Multinomial logistic regression algorithm for the classification of patients with parkinsonisms.

IF 3.1 3区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

EJNMMI Research Pub Date : 2025-03-16 DOI:10.1186/s13550-025-01210-0

Eva Štokelj, Tomaž Rus, Jan Jamšek, Maja Trošt, Urban Simončič

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引用次数: 0

Abstract

Background: Accurate differential diagnosis of neurodegenerative parkinsonisms is challenging due to overlapping early symptoms and high rates of misdiagnosis. To improve the diagnostic accuracy, we developed an integrated classification algorithm using multinomial logistic regression and Scaled Subprofile Model/Principal Component Analysis (SSM/PCA) applied to ¹⁸F-fluorodeoxyglucose positron emission tomography (FDG-PET) brain images. In this novel classification approach, SSM/PCA is applied to FDG-PET brain images of patients with various parkinsonisms, which are compared against the constructed undetermined images. This process involves spatial normalization of the images and dimensionality reduction via PCA. The resulting principal components are then used in a multinomial logistic regression model, which generates disease-specific topographies that can be used to classify new patients. The algorithm was trained and optimized on a cohort of patients with neurodegenerative parkinsonisms and subsequently validated on a separate cohort of patients with parkinsonisms.

Results: The Area Under the Curve (AUC) values were the highest for progressive supranuclear palsy (PSP) (AUC = 0.95), followed by Parkinson's disease (PD) (AUC = 0.93) and multiple system atrophy (MSA) (AUC = 0.90). When classifying the patients based on their calculated probability for each group, the desired tradeoff between sensitivity and specificity had to be selected. With a 99% probability threshold for classification into a disease group, 82% of PD patients, 29% of MSA patients, and 77% of PSP patients were correctly identified. Only 5% of PD, 6% of MSA and 6% of PSP patients were misclassified, whereas the remaining patients (13% of PD, 65% of MSA and 18% of PSP) are undetermined by our classification algorithm.

Conclusions: Compared to existing algorithms, this approach offers comparable accuracy and reliability in diagnosing PD, MSA, and PSP with no need of healthy control images. It can also distinguish between multiple types of parkinsonisms simultaneously and offers the flexibility to easily accommodate new groups.

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帕金森患者分类的多项逻辑回归算法。

背景：神经退行性帕金森病由于早期症状重叠和误诊率高而具有挑战性。为了提高诊断准确性，我们开发了一种综合分类算法，将多项逻辑回归和尺度子剖面模型/主成分分析（SSM/PCA）应用于18f -氟脱氧葡萄糖正电子发射断层扫描（FDG-PET）脑图像。在这种新的分类方法中，SSM/PCA应用于各种帕金森病患者的FDG-PET脑图像，并将其与构建的未确定图像进行比较。该过程包括图像的空间归一化和通过PCA降维。然后将得到的主成分用于多项逻辑回归模型，该模型生成疾病特异性地形，可用于对新患者进行分类。该算法在一组神经退行性帕金森患者中进行了训练和优化，随后在另一组帕金森患者中进行了验证。结果：进行性核上性麻痹（PSP）患者的曲线下面积（AUC）最高，AUC = 0.95，其次为帕金森病（PD）（AUC = 0.93）和多系统萎缩（MSA）（AUC = 0.90）。当根据计算出的概率对每组患者进行分类时，必须在敏感性和特异性之间进行理想的权衡。以99%的概率阈值分类为疾病组，82%的PD患者、29%的MSA患者和77%的PSP患者被正确识别。只有5%的PD， 6%的MSA和6%的PSP患者被错误分类，而其余患者（13%的PD， 65%的MSA和18%的PSP）未被我们的分类算法确定。结论：与现有算法相比，该方法在诊断PD、MSA和PSP方面具有相当的准确性和可靠性，无需健康对照图像。它还可以同时区分多种类型的帕金森病，并提供灵活性，轻松适应新的群体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EJNMMI Research RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING&nb-

CiteScore

5.90

自引率

3.10%

发文量

审稿时长

13 weeks

期刊介绍： EJNMMI Research publishes new basic, translational and clinical research in the field of nuclear medicine and molecular imaging. Regular features include original research articles, rapid communication of preliminary data on innovative research, interesting case reports, editorials, and letters to the editor. Educational articles on basic sciences, fundamental aspects and controversy related to pre-clinical and clinical research or ethical aspects of research are also welcome. Timely reviews provide updates on current applications, issues in imaging research and translational aspects of nuclear medicine and molecular imaging technologies. The main emphasis is placed on the development of targeted imaging with radiopharmaceuticals within the broader context of molecular probes to enhance understanding and characterisation of the complex biological processes underlying disease and to develop, test and guide new treatment modalities, including radionuclide therapy.