 Greetings everyone, my name is Dr. Jaganivas M.K., 30 days resident from B.O.L. Naira Hospital and I had to present a paper on the topic of fetal MRI and Agile 2-EOSG detection of fetal CNS anomalies. Introduction The ultrasound is the primary modality for fetal imaging because of its relatively low cost, lack of harmful effect on fetus and mother and its real-time capabilities. The MRI has proven to be useful in characterization of CNS anomalies which are not really visible on EOSG that due to technical limitations or due to non-specific appearance of those anomalies. MRI provides good depictions of the anomalies of corpus colosso, post-tepos, and spinotela which are not really detected by the ultrasound or detected only with certain level of doubt. The visualization of MRI as a problem so I have been told if we need a diagnosis of these cases as rapidly increasing. So aim of my study is to describe the role of MRI as an agent to ultrasound in the diagnosis of fetal CNS anomalies. The method includes, we had taken the studies EOSG and fetal MRI done in our institute during the period of last two years for the study. So this is the case one, 20-year-old ANC mother with 30 years of gestational EOSG and on ultrasound we can see the dilated retroventrical, tharventrical with perimain hypoplasia. So additionally we did the MRI and retrieval of findings of hydrocapillus perimain hypoplasia with ZC-brain stem, small occipital meningocytes, non-operculation of syrupy infeasores, egg area that is listed in kafaria, and loss of zonal differentiation. So we deported this as a case of Hocker-Wartburg syndrome. So case two, 20-year-old ANC mother with 34 weeks of gestation, the U.S.E.s old dilated retroventrical, bilaterally with a widened intramus peri-fusions, and the evaluation is incomplete due to the non-availability of mid-size sedentary sections, which is due to the bone evaporation artifacts due to increased metamineria, that is 34 weeks. So once again we did the MRI, the MRI revealed dilated occipitalons, colpaciferin, with small frontal haunts, viking helmet appearance, with absinceptor perisodum, and widened intramus peri-fusure and props bundles, so you can see here. The sagittal images revealed axon corpus colosum and radiating gyrile. So we deported this as a case of corporecolosal agenesis with colpociferin. The 38-year-old made, that is with some gestation, pressure for U.S.G., and if I don't enter intramus peri-fusure, there will be hypopasia and dilated occipital haunts in U.S.G. On MRI, we can see there is an anterior intramus peri-fususus, absinceptor perisodum and absinct corporecolosum. We can see here, once again, I appreciate the viking helmet sign here. There's abnormal neuronal layering pattern seen in the right frontal lobe with polymicrogaria. We can see the hypoplastic vermus with increased segment over main angle, and there's the upturned and rounder festygium and small occipital meningosy here. And this image, we can appreciate the consuperseribular peduncle. It's prominent post-interpreter clausosa. We reported this case as a case of jobber syndrome with dantivocular cratidium. The patient underwent post-natal MRI, which also revealed the similar findings. This is a case for another 31-year-old antinatal mother with 28-weeks of gestation. They came for U.S.G. and U.S.G. Pandora varimian hypopasia with cystic galatation of posterior posa. Once again, the reverberation artifacts in there impart the evaluation of posterior posa. The patient underwent MRI and MRI, we can see dilator posterior posa with dilator fort venticle communicating with the posterior posa with elevated tentorium cerebellum. And there is tercloal lambda reinversion noted in this case. Image B, we can see vermin hypopasia with increased segment over main angle, nursery 86 degrees, the normal is less than 80 degrees. We can also appreciate hypoplastic cerebellum and mildly dilator at the same time. So we reported this case as a dandy work of morphemations. This is the last case, case number five, 33-year-old ANC mother with 28-weeks of gestation age come for ultrasound. We can see the widening of spinal canal of the upper dorsal column with dysmorphic posterior bony elements. And there is aspiration of spinal cord due to posterior prosthetic shadowing. So this patient also underwent MRI and MRI, we can see at the level of Mr. Dilrugian, there is splitting of spinal cord with O.C.S. It can be seen in this images, along with dysmorphic posterior elements. And we can also appreciate mild school uses. So we reported this case as a case of diastromylamia. As a summary, we can see there are five cases, the case number one, walkable syndrome. We found only hydrocopylasin, vermin hypopasia and U.H.G., the additional findings in MRI, including synkephal E, onopocletation of sylvian fissures, small occipital meningocytes, loss of zonal differentiation. In the second case of corpus closer to the genesis, in addition to dilator occipitalis on white and heat hemisphere feature, we found that abs and corpus callosum, abs and septoplasia and prop fundus in MRI. Third case, job of syndrome with dendrocoma formation, in addition to the anti-termospiricis, vermin hypopasia, dilator occipitalis, we can find out abnormal neuronal layering pattern, polymachrogaria, abs and septoplasia, abs and corpus callosum, deconciple cerebral pedigree, and occipital meningocytes. Fourth case, dendrocoma formation, in addition to vermin hypopasia and sylvian fissure, we can appreciate the topolambide inversion in MRI with increased segmental vermin anger and hypopasic cerebral. In the fifth case of diastromylamia, we can appreciate avoidance of dorsocervicus, thionic canal with dysmorphic post developments on EUHE, but the MRI also gave us added finding or splitting of spinal cord with occipital and myoscorium. So, as a discussion, we evaluated retrospectively the efficiency of ultrasound on MRI performed in the pre-retail period in between the fetal craniospin anomalies. The craniospin anomalies are most important area where the MRI contributes to ultrasound. The craniospin anomalies almost constitute 80% of the fetal MRI examinations. The most common indication for fetal MRI is ventricular megali, and 40% of the fetal brine and spinal imaging is performed due to ventricular megali. The most important clinical consideration in the fetus ventricular abnormality or the severity of the ventricular dilatation, and the presence or absence of other CNS abnormalities can be better delineated and conformed by using the MRI examinations. There are a few anomalies that ultrasound failed to show or diagnose include the erotube defects, corticum opumation, carpal colosal abnormalities and posterior osomal wall formation. And these are few studies that support my paper. So the study done by Robert et al showed that MRI is frequently used as an axillary method to ultrasound, duties, multi-penal imaging capacity, and excellent sub-tutorial resolution. The pre-retail study stated that MRI offers additional information even when using only basic protocols consisting of P1 and P2 et al images. Study done by Sotri Addis also showed that MRI detected additional cerebral abnormalities in 22.5% of cases with isolated ages of carpal colosal. Surgery also coincided with studies done by Young Seekal and Bledcher et al. So to conclude, the main role of fetal MRI is to confirm and exclude the lesion, suspectron, and EOSG to define an external and demonstrative associated abnormalities. The fetal MRI scores over EOSG due to its highest spatial resolution, larger field of view, and ability to visualize fetal alacta we will respect scanty likers. MRI appears to be important role in pre-surgical evaluation and post-surgical follow-up in the field of fetal surgery. Simultaneous imaging of different organs and reproducibility of images and producing this facet is the surgical planning and intervention and helps to predict post-natal management and helps in genetic other sequences including DWI, ADC, a mass spectroscopy, functional imaging and volumetric data acquisition are still under research and are showing future promise. These are some references. Thank you.