Fundamental research for dose control during supine dental panoramic radiography

IF 2.3 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Journal of Oral Biosciences Pub Date : 2023-09-17 DOI:10.1016/j.job.2023.09.003

Atsuharu Nitanda , Atsushi Iwawaki , Yusei Otaka , Yuichi Tamatsu , Takeru Ishii , Akihiro Ochiai , Yuko Otomo , Shinji Kito , Hideki Saka

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Abstract

Objective

This study aimed to control radiation doses when using a portable supine dental panoramic radiography system by measured the scattered doses.

Method

The study used LPX7007 (Asahi Roentgen) for the panoramic radiography system. The subjects comprised a cylinder phantom (QualitA) and a RANDO Phantom (Alderson). The semiconductor dosimeter was an X2 survey sensor (RaySafe). The phantom was set at a height of 1 m from the floor, and the sensor was set at 1 m from the floor at the genital level and 1.5 m at the lens level. Measurements were taken at 30°intervals clockwise from 0°at distances of 0.5 m and 1 m in radius around the phantom. The occupational exposure range was defined as 0 ± 30° and the public exposure range was defined as the occupational exposure range and 30° to 150° and 210° to 330° as the public exposure range.

Result

The highest doses were observed in the 120° and 240° directions, and the lowest in 0° ± 30° range. The lowest limit number of images taken in the occupational exposure range was 130 images at a distance of 0.5 m, 452 images at 1 m at the lens level for the cylinder phantom, and 320 images at 0.5 m and 1098 images at 1 m for the RANDO Phantom. In the public exposure range at the genital level, there was one image at 0.5 m and six images at 1 m for the cylinder phantom, and two images at 0.5 m and eight images at 1 m for the RANDO Phantom.

Conclusion

We found that radiation exposure can be reduced by keeping a distance from the subject, avoiding working at 120° and 240° and staying within 0° ± 30° behind the panoramic radiography system.

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仰卧位牙科全景x线摄影剂量控制的基础研究。

目的:通过测量分散剂量来控制便携式仰卧牙科全景x线摄影系统使用时的辐射剂量。方法:采用LPX7007(旭伦琴)作为全景摄影系统。受试者包括一个圆柱体幻影(QualitA)和一个随机幻影(Alderson)。半导体剂量计为X2测量传感器(RaySafe)。幻影被设置在离地面1米的高度，传感器被设置在离地面1米的生殖器水平和离地面1.5米的镜头水平。测量从0°开始顺时针间隔30°，距离为0.5 m和1 m。职业暴露范围定义为0±30°，公共暴露范围定义为职业暴露范围，公共暴露范围定义为30°~ 150°和210°~ 330°。结果:120°和240°方向剂量最高，0°±30°范围剂量最低。在职业曝光范围内拍摄的最低限制图像数量为:在0.5 m距离处拍摄130张图像，圆柱体幻影在1 m距离处拍摄452张图像，RANDO幻影在0.5 m距离处拍摄320张图像，在1 m距离处拍摄1098张图像。在生殖器水平的公共暴露范围内，圆柱体幻影在0.5 m处有1幅图像，在1 m处有6幅图像，RANDO幻影在0.5 m处有2幅图像，在1 m处有8幅图像。结论:与被摄体保持一定距离，避免在120°和240°的角度工作，并保持在全景摄影系统后方0°±30°范围内，可以减少辐射暴露。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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