| Autor: |
Usov VY; Scientific Research Institute of Cardiology, Tomsk, Russia., Belyanin ML; National Research Tomsk Polytechnic University, Tomsk, Russia., Bobrikova EE; Scientific Research Institute of Cardiology, Tomsk, Russia., Borodin OY; Scientific Research Institute of Cardiology, Tomsk, Russia; Tomsk Regional Oncological Dispensary, Tomsk, Russia., Shimanovsky NL; Russian National Research Medical University named after N.I. Pirogov, Moscow, Russia., Minenko TV; Scientific Research Institute of Cardiology, Tomsk, Russia., Bukhovets IL; Scientific Research Institute of Cardiology, Tomsk, Russia., Plotnikov MP; Scientific Research Institute of Cardiology, Tomsk, Russia., Kozlov BN; Scientific Research Institute of Cardiology, Tomsk, Russia., Shipulin VM; Scientific Research Institute of Cardiology, Tomsk, Russia. |
| Abstrakt: |
The authors studied a possibility of simultaneously performing magnetic resonance (MR) angiography of carotid arteries and contrast-enhanced MR tomography of atherosclerotic plaques of carotid arteries. We examined a total of 16 patients presenting with disseminated atherosclerosis and 8 patients of the control group. Quadrature coils for examination of the head were used in order to sequentially perform MR tomography of the brain, MR angiography of carotid arteries and MR tomography of atherosclerotic plaques of carotid arteries with contrasting by 0.5M cyclomang. Angiography was carried out by means of the technique of 3D GR FFE of rapid gradient echo (TR/TE/FA/ST=10 ms/2.7 ms/20°/1.5 mm). MR tomography of the carotid arteries bifurcation was performed in the T1-weighted spin-echo mode: TR=500-900 ms, TE=10 ms, slice sickness 1-3 mm into the matrix 256x256 voxels, with the voxel size measuring 0.2x0.2x2 mm. The average time of passing of the paramagnetic through the blood vessels of the cerebral hemispheres in the control group amounted to 4.23±0.14 s for the left hemisphere and to 4.27±0.15 s for the right one. The mean time of bolus passing in patients with predominantly unilateral stenosis of the internal carotid artery amounted to 4.89±0.23 on the affected side, equalling 4.56±0.19 s on the unaffected side (p>0.05). In bilateral lesions these indices for the left and right hemispheres amounted to 4.98±0.21 s and 5.01±0.16 s (p>0.05), respectively. Contrast-enhanced MR angiography with cyclomang made it possible in all cases to visualize the localization and character of stenosis. The index of stenosis degree calculated for MR-angiogram highly significantly correlated with the indices of the ultrasonographic examination performed according to the ECST technique both for cases of unilateral (r=0.87, p<0.05) and cases of bilateral stenotic lesion (r=0.85, p<0.05). Inhomogeneous soft plaques with high content of lipids had high values of the enhancement index on contrasting--1.26±0.07, whereas hard fibrous avascular plaques--1.09±0.04 (p<0.05). The total time of the examination amounted to 41±5 min while performing time-fly MR-angiography and to 29±5 min without it. A conclusion was made that simultaneous MR angiography and contrast-enhanced (with Mn-paramagnetic) MR tomography of carotid arteries is possible and appropriate within the framework of a single study using quadratic coil for the head. |
