通过延迟荧光信号的时间过采样增强基于卟啉的缺氧成像。

Enhanced porphyrin-based hypoxia imaging by temporal oversampling of delayed fluorescence signal.

作者信息

Ochoa Marien I, Petusseau Arthur F, Reed Matthew S, Brůža Petr, Pogue Brian W

机构信息

University of Wisconsin-Madison, Department of Medical Physics, Madison, Wisconsin, United States.

Dartmouth College, Thayer School of Engineering, Center for Imaging Medicine, Hanover, New Hampshire, United States.

出版信息

J Biomed Opt. 2025 Feb;30(Suppl 2):S23903. doi: 10.1117/1.JBO.30.S2.S23903. Epub 2025 Jan 28.

DOI:10.1117/1.JBO.30.S2.S23903

PMID:39881944

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11774257/

Abstract

SIGNIFICANCE

Protoporphyrin IX (PpIX) delayed fluorescence (DF) is inversely related to the oxygen present in tissues and has potential as a novel biomarker for surgical guidance and real-time tissue metabolism assessment. Despite the unique promise of this technique, its successful clinical translation is limited by the low intensity emitted.

AIM

We developed a systematic study of ways to increase the PpIX DF signal through acquisition sampling changes, allowing optimized imaging at video rates.

APPROACH

To accomplish signal increase, time-gating signal compression was achieved through changes in pulse frequency and power density, using sampling rates that are faster than the decay rate of the signal. The increased signal yield was tested and validated and then demonstrated , with comparison to settings that sample the full lifetime emission decay.

RESULTS

Results and demonstrated that optimized timing could increase the detected intensity by a factor of 7. The images showed results that were superior than when sampling the full DF lifetime decay.

CONCLUSIONS

The proposed timing optimization enhances PpIX-based DF real-time imaging of tissue hypoxia. By increasing sampling frequency and adjusting the acquisition gate and pulse width, the collected signal intensity improved sevenfold, demonstrated both and . The technique was shown to enable better visualization of small and anatomically challenging hypoxic structures. The improved target-to-background ratio and compatibility with pressure-enhanced sensing of tissue oxygen technique were demonstrated.

摘要

意义

原卟啉IX（PpIX）延迟荧光（DF）与组织中的氧含量呈负相关，具有作为手术引导和实时组织代谢评估新生物标志物的潜力。尽管该技术具有独特的前景，但其成功的临床转化受到发射强度低的限制。

目的

我们开展了一项系统性研究，通过采集采样变化来增加PpIX DF信号，从而实现视频速率下的优化成像。

方法

为实现信号增强，通过改变脉冲频率和功率密度，利用比信号衰减速率更快的采样率，实现了时间选通信号压缩。对增加的信号产量进行了测试和验证，然后与对整个寿命期发射衰减进行采样的设置进行比较展示。

结果

结果表明，优化的定时可使检测强度提高7倍。图像显示的结果优于对整个DF寿命期衰减进行采样时的结果。

结论

所提出的定时优化增强了基于PpIX的组织缺氧DF实时成像。通过提高采样频率并调整采集门和脉冲宽度，采集到的信号强度提高了7倍，结果和均有展示。该技术能够更好地显示小的且解剖结构复杂的缺氧结构。展示了改善的目标与背景比率以及与组织氧压力增强传感技术的兼容性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b84/11774257/55d900f52fcc/JBO-030-S23903-g001.jpg

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通过延迟荧光信号的时间过采样增强基于卟啉的缺氧成像。

Enhanced porphyrin-based hypoxia imaging by temporal oversampling of delayed fluorescence signal.

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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