Washington Open MRI now has the world's only high field full-body Open MRI scanner that can scan patients in the sitting or standing position.Our new Stand-Up Open MRI technology allows you to watch TV during your Open MRI scan!No more fear of claustrophobia or being squeezed into a tube.Washington Open MRI's Stand-Up Open MRI Clinton is the world's only Patient-Friendly scanner.Our Open MRI technology is totally open!This technological breakthrough is second to none in the MRI imaging world, and fully reimbursed by all insurance carriers at no additional cost to the patient.
The revolutionary scanner features the only MRI-compatible, motorized, multi-positional, patient positioning system, which has been engineered to be fully functional inside the scanner's magnetic field. It can position the patient for the full range of conventional "lie-down" MRI scanning, or upright for weight-bearing studies. The full length of the spine can be imaged in the normal weight-bearing posture, even with the patient touching their toes for full flexion images of the lumbar spine. Unusual patient positions that are impossible on conventional "lie-down" MRI scanners are routine on Washington Open MRI's new Stand-Up Open MRI. The patient positioning system is tilted back slightly (approximately five degrees) in order to stabilize the patient and avoid body motion during stand-up scanning. Patients can be positioned facing the poles, which enables a large range of motion for scans of the shoulder. Scans can also be obtained with lateral flexion of the lumbar spine. This new Stand Up MRI Greenbelt is based on FONAR's proven high-field technology, which means it delivers exceptional scanning speed and high-resolution imaging. The combination of the transaxial magnetic field and any of FONAR's arrays of high signal-to-noise solenoid surface coils is one of the key reasons why the new Stand-Up Open MRI is second-to-none in image quality. Its full range of advanced software features and state-of-the-art pulse sequences provide unparalleled diagnostic precision.
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