PURPOSE: There have been some efforts to diagnose intracranial aneurysm through a non-invasive method using MRA, although the process may be difficult when the lesion is less than 3mm. The present study prospectively compare the results of high resolution, fast speed slice interpolation MRA and DSA therapy examing the potentiality of primary non-invasive screening test. MATERIALS AND METHODS: A total of 26 cerebral aneurysm lesions from 14 patients with subarachnoid hemorrhage from ruptured aneurysm (RA) and 5 patients with unruptured aneurysm(UA). In all subjects, MRA was taken to confirm the vessel of origin, definition of aneurysm neck and the relationship of the aneurysm to nearby small vessels, and the results were compared with the results of DSA. The images were obtained with 1.5T superconductive machine(Vision, Siemens, Erlangen, Germany) on 4 slabs of MRA using slice interpolation. the settings include TR/TE/FA=30/6.4/25, matrix 160x512, FOV 150x200, 7minutes 42seconds of scan time, effective thickness of 0.7mm and an entire thickness of 102.2mm. The images included structures from foramen magnum to A3 portion of anterior cerebral artery. MIP was used for the image analysis, and multiplanar reconstruction(MPR) technique was used in cases of intracranial aneurysm. RESULTS: A total of 26 intracranial aneurysm lesions from 19 patients with 2 patients having 3 lesion, 3 patients having 2 lesions and the rest of 14 patients having 1 lesion each were examined. Among those, 14 were RA and 12 were UA. Eight lesions were less than 2mm in size, 9 lesions were 3-5mm, 7 were 6-9mm and 2 were larger than 10mm. On initial exams, 25 out of 26 aneurysm lesions were detected in either MRA or DSA showing 96% sensitively. Specificity cannot be estimated since there was no true negative of false positive findings. When MRA and MPR were used concurrently for the confirmation of size and shape, the results were equivalent to those of DSA, while in the confirmation of aneurysm neck and parent vessels, the concurrent use of MRA and MPR was far superior to the sole use of either MRA or DSA. CONCLUSION: High resolution MRA using slice interpolation technique showed equal results as those of DSA for the detection of intracranial aneurysm, and may be used as a primary nin-invasive screening test in the future.
Aneurysm ; Aneurysm, Ruptured ; Angiography* ; Angiography, Digital Subtraction* ; Anterior Cerebral Artery ; Foramen Magnum ; Humans ; Intracranial Aneurysm* ; Mass Screening ; Neck ; Parents ; Prospective Studies ; Sensitivity and Specificity ; Subarachnoid Hemorrhage

PURPOSE: To investigate the optimal delay and acquisition time for discrimination of the arterial from thevenous phase in ultrafast 3D contrast-enhanced MR angiography of the carotid artery. MATERIALS AND METHODS: Wereviewed the MR angiographic findings of 233 patients in whom carotid stenosis and cerebrovascular disease weresuspected. On the basis of delay and acquisition time they were divided into four groups. In the first three,contrast material was injected manually, and after the optimal time, mechanical injection was used for the lastgroup. On the basis of signal intensity of the carotid artery, image quality was graded in four steps.Discrimination of the arterial from the venous phase was graded in three steps, based on the degree of venousenhancement. RESULTS: The best grade of image quality was 70% in the first group, 85% in the second, and 95% inthe third. In discrimination of the arterial-venous phase, the most definite grade was 50% in the first group, 62%in the second, and 75% in the third. Between manual and mechanical injection groups, there was no significantdifference in image quality and discrimination of the arterial-venous phase. CONCLUSION: These results suggestthat for ultrafast 3D contrast-enhanced MR angiography of the carotid artery, with manual injection of contrastmaterial, 8-second delay time and 7-second acqusistion time are optimal.
Angiography* ; Carotid Arteries* ; Carotid Stenosis ; Discrimination (Psychology)* ; Humans

The purpose of this study was to compare the image quality of 3D-TOF MR angiography (MRA) using Gadomer-17 with that using Gd-DTPA in a flow phantom model, and to present preliminary data about the proper dose concentration of Gadomer-17. In the visual analysis of vessel conspicuity, we compared the quality of pre- and post-contrast MIP images. For quantitative analysis, the signal intensities were measured in the axial base 3D-TOF images, and then the relative contrast enhancement was calculated. The results of our studies were that: 1. Maximal signal intensities were obtained at 1 mmol/L of Gadomer-17 and 4 mmol/L of Gd-DTPA. 2. Flow-related signal loss was decreased by Gd-DTPA proportional to the concentration, but Gadomer-17 did not show such a dose accumulative effect. In conclusion, after comparing the results of Gd-DTPA, it was clear that improved MRA images and higher signal intensities of vessels were obtained when lower concentrations of Gadomer-17 were used.
Comparative Study ; Contrast Media*/administration & dosage ; Dose-Response Relationship, Drug ; Gadolinium DTPA/diagnostic use* ; Human ; Magnetic Resonance Angiography*

OBJECTIVE: To evaluate the hydrodynamic changes occurring in cerebrospinal fluid (CSF) flow in cervical spinal stenosis using the spatial modulation of magnetization (SPAMM) technique. MATERIALS AND METHODS: Using the SPAMM technique, 44 patients with cervical spinal stenosis and ten healthy volunteers were investigated. The degree of cervical spinal stenosis was rated as low-, intermediate-, or high-grade. Low-grade stenosis was defined as involving no effacement of the subarachnoid space, intermediate-grade as involving effacement of this space, and high-grade as involving effacement of this space, together with compressive myelopathy. The patterns of SPAMM stripes and CSF velocity were evaluated and compared between each type of spinal stenosis and normal spine. RESULTS: Low-grade stenosis (n = 23) revealed displacement or discontinuity of stripes, while intermediate- (n = 10) and high-grade (n = 11) showed a continuous straight band at the stenotic segment. Among low-grade cases, 12 showed wave separation during the systolic phase. Peak systolic CSF velocity at C4 -5 level in these cases was lower than in volunteers (p <.05), but jet-like CSF propulsion was maintained. Among intermediate-grade cases, peak systolic velocity at C1-2 level was lower than in the volunteer group, but the difference was not significant (p >.05). In high-grade stenosis, both diastolic and systolic velocities were significantly lower (p <.05). CONCLUSION: Various hydrodynamic changes occurring in CSF flow in cervical spinal stenosis were demonstrated by the SPAMM technique, and this may be a useful method for evaluating CSF hydrodynamic change in cervical spinal stenosis.
Cervical Vertebrae/pathology ; Female ; Human ; Magnetic Resonance Imaging/*methods ; Male ; Middle Age ; Rheology ; Spinal Stenosis/*cerebrospinal fluid/pathology