Program Information
Lens Dose Reduction by Patient Position Modification During Neck CT Exams
E Mosher1*, J Butman2 , N Biassou2 , L Folio2 , C Lee1 , (1) Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institutes of Health, Rockville, MD, (2) Radiology and Imaging Sciences, Clinical Center, National Institutes of Health, Bethesda, MD
Presentations
SU-G-IeP2-10 (Sunday, July 31, 2016) 4:30 PM - 5:00 PM Room: ePoster Theater
Purpose: Irradiation of the lens during a neck CT may increase a patient’s risk of developing cataracts later in life. Radiologists and technologists at the National Institutes of Health Clinical Center (NIHCC) have developed new CT imaging protocols that include a reduction in scan range and modifying neck positioning using a head tilt. This study will evaluate the efficacy of this protocol in the reduction of lens dose.
Methods: We retrieved CT images of five male patients who had two sets of CT images: before and after the implementation of the new protocol. The lens doses before the new protocol were calculated using an in-house CT dose calculator, National Cancer Institute dosimetry system for CT (NCICT), where computational human phantoms with no head tilt are included. We also calculated the lens dose for the patient CT conducted after the new protocol by using an adult male computational phantom with the neck position deformed to match the angle of the head tilt. We also calculated the doses to other radiosensitive organs including the globes of the eye, brain, pituitary gland and salivary glands before and after head tilt.
Results:Our dose calculations demonstrated that modifying neck position reduced dose to the lens by 89% on average (range: 86-96%). Globe, brain, pituitary and salivary gland doses also decreased by an average of 65% (51-95%), 38% (-8-66%), 34% (-43-84%) and 14% (13-14%), respectively. The new protocol resulted in a nearly ten-fold decrease in lens dose.
Conclusion: The use of a head tilt and scan range reduction is an easy and effective method to reduce radiation exposure to the lens and other radiosensitive organs, while still allowing for the inclusion of critical neck structures in the CT image. We are expanding our study to a total of 10 males and 10 females.
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