Open AccessAssessing Residual Motion for Gated Proton-Beam Radiotherapy
Author(s) -
G Sharp,
Hsiao Ming LU,
Alexei V. Trofimov,
Xiaoli Tang,
Steve Jiang,
J Turcotte,
David P. Gierga,
George T.Y. Chen,
Theodore S. HONG
Publication year - 2007
Publication title -
journal of radiation research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.643
H-Index - 60
eISSN - 1349-9157
pISSN - 0449-3060
DOI - 10.1269/jrr.48.a55
Subject(s) - gating , radiation therapy , proton therapy , position (finance) , beam (structure) , external beam radiation , irradiation , nuclear medicine , medicine , optics , physics , radiology , nuclear physics , physiology , finance , economics
Gated radiation therapy is a promising method for improving the dose conformality of treatments to moving targets and reducing the total volume of irradiated tissue. Target motion is of particular concern in proton beam radiotherapy, due to the finite range of proton dose deposition in tissue. Gating allows one to reduce the extent of variation, due to respiration, of the radiological depth to target during treatment delivery. However, respiratory surrogates typically used for gating do not always accurately reflect the position of the internal target. For instance, a phase delay often exists between the internal motion and the motion of the surrogate. Another phenomenon, baseline drifting refers to a gradual change in the exhale position over time, which generally affects the external and internal markers differently. This study examines the influence of these two physiological phenomena on gated radiotherapy using an external surrogate.
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