1 12 LÆK.NABLADIÐ scanning like CT is an effective method of diagnosing and distinguishing between extra- cerebral and intra-cerebral lesions (Fig. 7). There are good grounds for believing that the problem of the isodense subdural haematoma which is encountered with CT scanning can almost certainly be obviated with NMR (8). In vascular malformation and giant aneurysms (Fig. 8) flow dependent sequences allow their diagnosis without the need for any contrast media. Performed as the initial investigation NMR removes the need for angiography where the size of site of the angioma would preclude operation and in other cases pro- vides useful anatomical information comple- menting the angiogram. In the study of the brain stem, the upper cervical cord and lesions impinging on the midline ventricular system the sagittal plane is extremely valuable. The assessment of conge- nital and acquired abnormalities (Fig. 9) at or adjacent to the cranial vertebral junction is simplified by the use of NMR imaging and this will probably allow the more invasive proce- dures to be avoided (9). The exquisite discrimination between grey and white matter shown on T^ weighted images (Fig. 10) has now been well document- ed and their application to the study of the normal time course of myelination in the infant brain and to the diagnosis of demyelinat- ing disorders has been reported by the Ham- mersmith Group (10, 11). Although images weighted by T2 (Fig. 11) are relatively featureless they have been shown to be a sensitive scan mode in the detection of a wide variety of intra-cranial pathologies (12). As with CT orbital examinations display the globes, optic nerve and extra-ocular muscles contrasted against the retrobulbar fat. The multiplanar facility of NMR is useful to establish the precise relationship of tumours to normal structures (13). BODY SCANNING Despite the inevitable degrading effects of involuntary body movements such as respira- tion and peristalsis satisfactory images of the abdomen and pelvis can be obtained with a scan time of between 2 and 4 minutes (14). The principal solid organs can be identified and several textural and density differences are noted as between the liver and spleen. Depo- sits of fat give a high signal and in the retro- peritoneal space this allows the kidneys and adrenal glands to be clearly outlined (Fig. 12). The walls and lumen of the principal blood vessels are readily identified on flow depen- dent sequences and the spinal column and paravertebral muscles are well shown. More significantly the spinal cord can be displayed without the use of intra-thecal contrast media which is necessary in CT. Within the pelvis the bladder can be clearly identified with its walls being contrasted against surrounding extra- peritoneal fat and urine within. In the male a combined study of transverse and sagittal sections allows the mutual relationships be- tween the bladder, prostate, seminal vesicles and rectum to be shown in detaii (Fig. 13). In the female the uterus is seen as a homogen- Fig. 8. Transverse scans in a patient with a giant supra-sellar aneurysm. The contents of the aneu- rysm give a zero signal with a) the modified SSFP sequence and b) the unmodified SSFP sequence indicating the presence of blood in motion.

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