孟加拉国达卡Mitford医院室内辐射危害对工作人员和公众健康的评价

M. S. Rahman, Md. Ahshan Habib, P. K. Das, S. K. Roy, S. Yeasmin
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引用次数: 1

摘要

目的:核医学研究所放射工作人员为患者诊治处理未密封的放射性物质,与医院其他科室相比,核医学工作人员和公众健康受到的辐射危害较大。本研究的目的是基于实时辐射监测数据,评估核医学与联合科学研究所(INMAS) Mitford, Sir Salimullah医学院和医院校园的室内场所对工作人员和公众的辐射危害。方法:采用便携式实时数字辐射监测仪进行辐射监测。该实时数字便携式辐射监测装置符合所有欧洲CE标准以及美国“FCC 15标准”。便携式数字辐射监测装置放置在距地面1米的三脚架上,每个监测点(MP)的数据采集时间为1小时。2019年5月至6月,选择24名MPs在米特福德医院INMAS的不同室内位置收集辐射剂量率。注射99mTc和131I后,在患者候诊室离注射患者1米距离处实时监测剂量率。结果:测定剂量率范围为0.181±0.057 μSv.h-1 ~ 2.247±0.685 μSv.h-1,平均0.463±0.695 μSv.h-1。辐射工作人员和公众的年有效剂量范围为0.279±0.089 ~ 3.481±1.061 mSv,平均为0.717±1.077mSv。根据年有效剂量评估工人和公众的超额终身癌症风险(ELCR),其变化范围为1.113 Χ 10-3 ~ 1.385 Χ 10-2。结论:对核医学设施室内场所进行实时辐射监测是检测工作场所污染的必要手段。因此,有必要进行这项研究,使室内环境免受辐射危害,从而改善工人和公众的健康。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Indoor Radiation Hazard on Worker & Public Health in Mitford Hospital, Dhaka, Bangladesh
Objective: Radiation workers in nuclear Medicine institute are handling unsealed radioactive materials for diagnostic and therapeutic procedures of patients and thus radiation hazard on workers and public health in nuclear medicine is high comparing to other departments of the hospital. The purpose of the study is to evaluate the radiation hazard on workers and public at the indoor places of the Institute of Nuclear Medicine & Allied Sciences (INMAS) Mitford, Sir Salimullah Medical College and Hospital Campus based on the real-time radiation monitoring data. Methods: The radiation monitoring was performed using a real-time portable digital radiation monitoring device. This real-time digital portable radiation monitoring device meets all European CE standards as well as the American “FCC 15 standard”. The portable digital radiation monitoring device was placed at 1 meter above the ground on tripod and data acquisition time for each monitoring point (MP) was 1 hour. 24 MPs were selected for collection of radiation dose rates at different indoor locations of INMAS, Mitford hospital from May-June 2019. The real-time dose rate also monitored at 1 meter distance from injected patients in the patient’s waiting room after injecting 99mTc & 131I. Results: The measured dose rates were ranged from 0.181 ± 0.057 μSv.h-1 to 2.247 ± 0.685 μSv.h-1 with an average of 0.463 ± 0.695 μSv.h-1. The annual effective dose to the radiation worker and public were varied from 0.279 ± 0.089 mSv to 3.481±1.061 mSv with an average of 0.717 ±1.077mSv. Excess life-time cancer risk (ELCR) of worker and public were evaluated based on annual effective dose and varied from 1.113 Χ 10-3 to 1.385 Χ 10-2. Conclusion: Real-time radiation monitoring at indoor places of nuclear medicine facilities are required for detection of contamination in the workplace. So this study is needed to keep the indoor environment free from radiation hazard and thereby improving the worker and public health.
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