Development of a 3D-printed canine head phantom for veterinary radiotherapy (2409.19694v1)

Abstract: Purpose: To develop the Ultimate Phantom Dog for Orthovoltage Glioma Treatment (UPDOG), an anatomically-correct phantom which mimics a dog's head, for quality assurance (QA) of kilovoltage (kV) radiotherapy treatments. Methods: A computed tomography (CT) scan of a canine glioma patient was segmented into bone and soft tissue using 3DSlicer. The segments were converted to stereolithographic (STL) files and smoothed in Fusion360. A slit to accommodate a radiochromic film (RCF) was added at the location of the glioma tumor. UPDOG was 3D printed on a polyjet printer using VeroUltraWhite ($\rho$ = 1.19-1.20 g/cm\textsuperscript{3}) for the bone and Agilus30 ($\rho$ = 1.14-1.15 g/cm\textsuperscript{3}) for the soft tissue. CT scans of UPDOG were acquired on a clinical CT scanner. An LD-V1 RCF was inserted into UPDOG and irradiated with a kV x-ray source from two angles. The delivered dose to the RCF was compared to Monte Carlo (MC) simulations performed in TOPAS. Results: The bone and soft tissue segments in UPDOG were mimicked the patient anatomy well with tube voltage-dependent CT numbers. The contrast in HU was of 49, 47 and 50 HU for the 80, 100, and 120 kVp scans, respectively, sufficient for anatomy visualization. The irradiations delivered a maximum dose to RCF of 284 mGy which was compared to the results of MC simulations using a depth dose curve and central-axis (CAX) beam profiles. The mean difference in CAX profiles and PDD between RCF and MC results was 15.9\% and 2.3\%, respectively. Conclusions: We have demonstrated that UPDOG is a useful QA tool for kV canine radiotherapy. UPDOG successfully anatomically mimicked the dog anatomy, with a reduced but sufficient bone contrast. We showed that dose delivered to a canine glioma with kV x-rays can be successfully measured with an RCF positioned at the tumor location.