利用固体组织模拟面部模型对眼面部进行多模态光学成像。

Multimodal optical imaging of the oculofacial region using a solid tissue-simulating facial phantom.

机构信息

University of California, Irvine, Beckman Laser Institute and Medical Clinic, Irvine, California, United States.

University of California, Irvine, Department of Ophthalmology, Gavin Herbert Eye Institute, Irvine, California, United States.

出版信息

J Biomed Opt. 2024 Aug;29(8):086002. doi: 10.1117/1.JBO.29.8.086002. Epub 2024 Aug 1.

DOI:10.1117/1.JBO.29.8.086002

PMID:39091279

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11293559/

Abstract

SIGNIFICANCE

Spatial frequency domain imaging (SFDI) applies patterned near-infrared illumination to quantify the optical properties of subsurface tissue. The periocular region is unique due to its complex ocular adnexal anatomy. Although SFDI has been successfully applied to relatively flat tissues, regions that have significant height variations and curvature may result in optical property inaccuracies.

AIM

We characterize the geometric impact of the periocular region on SFDI imaging reliability.

APPROACH

SFDI was employed to measure the reduced scattering coefficient ( ) and absorption coefficient ( ) of the periocular region in a cast facial tissue-simulating phantom by capturing images along regions of interest (ROIs): inferior temporal quadrant (ITQ), inferior nasal quadrant (INQ), superior temporal quadrant (STQ), central eyelid margin (CEM), rostral lateral nasal bridge (RLNB), and forehead (FH). The phantom was placed on a chin rest and imaged nine times from an "en face" or "side profile" position, and the flat back of the phantom was measured 15 times.

RESULTS

The measured and of a cast facial phantom are accurate when comparing the ITQ, INQ, STQ, and FH to its flat posterior surface. Paired tests of ITQ, INQ, STQ, and FH and concluded that there is not enough evidence to suggest that imaging orientation impacted the measurement accuracy. Regions of extreme topographical variation, i.e., CEM and RLNB, did exhibit differences in measured optical properties.

CONCLUSIONS

We are the first to evaluate the geometric implications of wide-field imaging along the periocular region using a solid tissue-simulating facial phantom. Results suggest that the ITQ, INQ, STQ, and FH of a generalized face have minimal impact on the SFDI measurement accuracy. Areas with heightened topographic variation exhibit measurement variability. Device and facial positioning do not appear to bias measurements. These findings confirm the need to carefully select ROIs when measuring optical properties along the periocular region.

摘要

意义

空间域成像（SFDI）应用模式近红外照明来量化亚表面组织的光学特性。由于其复杂的眼附属物解剖结构，眼眶区域是独特的。尽管 SFDI 已经成功地应用于相对平坦的组织，但具有显著高度变化和曲率的区域可能导致光学性质不准确。

目的

我们描述了眼眶区域对 SFDI 成像可靠性的几何影响。

方法

SFDI 用于通过捕获兴趣区域（ROI）的图像来测量眼窝区域的漫散射系数（）和吸收系数（）：下颞象限（ITQ）、下鼻象限（INQ）、上颞象限（STQ）、中央眼睑缘（CEM）、额骨外侧鼻桥（RLNB）和额部（FH）。将仿体放置在下巴托上，并从“正视”或“侧视”位置进行 9 次成像，同时 15 次测量仿体的平坦背面。

结果

当将 ITQ、INQ、STQ 和 FH 与仿体的平坦后表面进行比较时，铸模面部仿体的测量和是准确的。ITQ、INQ、STQ 和 FH 的配对 t 检验和得出的结论是，没有足够的证据表明成像方向影响了测量精度。具有极端地形变化的区域，即 CEM 和 RLNB，确实表现出不同的测量光学性质。

结论

我们是第一个使用固体组织模拟面部仿体评估宽场成像沿眼窝区域的几何影响的人。结果表明，广义面部的 ITQ、INQ、STQ 和 FH 对 SFDI 测量精度的影响最小。具有高度地形变化的区域表现出测量的可变性。设备和面部定位似乎不会影响测量。这些发现证实了在测量眼窝区域的光学性质时，需要仔细选择 ROI。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/563e/11293559/0d90c7ff5ee8/JBO-029-086002-g001.jpg

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利用固体组织模拟面部模型对眼面部进行多模态光学成像。

Multimodal optical imaging of the oculofacial region using a solid tissue-simulating facial phantom.

机构信息

出版信息

SIGNIFICANCE

AIM

APPROACH

RESULTS

CONCLUSIONS

意义

目的

方法

结果

结论

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