 Hello, everyone. Myself Dr. Pallaviji, junior resident, department of behavioral diagnosis. Myself medical colicum research institute. Myself, I would like to thank Indian behavioralists for giving this opportunity. My paper is on magnetic resonance imaging, DIN, and magnetic resonance venography in the evaluation of cerebral venous thrombosis. Coming to the introduction, cerebral venous thrombosis is literally uncommon neurologic disorder. It is potentially reversible which is caused by internal obstruction, thrombosis, or external condition. The clinical presentation is variable and venous thrombosis is interpreted into the CDM multifoccal decreases, seizures, and coma. Conventional digital subtraction in cerebral angiography, CT, MRA, and recently MR venography, and the CT venography have been used to diagnosis this condition. Over the last decade, magnetic resonance imaging has been shown to be an effective alternative to this method with the use of MR venographic techniques. It is fast becoming one of the majority of the drugs for the diagnosis and evaluation of the neural science. And the cerebral venous thrombosis is variable, MRA facilities available. Some special MRS sequences such as diffusion with MRA, or related to new MRA techniques which is based on the molecular motion of the water is sensitive for detecting strokes due to the cytotoxic anovation in the mouth. Time frame MR venography is the most commonly used for the diagnosis of cerebral venous thrombosis. The combination of MRA, MR venogram, which allows for an accurate diagnosis of CVT, and is now the cold standard in the administration of the species. Come to the aims and objectives. It is to evaluate the findings of cerebral venous thrombosis using T1-V18-2-flame, diffusion-mated images, and a magnetic resonance venography. And to study the pattern of distribution of the superficial ideal cerebral venous thrombosis on magnetic resonance venography. And to study the pattern of changes associated in the cerebral venous thrombosis. Come to the materials and methods. Study design is a descriptive study was conducted. The source of the subjects of the study work, the patient who are found to have a CVT on MRA and MRD in the hospital attached to the Mysore Medical College and the Institute of Mysore. The samples are just our study was put in. The calculation is based on the prevalence of cerebral venous thrombosis as evaluated by the MRA which is equal to 25% with the available absolute error considered at 6%. Standard normal reading for 6% or 5% which is of 4%. Inclusion criteria, all the patients come informed by the MRA and MRD as a several millionth thrombosis. All age groups and the both success are included. Exclusion criteria, the patient having a stroke, claustrophobia, the patient having a stroke, metallic implants, incision, cardiac pacemakers, and a metallic foreign body institute. The patients who have not been able to give a consent. The technique, all the patients were related with the 1.5-pesla MRA-8 channel G-devo MRD machine. The sequences used were axel, t-men, spin echo, sedative t-men play, axel and coronary T2, fast spin echo, axel play, axel T2 star, and 2B, time effect sequences. The results of the study were in our study, the major patient born in the age group of 2030 years. In our study, the mean age group of the patient was in 30 or 4 decades. In our study, there was a female pacemaker who had a number of childbirths in the age group of 40 or 44. It shows theность of the patient depending on the cause of the patient. The case in which the cause of the patient was born. It was followed by alcohol consumption, Manhadesh, and sexes. In the present study, the focal grain abnormalities were found in 74% of the cases. The most common focal grain abnormality was hemorrhagic infarction, which is found in 54% of the cases, followed by a non-hemorrhagic infarction in 20% of the cases. This chart, which shows a distribution of patients with the CVD, depending on the sciences, is involved. In the present study, the most common signage to be apricate was the superior sedative sinus, followed by the left transfer sinus. And in detection by the MRV and at 192-quitted sequences. The chi-square value of 4.017 and the probability value of 0.896 reveals a non-significant difference between the MRV diagnosis and the T1 and T2 divorces of the number of patients with a CVT. In the star, we can see the detection of 42 venous tomases with T2 star and the T1 and T2 sequences. Chi-square value of 1.9 2g and the probability value of 0.160 reveals a non-significant difference between the T2 star diagnosis and the T1 and T2 divorces of number of patients with a cortical venous tomases. Here you can see the detection of the almost deep venous segments with the MRV, T2 star and the T1 sequences. The chi-square value of 6.4 and the probability value of 0.011 reveals a significant difference between the T2 star diagnosis and the T1 and T2 diagnosis of the extent of thrombosis of deep venous system. Similarly, a significant difference between the MRV diagnosis and the T1 and T2 diagnosis of the extent of thrombosis of the deep venous system was noted. Coming to few examples, here the case 1, there is an axiom T2 and the flay hyperintensities is noted in bilateral basal ganglia, thalamine and the periventricular regions. In image axiom T2 star, image is showing a blooming artifact in the throat, the internal cerebral veins such to have thrombosis and a blooming artifact in the left lateral ventricles such to the interventricular hemorrhage. This is a 2D took off mid-image which is shown absent of 4 in the slight sinus. So, it is a lateral sinus, bilateral transverse sinus, left-sigma sinus, and bilateral internal cerebral veins such to have thrombosis. In case 2, it is shown the hemorrhage impacts in bilateral and the left occipital lobes such to have thrombosis. In example 3, the axiom T2 vacate image which is showing loss of flow while in the right transverse and the sigma sinus which happens to flow in the same just you know 2D time of flight mid-image towards thrombosis. In example 4, here you can see the coronary duty image which is showing hemorrhage impact in the left lateral lobe with the axiom T2 star image which is showing hemorrhage impact in the left lateral lobe along with the blooming artifact in the superficial corticulum such to have thrombosis. This is a 2D took off mid-image which is only how this is shown in the right transverse sinus and sigma sinus such to have thrombosis. In example 5, it is a coronary duty image which is showing the loss of flow while in superior lateral sinus and left transverse sinus and the sigma sinus which happens to flow in the same just you know 2D took off mid-image such to have thrombosis. Coming to the discussion of a study which included a 50 patients who were admitted to take a serovibinous thrombosis in which serovibinous activity is thought to be more turbulent than in me. The most common age group in the recurrent study was in the current study was found to be between the 20 to 30 years of age with a mean age of patients 36.1 years. Pippuram was the most common cause of serovibinous activity in the present study. It was followed by alcohol consumption, rehabilitation, and sex. And 20% of the patients the cause of serovibinous activity could not be identified. These results agree with the study but not because it the most common predisposing factor was Pippuram which they found in 200 out of 230 cases of CVT. In the present study, CVT due to the internal thrombosis was seen 94% of the cases being caused by the X-ray composition by the malignancy in the study connected by that. At the lateral internal thrombosis was most common cause of serovibinous activity occurred in 86.7% of the patients. The most common cause of serovibinous activity in the present study was hemorrhagic infarction. This one had 24% of the cases followed by 20% of the cases by hemorrhagic infarction. The present study, the most common sign is to be effective was today's lateral sign is followed by the left transverse and the superficial cortical veins were inverted 28% of the cases. The condition of hemorrhage in the V-axis, CVT to be currently diagnosed and now the ghost and the diagnosis of this disease. The current study 48% patients had a loss of flow in our absorbed P1 and P2 images of the 50 patients who had a CVT confirmed on hemorrhage. In two patients, MRV confirmed the CVT even though only two of the loss of flow was detected on the condition of hemorrhage. Regarding the extent of thrombosis in individual sinuses in the 50 cases of the 2020 thrombosis detected on MRV, cross of the flow was noted only in ancient sinuses. It was well established that the postures are common on spin-neko sequences due to the slow flow in the plane flow and entry since slice phenomenon. This coupled with the discrepancies in our study between the conventional sequences and MRV. After 15 deep end venous segments involved in six patients, MRV and a T2 star images detected the thrombosis in all the 15 segments. However, P1 and T2 images detected thrombosis in the vein of the gallon in two of the patients. The above findings shows the significance of T2 star sequences in CVT direction. Coming to the conclusion, Cerebral venous occlusion disease is an illusion often under the diagnosed cause of the antidiagnosis cause of the active neurological duration. The technique of choice for the diagnostic assessment and the follow-up of the dual venous sinuses thrombosis is an MR angiopathy. The most comprehensive non-invasive stage in viral diagnostic modality for vascular anatomy delineation, Cerebral venous thrombosis diagnosis and six endocrine involvement, parenteral involvement, collateral circulation, purpose prediction and the follow-up is a magnetic resonance venous venevapy combined with a magnetic resonance in making. These are my references. Thank you.