 My name is Dr. Swarthak Rohit, and I'm here to present Afer on the role of MRI in patients with epilepsy. Epilepsy is one of the most common is this order, posing significant morbidity to the patient. Various imaging modalities are available to evaluate epilepticogenic focus, common ones are EEG, CT, and MRI. Out of which, MRI has a crucial role in diagnostic routine in epileptic patient. The main aim of this study was to assess the role of MRI in patient with epilepsy and assist in detection of epilepticogenic focus to detect and characterize the structural region of diseases and significantly influence the treatment plan in the prognosis to provide precise characterization, location, extent of pathology, and its relation to vital cerebrostructures. I have included study of 120 conservative patients visiting with epilepsy and they were screened by using MRC men's medetones cardiac 3D machine. All ages patient without any gender bias and clinically having some kind of epilepsy were included in the study. Those patients who have a clear contraindication of MRI investigation like patients with metallic fragments, or devices in pain, or insulin pumps or cardiac pacemaker were excluded from the study. Both seizure was briefly explained to the patient and according consent was taken. My study period was from March 2021 to March 2022. One of the MRI sequences which included in the study was conventional MRI sequences like diffusion rate, T1 rate exhumed, T2 rate exhumed, and sedentary, flare, poron, gradient deco, and Sveglia images. Additional epilepsy sequences where T1 rate immobilized and recovered due to a public problem. The contrast study was given by injecting the magnetic catalytic contrast with the dose of 1-minimolar kg of body weight. Results included out of 120 patients 42 at the low 25 years of age and 70 to 8 years we are above 25 years of age. Out of 120 patients 56 were female and 43% were female. Out of 120 patients 80 patients were found to be normal and the rest of the patient having some kind of pathology out of which the classes was the most common post associated with epilepsy. The next most common course was visual temporal sclerosis. Mass lesion which were detected on MRI associated with epilepsy, VIP9, as well as malignant. The common ones are low-grade glioma, dysplastic neuroendocrine tumor, and intracranial dermal. Majority of the pediatric patient with hypoxic injury or its equally and glauces had some kind of pathology associated with birth type asphyxia or attack of hyperglycine or assistive ventilation. Some common infective etiology which are associated with epilepsy where men in the encephalitis out of which that affects men in the encephalitis was most common. In pediatric age group, the purpose of the age in this is focal cortical dysplasia, like David of medicine syndrome, polymicrovalium, eucalyptus, and other factors of epilepsy. Some examples associated with the epilepsy out of which the mass lesions which are associated with the epilepsy, the glioblastoma are high-grade glioblastoma, the high-grade tumors which is WHO grade 3 or WHO grade 4 tumors. Other tumors associated with epilepsy are oligodendrochloroma. The appearance of glioblastoma was heterogeneous hyperenters on T2-way dimeters, heterogeneous hyperenters on T1-way dimeters, having peripheral enhancement with centered non-enhancing necrotic radius, oligodendrochloroma, having a cortex or subcortical white matter involvement which is hypointase to T1-way, and heterogeneous hyperenters on T2-way dimeters. It can have cystic degeneration, calcification, or hemorrhagic areas within it. D-net is a WHO grade 1 tumor which is commonly associated with the intractable temporal lobe epilepsy. MRI shows bubbly appearance on T2-way dimeters and does not completely suppress on flyer images and it doesn't have any diffusion restriction. Some benign etiologies which are associated with epilepsy out of which the most common was gliosis and ankylomolation, which is having a CSF-signal intensity on all the sequences. Musial temporal sclerosis, T2-oblique corona image is the best image to sequence to diagnose the musial temporal sclerosis which is having a finding of a reduced hippocampal volume which can be insulated or bilaterally. Perimental decermination, it is a white matter injury of premature prematurity affecting the perimenticular zone, typically resulting in cavitation and perimenticular cyst formation. It is common in premature newborns and less than 1.5 pg at birth child. Acute infar, which is having acute onset of seizure followed by limb thickness. MRI showed diffusion restriction and subsequent fall in the off-signal in ADC images. Another infective etiology associated with epilepsy was neuropathosis. It showed various, it is caused by CNS infection, which is caused by Poc-tepform, T-neasolium, it showed various stages of lesion. Stages include the vesicular, colloidal vesicular, granular nodular and nodular calcify. The lesion might have a spolex which can have a GRI pluming. Metachromatic liquidisophage is one of the most common is autosomal recessive liquidisophage. Metachromatic liquidisophage is one of the most common is autosomal recessive liquidisophage. MRI shows violator-symmetrical confluent areas of perimenticular deep micrometer signal changes, particularly around the atrium frontal and lateral ventricles. Another one was type David of nascent syndrome, which is having the hemisereverte atrophy or hypoplasma, secondary to brain insert in fetal or early childhood and its lateral colloidal technique was a common finding associated with David type David of nascent syndrome. In summary, convention MRI brain sequences cannot be limit, subtle structure changes in patient with epilepsy. Epilepsy sequences are very helpful for the same. Decreasing the slight thickness removes the effect of partial volume, and results in sharp images. By orienting the axis of imaging to the long axis to hypoplasma, it can be assessed adequately and subtle findings of visual temporal splenosis can be really possible. So MRI is the definitive modality in assessing brain structure and pathologies both congenital and acquired. With the help of MRI epilepsy sequences, it is possible to successfully characterize the brain pathology as well as its precise location and extent and effect on brain pyromania. It is very informative, accurate, and having additional advantage of being non-universal with region-free modality for relational patients with epilepsy. Thank you.