DEEP LEARNING–BASED MORPHOMETRIC ASSESSMENT OF CEREBRAL HEMISPHERE STRUCTURES USING MRI
Авторы
G.E. Raxmonova
M.D. Rahmanova
I.I. Izbasarov
Информация о публикации
Метрики
Аннотация
Magnetic resonance imaging (MRI) remains the gold standard non-invasive technique for detailed morphological visualization of central nervous system structures in vivo. Its superior soft-tissue contrast, multiplanar capability, and absence of ionizing radiation make MRI indispensable for neurological assessment in both clinical and research settings. Morphometric analysis of cerebral hemispheres — encompassing quantitative evaluation of cortical thickness, gray matter volume, white matter integrity, and hemispheric symmetry indices — plays a pivotal role in the early detection, differential diagnosis, and longitudinal monitoring of a wide spectrum of neurological and psychiatric disorders, including Alzheimer's disease, schizophrenia, multiple sclerosis, focal epilepsy, and traumatic brain injury.
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Список литературы
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Future work will focus on expanding the training dataset to include pediatric
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populations, rare neurological conditions, and multi-site multi-vendor MRI data to
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further improve generalizability. Prospective clinical validation studies are planned to
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assess the impact of AI-assisted morphometric reporting on diagnostic accuracy and
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clinical decision-making. Integration of the framework into a clinical PACS
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compatible workflow with automated report generation is currently under development
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at Tashkent State Medical University. These efforts aim to translate the demonstrated
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technical capabilities of deep learning–based neuroimaging analysis into tangible
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