Recommendation for reducing the crystalline lens exposure dose by reducing imaging field width in cone-beam computed tomography for image-guided radiation therapy: an anthropomorphic phantom study.

Abstract

In cone-beam computed tomography (CBCT) for image-guided radiation therapy (IGRT) of the head, we evaluated the exposure dose reduction effect to the crystalline lens and position-matching accuracy by narrowing one side (X2) of the X-ray aperture (blade) in the X-direction. We defined the ocular surface dose of the head phantom as the crystalline lens exposure dose and measured using a radiophotoluminescence dosimeter (RPLD, GD-352M) in the preset field (13.6cm) and in each of the fields when blade X2 aperture was reduced in 0.5cm increments from 10.0 to 5.0cm. Auto-bone matching was performed on CBCT images acquired five times with blade X2 aperture set to 13.6cm and 5.0cm at each position when the head phantom was moved from -5.0 to + 5.0mm in 1.0mm increment. The maximum reduction rate in the crystalline lens exposure dose was -38.7% for the right lens and -13.2% for the left lens when blade X2 aperture was 5.0cm. The maximum difference in the amount of position correction between blade X2 aperture of 13.6cm and 5.0cm was 1mm, and the accuracy of auto-bone matching was similar. In CBCT of the head, reduced blade X2 aperture is a useful technique for reducing the crystalline lens exposure dose while ensuring the accuracy of position matching.