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- SmartExam enables automated slice selection in all three planes, resulting in greater standardization of brain studies, and reproducible follow-up studies.
- A 33-element neurovascular/spine coil allows high resolution brain and spine imaging without changing coils, reducing patient positioning, exams times, and motion artifacts.
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- Brain perfusion exams can be performed with or without IV contrast and is useful for evaluation of cerebral vascular disease and in differentiating neoplastic from inflammatory brain lesions.
- For patients that have difficulty holding still, SnapShot imaging provides diagnostic images in a matter of seconds. MultiVane is able to correct motion for multi-echo TSE and gradient echo examinations using radial encoding.
- 3D TFE software enables isotropic coverage of the entire head in scan times under 2 minutes. A single data set can be reformatted to alternate planes both pre- and post-contrast, eliminating the need for additional scans.
- Flip Angle Sweep TSE for reduction of Specific Absorption Rate (SAR) and decrease of magnetization transfer (MT) effect, improving gray/white matter contrast in both T2 and FLAIR acquisitions.
- Diffusion-Weighted Imaging (DWI) based methods include single-shot with automated processing of the Apparent Diffusion Coefficient (ADC) maps for both brain and spine DWI.
- Single, Dual, and Triple inverted repeat (IR) sequences for evaluation of gray and white matter differentiation.
- Isotropic 3D turbo spin echo (TSE) allows volumetric acquisitions that can be reconstructed in any plane. Useful for evaluation of the internal auditory canal and MR myelography.
- Contrast enhanced MRA images are acquired using a real-time fluoroscopic display of bolus contrast arrival in the area of interest for accurate synchronization. Venous contamination is minimized and produces optimal arterial vessel contrast and resolution.
- Ultra-fast steady-state 2D and 3D imaging techniques are insensitive to fluid motion, thereby producing exceptional contrast between bright fluids and surrounding tissue. High-resolution isotropic data sets are ideal for MIP and MPR processing to visualize the inner ear and to produce MR myelograms.
- Advanced Phase contrast, 2D and 3D time of flight sequences for high-resolution MR arteriograms and venograms of the intracranial vasculature without IV contrast.
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