Multimodal Brain Imaging for Alzheimer's Disease Diagnosis: A Critical Analysis of Adversarial Networks

N. Ravikumar, Dr. T. Kamaleshwar

Abstract: One of the main causes of dementia, Alzheimer's disease (AD) affects millions of people worldwide and has a profound effect on both the patients and their families. Because it enables prompt action and better illness management, early identification is essential for better outcomes. Understanding the course of the disease and its underlying pathological alterations requires an accurate segmentation of the brain areas affected by AD. Through the use of multimodal brain imaging techniques, this initiative seeks to improve the segmentation of brain alterations associated with Alzheimer's disease. In doing so, the research makes use of the advantages of both MRI scan images as well as brain tumor data to produce a more thorough understanding of the structural changes in the brain. Data from these various imaging sources will be integrated using sophisticated deep learning models, especially adversarial networks, which will improve the segmentation process's accuracy and dependability. Along with increasing detection efficiency, this multimodal technique provides important new information about the interaction between tumors in the brain and the pathogenesis of Alzheimer's disease. The expected outcomes of this investigation should greatly enhance the precision of Alzheimer's disease diagnosis and enable individualized treatment plans. The goal of this project is to close the gaps in the present diagnostic techniques, giving physicians better tools to manage Alzheimer's patients. In the end, the results will help improve the quality of treatment for those impacted by this difficult condition and enable early interventions.

Keywords: Alzheimer's Disease, Brain Imaging, MRI Scan Images, Multimodal Imaging, Brain Tumor Data, Segmentation, Deep Learning, Adversarial Networks, Disease Progression, Diagnostic Accuracy