Program Information
The Contribution to Skin Dose Due to Scatter From the Patient Table and the Head Holder During Fluoroscopy
N Islam*, Z Xiong , s vijayan , S Rudin , D Bednarek , Toshiba Stroke and Vascular Research Center, University at Buffalo, Buffalo, New York
Presentations
SU-E-I-55 (Sunday, July 12, 2015) 3:00 PM - 6:00 PM Room: Exhibit Hall
Purpose:To determine contributions to skin dose due to scatter from the table and head holder used during fluoroscopy, and also to explore alternative design material to reduce the scatter dose.
Methods:Measurements were made of the primary and scatter components of the x-ray beam exiting the patient table and a cylindrical head holder used on a Toshiba Infinix c-arm unit as a function of kVp for the various beam filters on the machine and for various field sizes. The primary component of the beam was measured in air with the object placed close to the x-ray tube with an air gap between it and a 6 cc parallel-plate ionization chamber and with the beam collimated to a size just larger than the chamber. The primary plus scatter radiation components were measured with the object moved to a position in the beam next to the chamber for larger field sizes. Both sets of measurements were preformed while keeping the source-to-chamber distance fixed. The scatter fraction was estimated by taking the ratio of the difference between the two measurements and the reading that included both primary and scatter. Similar measurements were also made for a 2.3 cm thick Styrofoam block which could substitute for the patient support.
Results:The measured scatter fractions indicate that the patient table as well as the head holder contributes an additional 10-16% to the patient entrance dose depending on field size. Forward scatter was reduced with the Styrofoam block so that the scatter fraction was about 4-5%.
Conclusion:The results of this investigation demonstrated that scatter from the table and head holder used in clinical fluoroscopy contribute substantially to the skin dose. The lower contribution of scatter from Styrofoam suggests that there is an opportunity to redesign patient support accessories to reduce the skin dose.
Funding Support, Disclosures, and Conflict of Interest: Partial support from NIH grant R01EB002873 and Toshiba Medical Systems Corporation Equipment Grant
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