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Program Information

TG246 On Patient Dose From Diagnostic Radiation


M Supanich

F Dong

J Andersson

W Pavlicek

W Bolch
no image available
K Fetterly







M Supanich1*, F Dong2*, J Andersson3*, W Pavlicek4*, W Bolch5*, K Fetterly6*, (1) Rush University Medical Center, Chicago, IL, (2) The Cleveland Clinic, Solon, OH, (3) Umea University, Umea, (4) Mayo Clinic Arizona, Scottsdale, AZ, (5) Univ Florida, Gainesville, FL, (6) Mayo Clinic, Rochester, MN

Presentations

WE-A-18A-1 Wednesday 7:30AM - 9:30AM Room: 18A

Radiation dose from diagnostic and interventional radiations continues to be a focus of the regulatory, accreditation and standards organizations in the US and Europe. A Joint AAPM/EFOMP effort has been underway in the past year – having the goal to assist the clinical medical physicist with communicating optional and varied approaches in estimating (and validating) patient dose. In particular, the tools provided by DICOM Radiation Dose Structured Reports, either by themselves or as part of a networked data repository of dose related information are a rich source of actionable information. The tools of the medical physicist have evolved to include using DICOM data in meaningful ways to look at patient dose with respect to imaging practices. In addition to how accurate or reproducible a dose value is (totally necessary and our traditional workspace) it is now being asked how reproducible (patient to patient, device to device) are the delivered doses (new tasking)? Clinical medical physicists are best equipped to assist our radiology and technologist colleagues with this effort. The purpose of this session is to review the efforts of TG246 - bringing forward a summary content of the TG246 Report including specific dose descriptors for CT and Fluoroscopy – particularly in a focus of leveraging the RDSR as a means for monitoring good practices ALARA. Additionally, rapidly evolving technologies for more refined dose estimates are now in use. These will be presented as they look to having highly patient specific dose estimates in automated use.

Handouts


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