DEEP LEARNING–BASED MORPHOMETRIC ASSESSMENT OF CEREBRAL HEMISPHERE STRUCTURES USING MRI
Mualliflar
G.E. Raxmonova
M.D. Rahmanova
I.I. Izbasarov
Nashr haqida ma'lumot
Metrikalar
Annotatsiya
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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[1]
Future work will focus on expanding the training dataset to include pediatric
[2]
populations, rare neurological conditions, and multi-site multi-vendor MRI data to
[3]
further improve generalizability. Prospective clinical validation studies are planned to
[4]
assess the impact of AI-assisted morphometric reporting on diagnostic accuracy and
[5]
clinical decision-making. Integration of the framework into a clinical PACS
[6]
compatible workflow with automated report generation is currently under development
[7]
at Tashkent State Medical University. These efforts aim to translate the demonstrated
[8]
technical capabilities of deep learning–based neuroimaging analysis into tangible
[9]
improvements in patient care within the Central Asian healthcare context.