Ingmar Graesslin1, Giel Mens2,
Alexander Guillaume1, Henry Stahl3, Peter Koken1,
Peter Vernickel1, Paul Harvey2, Jouke Smink2,
Kay Nehrke1, Peter Boernert1
1Philips Research Europe,
Advanced
methods of motion detection and motion artifact reduction help to improve
diagnostic image quality. The use of conventional navigators requires
additional planning and adversely influences the steady state, which can
result in image artifacts. A new approach was presented that uses the
detection of changes of RF coil loading induced by the respiratory motion of
the patient. This paper describes the application of a real-time
self-navigated respiration monitoring approach using dedicated RF monitoring
pulses instead the RF excitations of the imaging sequence. RF amplifier drift
is analyzed, and a compensation scheme is proposed to overcome this problem.