学光学领域任何新临床应用的先决条件。目的:我们采用实验和数值方法表征了 PlatSil SiliGlass 模型的结构和光学特性,以研究模型微观结构对其整体光学特性的影响:方法:我们采用扫描电子显微镜(SEM)、高光谱成像(HSI)和光谱学,结合米氏理论建模和反蒙特卡罗,研究了模型成分与模型整体光学特性之间的关系:扫描电子显微镜显示,微球的尺寸范围很广,平均尺寸为 (13.47±5.98) μm,而且还具有聚集性,这可能会影响整体光学特性,因此需要仔细制备以尽量减少这些影响。光谱法用于测量颜料和 SiliGlass 在 VIS-NIR 范围内的吸收系数。粒度分布用于计算散射系数,并观察样品微观结构对散射特性的影响。通过反问题解决方案对结果进行了推测,从而能够绝对确定与制备过程中获得的数值一致的组分体积分数,并解释实验观察到的光谱特征。恒星成像显微镜显示了明显的单散射效应,与单散射事件一致:结论:我们的研究表明,了解了幻影的微观结构,就可以对幻影的构成进行绝对测量,而无需事先校准。此外,我们还展示了不同长度尺度之间的联系,在这种联系中,了解精确的幻影成分构成有助于理解宏观上可观察到的光学特性。
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Effects of phantom microstructure on their optical properties.

Significance: Developing stable, robust, and affordable tissue-mimicking phantoms is a prerequisite for any new clinical application within biomedical optics. To this end, a thorough understanding of the phantom structure and optical properties is paramount.

Aim: We characterized the structural and optical properties of PlatSil SiliGlass phantoms using experimental and numerical approaches to examine the effects of phantom microstructure on their overall optical properties.

Approach: We employed scanning electron microscope (SEM), hyperspectral imaging (HSI), and spectroscopy in combination with Mie theory modeling and inverse Monte Carlo to investigate the relationship between phantom constituent and overall phantom optical properties.

Results: SEM revealed that microspheres had a broad range of sizes with average (13.47±5.98)  μm and were also aggregated, which may affect overall optical properties and warrants careful preparation to minimize these effects. Spectroscopy was used to measure pigment and SiliGlass absorption coefficient in the VIS-NIR range. Size distribution was used to calculate scattering coefficients and observe the impact of phantom microstructure on scattering properties. The results were surmised in an inverse problem solution that enabled absolute determination of component volume fractions that agree with values obtained during preparation and explained experimentally observed spectral features. HSI microscopy revealed pronounced single-scattering effects that agree with single-scattering events.

Conclusions: We show that knowledge of phantom microstructure enables absolute measurements of phantom constitution without prior calibration. Further, we show a connection across different length scales where knowledge of precise phantom component constitution can help understand macroscopically observable optical properties.

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来源期刊
CiteScore
6.40
自引率
5.70%
发文量
263
审稿时长
2 months
期刊介绍: The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.
期刊最新文献
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