Authors
Jonathan Berthold, Lena Nenoff, Stefanie Bertschi, Julia Thiele, Fabian Lohaus, Guillaume Janssens, Julien Smeets, Kristin Stützer, Christian Richter
Published in
Physics and imaging in radiation oncology. Volume 40. Pages 101027. Epub Jun 20, 2026.
Abstract
Prompt-gamma imaging (PGI) can detect deviations between planned and delivered proton spots. To date, PGI has been limited to body sites not influenced by regular motion or substantial intrafraction anatomical changes that can affect the proton range during treatment delivery. This study investigates the feasibility of time-resolved (4D) PGI treatment verification with a PGI slit camera, incorporating breathing motion in a first patient application.
Synchronously acquired beam delivery (log files), breathing phase and PGI data are evaluated in 3D and 4D for four fractions with control CTs of a pancreatic cancer patient.
The first 4D PGI workflow was developed. The median range shifts between control CT-based simulation and PGI measurements were < 2.3 mm. Planning-CT-based interfraction PGI evaluations showed good agreement between planned and delivered spots for early fractions (median shift < 2.1 mm), but larger deviations (median shift ∼ 6 mm) for later fractions, related to progressive patient weight loss visible on the control CTs. Differences between 3D and 4D PGI were small, due to breathing suppression applied as part of the standard clinical protocol.
A 4D PGI workflow has been successfully developed and tested on a pancreatic-cancer patient, demonstrating the feasibility of PGI-based treatment verification for patients with tumors affected by respiratory motion, even though the proof-of-concept measurements were done with breathing suppression.
PMID:
42436732
Bibliographic data and abstract were imported from PubMed on 12 Jul 2026.
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