Enhancing intraoperative tumor delineation with multispectral short-wave infrared fluorescence imaging and machine learning

多光谱图像 计算机科学 人工智能 像素 荧光寿命成像显微镜 可视化 支持向量机 模式识别(心理学) 荧光 光学 物理
作者
Dale J. Waterhouse,Laura Privitera,John Anderson,Danail Stoyanov,Stefano Giuliani
出处
期刊:Journal of Biomedical Optics [SPIE]
卷期号:28 (09): 094804-094804 被引量:12
标识
DOI:10.1117/1.jbo.28.9.094804
摘要

SignificanceFluorescence-guided surgery (FGS) provides specific real-time visualization of tumors, but intensity-based measurement of fluorescence is prone to errors. Multispectral imaging (MSI) in the short-wave infrared (SWIR) has the potential to improve tumor delineation by enabling machine-learning classification of pixels based on their spectral characteristics.AimDetermine whether MSI can be applied to FGS and combined with machine learning to provide a robust method for tumor visualization.ApproachA multispectral SWIR fluorescence imaging device capable of collecting data from six spectral filters was constructed and deployed on neuroblastoma (NB) subcutaneous xenografts (n = 6) after the injection of a NB-specific NIR-I fluorescent probe (Dinutuximab-IRDye800). We constructed image cubes representing fluorescence collected from ∼850 to 1450 nm and compared the performance of seven learning-based methods for pixel-by-pixel classification, including linear discriminant analysis, k-nearest neighbor classification, and a neural network.ResultsThe spectra of tumor and non-tumor tissue were subtly different and conserved between individuals. In classification, a combine principal component analysis and k-nearest-neighbor approach with area under curve normalization performed best, achieving 97.5% per-pixel classification accuracy (97.1%, 93.5%, and 99.2% for tumor, non-tumor tissue and background, respectively).ConclusionsThe development of dozens of new imaging agents provides a timely opportunity for multispectral SWIR imaging to revolutionize next-generation FGS.

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