Title :
Fluoroscopic MR imaging at 0.064 Tesla
Author :
Kramer, David M. ; Hawryszko, Christine ; Ortendahl, Douglas A. ; Minaise, Minaise
Author_Institution :
Radiol. Imaging Lab., California Univ., San Francisco, CA, USA
fDate :
9/1/1991 12:00:00 AM
Abstract :
The authors developed a system for ultrafast magnetic resonance imaging (MRI) protocols at low field. The system design permits the acquisition of the raw data in the background while the reconstruction and display steps repeat as fast as they can in the foreground. The performance speeds depends partly on the desired use. By collecting raw data at a rate of 20 ms per echo with an echo delay of 9 ms, a complete data cycle for a 128×64 image takes 1.28 s. However, once half of that data is incorporated into the reconstruction, the image appears complete. Using this set of parameters the authors were able to get the rate of the recon/display loop to paint about two times per completed raw data cycle, showing an entirely new image at least once per second with an apparent frame rate of two per second. Interleaving of two or three orthogonal scans reduces the speed of update but provides better information. The authors discuss the system design for rapid scan/recon/display and demonstrate the image quality available at low field strength with scan times below one second
Keywords :
biomedical NMR; 20 ms; 6.4×10-2 T; 9 ms; echo delay; field strength; fluoroscopic MR imaging; image display; image quality; image reconstruction; medical diagnostic imaging; orthogonal scans interleaving; parameters; scan time; system design; ultrafast magnetic resonance imaging protocols; Delay; Displays; Image quality; Image reconstruction; Interleaved codes; Joints; Laboratories; Magnetic resonance imaging; Paints; Tellurium;
Journal_Title :
Medical Imaging, IEEE Transactions on
