TY - JOUR
AU1 - Schellhammer, Sonja M
AU2 - Hoffmann, Aswin L
AU3 - Gantz, Sebastian
AU4 - Smeets, Julien
AU5 - van der Kraaij, Erik
AU6 - Quets, Sébastien
AU7 - Pieck, Stefan
AU8 - Karsch, Leonhard
AU9 - Pawelke, Jörg
AB - On-line image guidance using magnetic resonance (MR) imaging is expected to improve the targeting accuracy of proton therapy. However, to date no combined system exists. In this study, for the first time a low-field open MR scanner was integrated with a static proton research beam line to test the feasibility of simultaneous irradiation and imaging. The field-of-view of the MR scanner was aligned with the beam by taking into account the Lorentz force induced beam deflection. Various imaging sequences for extremities were performed on a healthy volunteer and on a patient with a soft-tissue sarcoma of the upper arm, both with the proton beam line switched off. T1-weighted spin echo images of a tissue-mimicking phantom were acquired without beam, with energised beam line magnets and during proton irradiation. Beam profiles were acquired for the MR scanner’s static magnetic field alone and in combination with the dynamic gradient fields during the acquisition of different imaging sequences. It was shown that MR imaging is feasible in the electromagnetically contaminated environment of a proton therapy facility. The observed quality of the anatomical MR images was rated to be sufficient for target volume definition and positioning. The tissue-mimicking phantom showed no visible beam-induced image degradation. The beam profiles depicted no influence due to the dynamic gradient fields of the imaging sequences. This study proves that simultaneous irradiation and in-beam MR imaging is technically feasible with a low-field MR scanner integrated with a static proton research beam line.
TI - Integrating a low-field open MR scanner with a static proton research beam line: proof of concept
JF - Physics in Medicine and Biology
DO - 10.1088/1361-6560/aaece8
DA - 2018-12-01
UR - https://www.deepdyve.com/lp/iop-publishing/integrating-a-low-field-open-mr-scanner-with-a-static-proton-research-kD1s1TYau5
SP - 23LT01
VL - 63
IS - 23
DP - DeepDyve
ER -