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TU‐AB‐201‐09: Calibration of An Element of a New Directional Pd‐103 Planar Source Array
Author(s) -
Aima M,
Culberson W,
Reed J,
DeWerd L
Publication year - 2015
Publication title -
medical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.473
H-Index - 180
eISSN - 2473-4209
pISSN - 0094-2405
DOI - 10.1118/1.4925547
Subject(s) - materials science , calibration , optics , detector , kerma , anisotropy , planar , aperture (computer memory) , physics , dosimetry , nuclear medicine , medicine , computer graphics (images) , quantum mechanics , acoustics , computer science
Purpose: The CivaSheet™ is a new directional Pd‐103 planar source array, with a variable number of discrete source elements referred to as “dots”. Each dot consists of a polymer capsule containing 1 ⁰ 3 Pd and a gold shield that attenuates radiation on one side of the device to define hot and cold dose regions. Fluorescence from the gold shield is observed in the dot spectrum. Since CivaSheet™ is a planar directional source, conventional methods used for calibration of azimuthally symmetric sources are not applicable. The purpose of this work is to establish an air‐kerma‐strength standard and a transfer to a well chamber for clinical calibration. Methods: Primary air‐kerma strength measurement of the dots was performed using a variable‐aperture free‐air chamber (VAFAC). Charge measurements were recorded using a well chamber with a custom insert. Anisotropy measurements were performed using a Sodium‐Iodide detector. Spectral measurements were performed using a low‐energy germanium detector and compared to a source without gold. The dot geometry was modeled using the MCNP6 radiation transport code. Results: Air‐kerma strength measurements of a batch of four dots performed with the VAFAC were within ±1.5% of the average measured value and the measurement precision was within ±0.5%. Anisotropy measurements indicated uniform emission within the measurement uncertainty for the solid angle defining the VAFAC aperture used. Charge measurements of each dot using the well chamber in four cardinal angle source orientations were within ±1.5% of the average measured values. The spectral study of a dot resulted in identification of fluorescence from the gold shield and primary spectral energies that were compared to MCNP6 simulations. Conclusion: Calibration procedures for the new directional Pd‐103 source dot were established for future clinical use, based on the results of experimental and Monte Carlo investigations. This work was partially supported by NCI contract (HHSN261201200052C) through CivaTech Oncology Inc.