A spatio-temporal fusion-based approach for multi-dimensional classification of Parkinson’s disease progression using multi-modal dataset

A spatio-temporal fusion-based approach for multi-dimensional classification of Parkinson’s disease progression using multi-modal dataset

Context: The progressive neurodegenerative disorder Parkinson’s disease (PD) features diverse symptom presentation that progresses at different speeds and demands effective disease classification with precise patient management. The traditional methods demonstrate insufficient ability to detect the...

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Main Authors: Vinay Kukreja, Vandana Ahuja, Modafar Ati, Hariharan Shanmugasundaram, Murugaperumal Krishnamoorthy, Rishabh Sharma, Abhishek Bhattacherjee
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Results in Engineering
Subjects:
Parkinson’s disease progression
Spatio-temporal fusion and prediction-based model
Multi-modal data integration
Graph neural network
Temporal convolutional network
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025013878
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Summary:Context: The progressive neurodegenerative disorder Parkinson’s disease (PD) features diverse symptom presentation that progresses at different speeds and demands effective disease classification with precise patient management. The traditional methods demonstrate insufficient ability to detect the complex spatial-temporal connections between various clinical data types which highlights the need for advanced computational approaches. Objective: The proposed study pioneered a state-of-the-art Spatio-temporal fusion and prediction (STFP) algorithm model approach that utilizes Graph neural network (GNN) and Temporal convolutional network (TCN) for multi-task classification of PD covering three significant dimensions: disease stage, progression speed, symptom subtype classification. Methods: By employing the fusing approach for structural medical resonance imaging (MRI) and dopamine transporter scan (DaTSCAN) along with clinical biomarker data to examine spatial and temporal relationships a fused feature representation was developed. PPMI dataset was employed for training and evaluation of the multi-task classification model with Cohen’s Kappa, cumulative link model (CLM), the area under the precision-recall curve (AUC-PR), and Brier score prominent evaluation metrics for analyzing the robustness of the model. Key Findings: A Cohen’s Kappa of 0.89, a CLM score of 0.91, and an AUC-PR of 0.94 have been recorded for early-stage classification, slow progression, and motor symptom classification respectively demonstrating the outperformance of the proposed model. The superiority of the model has been established with p-values (<0.05) for ANOVA and Wilcoxon tests. Conclusion: The STFP-based model advances the modeling of PD progression by improving classification accuracy and diagnostic clarity. Subsequent research will investigate more data modalities and their practical application in healthcare.
ISSN:2590-1230

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