Matthew Joseph Riffe1, Stephen R. Yutzy2,
Colin Blumenthal3,4, Daniel P. Hsu4, Dean A. Nakamoto4,
Jeffrey L. Sunshine4, Chris A. Flask1,4, Vikas Gulani4,
Jeffrey L. Duerk1,4, Mark A. Griswold4
1Biomedical Engineering,
Case Western Reserve University, Cleveland, OH, United States; 2Radiology,
University of Pittsburgh, Pittsburgh, PA, United States; 3Electrical
& Computer Engineering, Ohio State University, Columbus, OH, United
States; 4Radiology, University Hospitals of Cleveland, Cleveland,
OH, United States
Here we propose a device that provides a physician with real time control of scan planes for interventional MRI applications. The device position and orientation is obtained by acquiring the position of three internal active tracking markers. Signal from the device is transmitted wirelessly, making it easy to manipulate inside the magnet bore. The device's spatial information is used to prescribe the scan plane for a real time sequence and is repeated before each repetition. Phantom studies show the tracking device system to be accurate, and the use of the system is presented with a human volunteer.