000009221 001__ 9221
000009221 005__ 20240417085554.0
000009221 0247_ $$2DOI$$a10.6083/v118rf26r
000009221 037__ $$aIR
000009221 245__ $$aSurface radiation dose modeling for fluoroscopically guided interventions
000009221 260__ $$bOregon Health and Science University
000009221 269__ $$a2021
000009221 336__ $$aAbstract
000009221 520__ $$aFluoroscopically Guided Interventions (FGIs) are procedures which use real-time x-ray imaging to guide surgeries. Due to the complexity of these cases, radiation doses can be high enough to cause skin injury. It is a medical physicist's role to provide guidance on Substantial Radiation Dose Levels (SRDLs) and trigger physician follow-up if a patient is at risk of radiation injury. This research focused on dose modeling and calculation from Radiation Dose Structured Report (RDSR) data, with the eventual goal of developing calibration factors to improve PSD calculation accuracy. This project involved two stages: (1) an interactive MATLAB graphical user interface (GUI) was made to validate the beam and table movement, (2) clinical data was used to generate a skin dose map.
000009221 540__ $$fCC BY
000009221 542__ $$fIn copyright - joint owners
000009221 650__ $$aFluoroscopy$$019139
000009221 650__ $$aRadiation Injuries$$025071
000009221 650__ $$aRadiography$$025097
000009221 650__ $$aRadiation Exposure$$011344
000009221 650__ $$apeak skin dose
000009221 6531_ $$aradiation dosimetry
000009221 6531_ $$aradiation dose recording
000009221 7001_ $$aLeary, Celeste$$uOregon Health and Science University$$041354
000009221 7001_ $$aEliason, Grace$$uOregon Health and Science University$$041354
000009221 7001_ $$aMench, Anna$$uOregon Health and Science University$$041354
000009221 711__ $$aResearch Week$$uOregon Health and Science University$$d2021
000009221 8564_ $$9de6b8a84-7375-4f2e-a4fd-759655cf5d6e$$s196324$$uhttps://digitalcollections.ohsu.edu/record/9221/files/Leary-Celeste-OHSU-ResearchWeek-2021.pdf
000009221 905__ $$a/rest/prod/v1/18/rf/26/v118rf26r
000009221 980__ $$aResearch Week