Journal of neuroimaging : official journal of the American Society of Neuroimaging
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The effect of premature ventricular contractions on blood flow velocity in the middle cerebral artery was studied by transcranial Doppler ultrasonography in 1 0 patients. Velocity during three ectopic beats for each patient was lower than that during the preceding and the following beat in every recording. The decrease in peak velocity was 30.7 ± 12.4% and 37.1 ± 13.3% (mean ± standard deviation) compared to the preceding and following beat, respectively. ⋯ Similar results were obtained for both mean and diastolic blood flow velocities. Systolic-diastolic ratios were similar for premature ventricular contractions, beats preceding or following premature ventricular contractions, and sinus rhythm beats. Transcranial Doppler ultrasound appears to be an excellent technique for analyzing the effects of cardiac arrhythmias on the cerebral circulation.
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Noninvasive ultrasound is the preferred methodology for the initial evaluation of carotid atherosclerosis. Since the early use of continuous-wave Doppler to assess carotid artery flow velocity blindly, neurosonology has progressed through crude B-mode imaging, spectral analysis of the Doppler signal, and gray-scale duplex Doppler/B-mode imaging, to color-flow Doppler duplex imaging. The latter allows color coding of Doppler data based on the velocity of blood flow. ⋯ Color velocity imaging uses the data contained in the gray-scale B-mode image scan lines to determine velocity of blood flow, and it offers potential advantages over conventional color-flow duplex Doppler for the assessment of carotid atherosclerosis and hemodynamics. Initial comparison of spectral Doppler and color velocity imaging data suggests that the latter is an accurate method to assess blood flow velocity. Understanding of the validity, utility, and prognostic advantages offered by color velocity imaging awaits careful prospective clinical trials.
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Correlation of findings on neurological examination of the cranial nerves with gross anatomy, neuroanatomy, and neuropathology provides the optimal diagnostic use of magnetic resonance imaging (MRI). Illustrations of the anatomy of each of the cranial nerves, with concise labeling of relevant anatomical relationships, are compared with brief neurological summaries and MRIs of patients.