机器学习支持的肝癌体内时间分辨荧光检测

In Vivo Time-Resolved Fluorescence Detection of Liver Cancer Supported by Machine Learning.

作者信息

Potapova Elena V, Shupletsov Valery V, Dremin Viktor V, Zherebtsov Evgenii A, Mamoshin Andrian V, Dunaev Andrey V

机构信息

Research & Development Center of Biomedical Photonics, Orel State University, Orel, Russia.

College of Engineering and Physical Sciences, Aston University, Birmingham, UK.

出版信息

Lasers Surg Med. 2024 Dec;56(10):836-844. doi: 10.1002/lsm.23861. Epub 2024 Nov 17.

DOI:10.1002/lsm.23861

PMID:39551967

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11629289/

Abstract

OBJECTIVES

One of the widely used optical biopsy methods for monitoring cellular and tissue metabolism is time-resolved fluorescence. The use of this method in optical liver biopsy has a high potential for studying the shift in energy-type production from oxidative phosphorylation to glycolysis and changes in the antioxidant defense of malignant cells. On the other hand, machine learning methods have proven to be an excellent solution to classification problems in medical practice, including biomedical optics. We aim to combine time-resolved fluorescence measurements and machine learning to automate the division of liver parenchyma and tumors (primary malignant, metastases and benign tumors) into classes.

MATERIALS AND METHODS

An optical biopsy was performed using a developed setup with a fine-needle optical probe in clinical conditions under ultrasound control. Fluorescence decays were recorded in a conditionally healthy liver and lesions during percutaneous needle biopsy. The labeled data set was created on the basis of the recorded fluorescence results and the histopathological classification of the biopsies obtained. Several machine learning methods were trained using different separation strategies of the training test set, and their respective accuracy was compared.

RESULTS

Our results show that each of the tumor types had its own characteristic metabolic shifts recorded by the time-resolved fluorescence spectroscopy. The application of machine learning demonstrates a reliable separation of the liver and all tumor types into cancer and noncancer classes with sensitivity, specificity and corresponding accuracy greater than 0.91, 0.79 and 0.90, using the random forest method. We also show that our method is capable of giving a preliminary diagnosis of the type of liver tumor (primary malignant, metastases and benign tumors) with a sensitivity, specificity and accuracy of at least 0.80, 0.95 and 0.90.

CONCLUSIONS

These promising results highlight its potential as a key tool in the future development of diagnostic and therapeutic strategies for liver cancers. Lasers Surg. Med. 00:00-00, 2024. 2024 Wiley Periodicals LLC.

摘要

目的

时间分辨荧光是广泛用于监测细胞和组织代谢的光学活检方法之一。该方法在光学肝脏活检中的应用具有很高的潜力，可用于研究能量产生类型从氧化磷酸化向糖酵解的转变以及恶性细胞抗氧化防御的变化。另一方面，机器学习方法已被证明是解决医学实践中分类问题的优秀方案，包括生物医学光学领域。我们旨在将时间分辨荧光测量与机器学习相结合，以实现肝脏实质和肿瘤（原发性恶性肿瘤、转移瘤和良性肿瘤）分类的自动化。

材料与方法

在超声引导下的临床条件下，使用配备细针光学探头的已开发装置进行光学活检。在经皮穿刺活检过程中，记录了条件健康肝脏和病变部位的荧光衰减情况。基于记录的荧光结果和所获活检样本的组织病理学分类，创建了标记数据集。使用训练测试集的不同分离策略对几种机器学习方法进行了训练，并比较了它们各自的准确性。

结果

我们的结果表明，每种肿瘤类型都有其通过时间分辨荧光光谱记录的特征性代谢转变。使用随机森林方法，机器学习的应用显示出能够将肝脏和所有肿瘤类型可靠地分为癌症和非癌症类别，灵敏度、特异性和相应准确率分别大于0.91、0.79和0.90。我们还表明，我们的方法能够对肝脏肿瘤类型（原发性恶性肿瘤、转移瘤和良性肿瘤）进行初步诊断，灵敏度、特异性和准确率至少为0.80、0.95和0.90。

结论

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f6ed/11629289/8a87dd601ede/LSM-56-836-g004.jpg

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机器学习支持的肝癌体内时间分辨荧光检测

In Vivo Time-Resolved Fluorescence Detection of Liver Cancer Supported by Machine Learning.

作者信息

机构信息

出版信息

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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