Can a ToF-PET photon attenuation reconstruction test stopping-power estimations in proton therapy? A phantom study

Can a ToF-PET photon attenuation reconstruction test stopping-power estimations in proton therapy? A phantom study

. The aim of the phantom study was to validate and to improve the computed tomography (CT) images used for the dose computation in proton therapy. It was tested, if the joint reconstruction of activity and attenuation images of time-of-flight PET (ToF-PET) scans could improve the estimation of the p...

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Bibliographic Details
Published in:Physics in medicine & biology Vol. 66; no. 21
Main Authors: Bäumer, C, Bäcker, C M, Conti, M, Fragoso Costa, P, Herrmann, K, Kazek, S L, Jentzen, W, Panin, V, Siegel, S, Teimoorisichani, M, Wulff, J, Timmermann, B
Format: Journal Article
Language:English
Published: England 26-10-2021
Subjects:
Algorithms
Fluorodeoxyglucose F18
Image Processing, Computer-Assisted - methods
Phantoms, Imaging
Positron-Emission Tomography - methods
Proton Therapy
Protons
ToF-PET
proton therapy
MLAA
proton range uncertainty
radioactivation
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Summary:. The aim of the phantom study was to validate and to improve the computed tomography (CT) images used for the dose computation in proton therapy. It was tested, if the joint reconstruction of activity and attenuation images of time-of-flight PET (ToF-PET) scans could improve the estimation of the proton stopping-power. . The attenuation images, i.e. CT images with 511 keV gamma-rays ( CTs), were jointly reconstructed with activity maps from ToF-PET scans. The activity was produced with FDG and in a separate experiment with proton-induced radioactivation. The phantoms contained slabs of tissue substitutes. The use of the CTs for the prediction of the beam stopping in proton therapy was based on a linear relationship between the -ray attenuation, the electron density, and the stopping-power of fast protons. . The FDG based experiment showed sufficient linearity to detect a bias of bony tissue in the heuristic look-up table, which maps between x-ray CT images and proton stopping-power. CTs can be used for dose computation, if the electron density of one type of tissue is provided as a scaling factor. A possible limitation is imposed by the spatial resolution, which is inferior by a factor of 2.5 compared to the one of the x-ray CT. CTs can also be derived from off-line, ToF-PET scans subsequent to the application of a proton field with a hypofractionated dose level. CTs are a viable tool to support the estimation of proton stopping with radiotracer-based ToF-PET data from diagnosis or staging. This could be of higher potential relevance in MRI-guided proton therapy. CTs could form an alternative approach to make use of in-beam or off-line PET scans of proton-induced activity with possible clinical limitations due to the low number of coincidence counts.
ISSN:1361-6560
DOI:10.1088/1361-6560/ac27b5