Towards Real Time Alzheimer's Diagnosis: A PSO‐GA‐Driven Deep Learning Solution for Telemedicine

ABSTRACT Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline and structural brain deterioration, with its global prevalence projected to exceed 125 million by 2050. Early and accurate diagnosis—particularly the differentiation of mild cognitiv...

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Published in	International journal of imaging systems and technology Vol. 35; no. 5
Main Authors	Kumar, Anupam, Ahmad, Faiyaz, Alam, Bashir
Format	Journal Article
Language	English
Published	Hoboken, USA John Wiley & Sons, Inc 01.09.2025 Wiley Subscription Services, Inc
Subjects	Alzheimer's disease Classification computer‐aided diagnosis (CAD) Deep learning Diagnosis Feature extraction Genetic algorithms Machine learning medical image analysis Medical imaging nature inspired algorithms neurodegenerative disease detection Particle swarm optimization scalable medical AI Telemedicine
Online Access	Get full text
ISSN	0899-9457 1098-1098
DOI	10.1002/ima.70180

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Abstract	ABSTRACT Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline and structural brain deterioration, with its global prevalence projected to exceed 125 million by 2050. Early and accurate diagnosis—particularly the differentiation of mild cognitive impairment (MCI) from normal aging—is critical for effective intervention; yet it remains challenging due to subtle anatomical changes and high‐dimensional imaging data. This study presents a telehealth‐compatible computer‐aided diagnosis (CAD) framework for multi‐class AD classification using structural MRI (sMRI) images from the publicly available ADNI dataset. The framework integrates transfer learning with DenseNet121 (pre‐trained on RadImageNet) for deep feature extraction and employs a hybrid bio‐inspired particle swarm optimization–genetic algorithm (PSO‐GA) for feature selection and dimensionality reduction. This optimized pipeline reduces the original high‐dimensional feature space to 16 key features, improving classification accuracy from 88.48% to 99.78% using AdaBoost. The proposed PSO‐GA‐DenseNet framework delivers a lightweight, scalable solution suitable for remote diagnostic settings. Compared to existing state‐of‐the‐art models, it offers enhanced computational efficiency and robust cross‐site adaptability. Future research will focus on improving generalizability across imaging modalities and incorporating longitudinal data to enable real‐time, cross‐modal, and large‐scale deployment in clinical and telehealth environments.
AbstractList	Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline and structural brain deterioration, with its global prevalence projected to exceed 125 million by 2050. Early and accurate diagnosis—particularly the differentiation of mild cognitive impairment (MCI) from normal aging—is critical for effective intervention; yet it remains challenging due to subtle anatomical changes and high‐dimensional imaging data. This study presents a telehealth‐compatible computer‐aided diagnosis (CAD) framework for multi‐class AD classification using structural MRI (sMRI) images from the publicly available ADNI dataset. The framework integrates transfer learning with DenseNet121 (pre‐trained on RadImageNet) for deep feature extraction and employs a hybrid bio‐inspired particle swarm optimization–genetic algorithm (PSO‐GA) for feature selection and dimensionality reduction. This optimized pipeline reduces the original high‐dimensional feature space to 16 key features, improving classification accuracy from 88.48% to 99.78% using AdaBoost. The proposed PSO‐GA‐DenseNet framework delivers a lightweight, scalable solution suitable for remote diagnostic settings. Compared to existing state‐of‐the‐art models, it offers enhanced computational efficiency and robust cross‐site adaptability. Future research will focus on improving generalizability across imaging modalities and incorporating longitudinal data to enable real‐time, cross‐modal, and large‐scale deployment in clinical and telehealth environments. ABSTRACT Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline and structural brain deterioration, with its global prevalence projected to exceed 125 million by 2050. Early and accurate diagnosis—particularly the differentiation of mild cognitive impairment (MCI) from normal aging—is critical for effective intervention; yet it remains challenging due to subtle anatomical changes and high‐dimensional imaging data. This study presents a telehealth‐compatible computer‐aided diagnosis (CAD) framework for multi‐class AD classification using structural MRI (sMRI) images from the publicly available ADNI dataset. The framework integrates transfer learning with DenseNet121 (pre‐trained on RadImageNet) for deep feature extraction and employs a hybrid bio‐inspired particle swarm optimization–genetic algorithm (PSO‐GA) for feature selection and dimensionality reduction. This optimized pipeline reduces the original high‐dimensional feature space to 16 key features, improving classification accuracy from 88.48% to 99.78% using AdaBoost. The proposed PSO‐GA‐DenseNet framework delivers a lightweight, scalable solution suitable for remote diagnostic settings. Compared to existing state‐of‐the‐art models, it offers enhanced computational efficiency and robust cross‐site adaptability. Future research will focus on improving generalizability across imaging modalities and incorporating longitudinal data to enable real‐time, cross‐modal, and large‐scale deployment in clinical and telehealth environments.
Author	Ahmad, Faiyaz Alam, Bashir Kumar, Anupam
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Snippet	ABSTRACT Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline and structural brain deterioration, with its... Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline and structural brain deterioration, with its global...
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SubjectTerms	Alzheimer's disease Classification computer‐aided diagnosis (CAD) Deep learning Diagnosis Feature extraction Genetic algorithms Machine learning medical image analysis Medical imaging nature inspired algorithms neurodegenerative disease detection Particle swarm optimization scalable medical AI Telemedicine
Title	Towards Real Time Alzheimer's Diagnosis: A PSO‐GA‐Driven Deep Learning Solution for Telemedicine
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