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[Preprint]. 2023 Sep 28:arXiv:2309.16836v1. [Version 1]

Multi-Institutional Audit of FLASH and Conventional Dosimetry with a 3D-Printed Anatomically Realistic Mouse Phantom

M Ramish Ashraf, Stavros Melemenidis, Kevin Liu, Veljko Grilj, Jeannette Jansen, Brett Velasquez, Luke Connell, Joseph B Schulz, Claude Bailat, Aaron Libed, Rakesh Manjappa, Suparna Dutt, Luis Soto, Brianna Lau, Aaron Garza, William Larsen, Lawrie Skinner, Amy S Yu, Murat Surucu, Edward E Graves, Peter G Maxim, Stephen F Kry, Marie-Catherine Vozenin, Emil Schüler, Billy W Loo Jr
PMCID: PMC10557797  PMID: 37808098

Abstract

We conducted a multi-institutional audit of dosimetric variability between FLASH and conventional dose rate (CONV) electron irradiations by using an anatomically realistic 3D-printed mouse phantom. A CT scan of a live mouse was used to create a 3D model of bony anatomy, lungs, and soft tissue. A dual-nozzle 3D printer was used to print the mouse phantom using acrylonitrile butadiene styrene ($~1.02 g/cm^3$) and polylactic acid ($~1.24 g/cm^3$) simultaneously to simulate soft tissue and bone densities, respectively. The lungs were printed separately using lightweight polylactic acid ($~0.64 g/cm^3$). Hounsfield units (HU) and densities were compared with the reference CT scan of the live mouse. Print-to-print reproducibility of the phantom was assessed. Three institutions were each provided a phantom, and each institution performed two replicates of irradiations at selected mouse anatomic regions. The average dose difference between FLASH and CONV dose distributions and deviation from the prescribed dose were measured with radiochromic film. Compared to the reference CT scan, CT scans of the phantom demonstrated mass density differences of $0.10 g/cm^3$ for bone, $0.12 g/cm^3$ for lung, and $0.03 g/cm^3$ for soft tissue regions. Between phantoms, the difference in HU for soft tissue and bone was <10 HU from print to print. Lung exhibited the most variation (54 HU) but minimally affected dose distribution (<0.5% dose differences between phantoms). The mean difference between FLASH and CONV from the first replicate to the second decreased from 4.3% to 1.2%, and the mean difference from the prescribed dose decreased from 3.6% to 2.5% for CONV and 6.4% to 2.7% for FLASH. The framework presented here is promising for credentialing of multi-institutional studies of FLASH preclinical research to maximize the reproducibility of biological findings.

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The license terms selected by the author(s) for this preprint version do not permit archiving in PMC. The full text is available from the preprint server.

29 Pages, 5 Figures, 2 Tables


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