用于近红外荧光引导手术系统荧光均匀性和畸变评估的体模

Phantom for fluorescence uniformity and distortion assessment of near-infrared fluorescence guided surgery systems.

作者信息

Mannoh Emmanuel A, Robledo Edwin A, Streeter Samuel S, LaRochelle Ethan P M, Ruiz Alberto J

机构信息

QUEL Imaging, White River Junction, Vermont, United States.

Geisel School of Medicine, Dartmouth College, Department of Orthopaedics, Hanover, New Hampshire, United States.

出版信息

J Biomed Opt. 2025 Aug;30(8):086002. doi: 10.1117/1.JBO.30.8.086002. Epub 2025 Aug 18.

DOI:10.1117/1.JBO.30.8.086002

PMID:40831744

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12360714/

Abstract

SIGNIFICANCE

The expanding use of fluorescence in surgery necessitates standardized characterization methods to facilitate reproducibility and regulatory review of imaging devices. Current guidelines suggest the use of optical phantoms as tools to quantify optical system performance, yet measurements of uniformity and spatial accuracy or distortion remain challenging and are performed in an ad hoc manner or not collected at all.

AIM

We introduce a photostable solid phantom, the reference uniformity and distortion (RUD) phantom, and accompanying analysis code for characterizing fluorescence uniformity and geometric distortion (GD). In addition, the concept of fluorescence flat-field correction is explored using this phantom.

APPROACH

The RUD phantom was imaged on a custom fluorescence imaging device, as well as five commercial systems. The analysis code characterized uniformity and distortion in these systems. Flat-field correction was explored on the custom device by imaging solid fluorescent reference phantoms at different locations within the field of view.

RESULTS

Successful characterization of the imaging systems' uniformity and GD was achieved. Flat-fielding experiments showed that although it qualitatively improves the appearance of images, it could negatively impact quantitative analyses.

CONCLUSIONS

The RUD addresses the need for standardized characterization of fluorescence uniformity and GD. Although fluorescence flat-field correction qualitatively enhances image uniformity, caution is advised as it may adversely affect quantitative accuracy.

摘要

意义

荧光在手术中的应用不断扩大，这就需要标准化的表征方法，以促进成像设备的可重复性和监管审查。当前指南建议使用光学体模作为量化光学系统性能的工具，但均匀性、空间精度或畸变的测量仍然具有挑战性，且是以临时方式进行，或者根本没有收集相关数据。

目的

我们引入一种光稳定的固体体模，即参考均匀性和畸变（RUD）体模，以及用于表征荧光均匀性和几何畸变（GD）的配套分析代码。此外，还使用该体模探讨了荧光平场校正的概念。

方法

在定制的荧光成像设备以及五个商业系统上对RUD体模进行成像。分析代码表征了这些系统中的均匀性和畸变。通过在视野内不同位置对固体荧光参考体模进行成像，在定制设备上探索了平场校正。

结果

成功实现了对成像系统均匀性和GD的表征。平场实验表明，虽然它在定性上改善了图像外观，但可能会对定量分析产生负面影响。

结论

RUD满足了对荧光均匀性和GD进行标准化表征的需求。虽然荧光平场校正定性地增强了图像均匀性，但建议谨慎使用，因为它可能会对定量准确性产生不利影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7001/12360714/a729a916d1a1/JBO-030-086002-g001.jpg

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用于近红外荧光引导手术系统荧光均匀性和畸变评估的体模

Phantom for fluorescence uniformity and distortion assessment of near-infrared fluorescence guided surgery systems.

作者信息

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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