range verification
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2022 ◽  
Vol 12 (2) ◽  
pp. 823
Author(s):  
Md. Rafiqul Islam ◽  
Mehrdad Shahmohammadi Beni ◽  
Shigeki Ito ◽  
Shinichi Gotoh ◽  
Taiga Yamaya ◽  
...  

Proton range monitoring and verification is important to enhance the effectiveness of treatment by ensuring that the correct dose is delivered to the correct location. Upon proton irradiation, different positron emitting radioisotopes are produced by the inelastic nuclear interactions of protons with the target elements. Recently, it was reported that the 16O(p,2p2n)13N reaction has a relatively low threshold energy, and it could be potentially used for proton range verification. In the present work, we have proposed an analysis scheme (i.e., algorithm) for the extraction and three-dimensional visualization of positron emitting radioisotopes. The proposed step-by-step analysis scheme was tested using our own experimentally obtained dynamic data from a positron emission mammography (PEM) system (our developed PEMGRAPH system). The experimental irradiation was performed using an azimuthally varying field (AVF) cyclotron with a 80 MeV monoenergetic pencil-like beam. The 3D visualization showed promising results for proton-induced radioisotope distribution. The proposed scheme and developed tools would be useful for the extraction and 3D visualization of positron emitting radioisotopes and in turn for proton range monitoring and verification.


2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Enrique Muñoz ◽  
Ana Ros ◽  
Marina Borja-Lloret ◽  
John Barrio ◽  
Peter Dendooven ◽  
...  

Author(s):  
Devin Hymers ◽  
Eva Marie Kasanda ◽  
Vinzenz Bildstein ◽  
Joelle Easter ◽  
Andrea Richard ◽  
...  

Abstract Heavy-ion therapy, particularly using scanned (active) beam delivery, provides a precise and highly conformal dose distribution, with maximum dose deposition for each pencil beam at its endpoint (Bragg peak), and low entrance and exit dose. To take full advantage of this precision, robust range verification methods are required; these methods ensure that the Bragg peak is positioned correctly in the patient and the dose is delivered as prescribed. Relative range verification allows intra-fraction monitoring of Bragg peak spacing to ensure full coverage with each fraction, as well as inter-fraction monitoring to ensure all fractions are delivered consistently. To validate the proposed filtered Interaction Vertex Imaging method for relative range verification, a 16O beam was used to deliver 12 Bragg peak positions in a 40 mm poly-(methyl methacrylate) phantom. Secondary particles produced in the phantom were monitored using position-sensitive silicon detectors. Events recorded on these detectors, along with a measurement of the treatment beam axis, were used to reconstruct the sites of origin of these secondary particles in the phantom. The distal edge of the depth distribution of these reconstructed points was determined with logistic fits, and the translation in depth required to minimize the χ2 statistic between these fits was used to compute the range shift between any two Bragg peak positions. In all cases, the range shift was determined with sub-millimeter precision, to a standard deviation of the mean of 220(10) μm. This result validates filtered Interaction Vertex Imaging as a reliable relative range verification method, which should be capable of monitoring each energy step in each fraction of a scanned heavy-ion treatment plan.


Author(s):  
Teresa Rodríguez-González ◽  
Carlos Guerrero ◽  
María del Carmen Jiménez-Ramos ◽  
Jorge Lerendegui-Marco ◽  
María de los Ángeles Millán-Callado ◽  
...  

2021 ◽  
Vol 161 ◽  
pp. S1331-S1332
Author(s):  
J. Gora ◽  
M. Bolsa-Ferruz ◽  
S. Vatnitsky ◽  
G. Kragl ◽  
A. Carlino ◽  
...  

2021 ◽  
Vol 161 ◽  
pp. S136-S137
Author(s):  
S. Patch ◽  
C. Nguyen ◽  
R. Labarbe ◽  
G. Janssens ◽  
J. Lambert ◽  
...  

Author(s):  
Giulia Lucconi ◽  
El-Hassan Bentefour ◽  
Deepak Samuel ◽  
Kenneth Weaver ◽  
Maryam Moteabbed ◽  
...  
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