推进多光谱光声断层扫描(MSOT):用于实时光谱解混的相量分析。
Advancing multispectral optoacoustic tomography (MSOT): Phasor analysis for real-time spectral unmixing.
作者信息
Di Giacinto Flavio, Riente Alessia, Mignini Irene, Ainora Maria Elena, Esposto Giorgio, Borriello Raffaele, Zocco Maria Assunta, Minordi Laura Maria, Sala Evis, Scaldaferri Franco, Gasbarrini Antonio, De Spirito Marco, Maulucci Giuseppe
机构信息
Dipartimento di Neuroscienze, Metabolic Intelligence Lab, Università Cattolica del Sacro Cuore, Largo Francesco Vito, 1, 00168, Rome, Italy; Department of Life Science, Health, and Health Professions, Link Campus University, Via del Casale di S. Pio V, 44, 00165, Rome, Italy.
Dipartimento di Neuroscienze, Metabolic Intelligence Lab, Università Cattolica del Sacro Cuore, Largo Francesco Vito, 1, 00168, Rome, Italy; UOC Fisica per le Scienze della Vita, Fondazione Policlinico Universitario "A. Gemelli" IRCCS, 00168, Rome, Italy.
出版信息
Comput Biol Med. 2025 Sep;195:110586. doi: 10.1016/j.compbiomed.2025.110586. Epub 2025 Jun 18.
BACKGROUND
Multispectral optoacoustic tomography (MSOT) merges optical and ultrasound imaging to generate high-resolution, molecularly specific images. By capturing ultrasound emissions at multiple wavelengths, MSOT enables real-time visualization of tissue slices or volumes. The technique's specificity relies on chromophores emitting distinct signals across different wavelengths, requiring accurate spectral unmixing. However, existing unmixing methods are computationally demanding and often difficult to evaluate, limiting their applicability in real-time scenarios.
METHOD
We present a phasor-based approach as a fast and intuitive solution for spectral component quantification in MSOT. By projecting multispectral data onto a two-dimensional phasor plane, this method enables direct visualization of spectral components and rapid detection of unexpected signals or artifacts. The approach was validated using optically characterized experimental phantoms with flowing blood, allowing comparison with linear mixing models (LMM). It was then applied to clinical MSOT images from Crohn's disease patients and healthy controls.
RESULTS
The phasor method facilitated the identification of artifacts and spectral anomalies, significantly improving interpretability of MSOT data. It also outperformed conventional unmixing algorithms in terms of processing speed, making it suitable for real-time application. In clinical datasets, the method revealed distinct spectral patterns between Crohn's disease patients and healthy individuals, highlighting its ability to detect changes and differences in biologically complex systems.
CONCLUSIONS
This work establishes the phasor approach as a powerful tool for MSOT spectral unmixing, offering both speed and clarity in data interpretation. Its real-time capability and diagnostic potential support broader clinical adoption of MSOT for noninvasive disease characterization.
背景
多光谱光声断层扫描(MSOT)将光学成像和超声成像相结合,以生成高分辨率的分子特异性图像。通过捕获多个波长的超声发射,MSOT能够实时可视化组织切片或体积。该技术的特异性依赖于发色团在不同波长下发射不同的信号,这需要精确的光谱解混。然而,现有的解混方法计算量很大,而且往往难以评估,限制了它们在实时场景中的适用性。
方法
我们提出一种基于相量的方法,作为MSOT中光谱成分定量的快速且直观的解决方案。通过将多光谱数据投影到二维相量平面上,该方法能够直接可视化光谱成分,并快速检测意外信号或伪影。使用具有流动血液的光学表征实验模型对该方法进行了验证,从而可以与线性混合模型(LMM)进行比较。然后将其应用于克罗恩病患者和健康对照的临床MSOT图像。
结果
相量方法有助于识别伪影和光谱异常,显著提高了MSOT数据的可解释性。在处理速度方面,它也优于传统的解混算法,使其适用于实时应用。在临床数据集中,该方法揭示了克罗恩病患者和健康个体之间不同的光谱模式,突出了其检测生物复杂系统中变化和差异的能力。
结论
这项工作确立了相量方法作为MSOT光谱解混的强大工具,在数据解释方面兼具速度和清晰度。其实时能力和诊断潜力支持MSOT在临床上更广泛地用于非侵入性疾病特征描述。
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