浙江省某市地铁氡浓度监测及其对相关工作人员染色体畸变和微核的影响

Radon concentration and related employees’ chromosome aberration and micronuclei in subways in a city of Zhejiang Province

  • 摘要:
    背景 过量氡暴露被认为是导致肺癌的第二大危险因素。浙江省某市自地铁开通运行以来,地铁站放射性气体氡暴露水平及能否造成职业人群健康影响,已成为公众关注的重要问题之一。
    目的 调查浙江省某市地下轨道交通的氡浓度,探讨氡暴露对职业人群染色体畸变和微核的影响。
    方法 选择某市2条地铁线路,对55个站点的车控室连续监测1年,对55个站点的110个售票处和55个安检处监测1个时段(3月16日—6月14日),监测方法参照HJ 1212—2021《环境空气中氡的测量方法》,比较不同岗位类型监测点、地铁线路和季节间氡浓度之间的差异。同时对3个岗位类型监测点的165名工作人员开展外周血淋巴细胞染色体畸变和微核检测,检测方法参照GBZ/T 248—2014《放射工作人员职业健康检查外周血淋巴细胞染色体畸变检测与评价》和GBZ/T 328—2023《放射工作人员职业健康检查外周血淋巴细胞微核检测方法与受照剂量估算标准》,并进行影响因素分析。
    结果 浙江省某市地铁氡浓度范围为10~320 Bq·m−3,均低于国家标准规定公共地下建筑氡浓度控制水平(≤400 Bq·m−3)。不同线路、不同岗位类型监测点、不同时段氡的放射性水平间差异具有统计学意义(P<0.05)。对165个研究对象进行染色体畸变和微核分析,染色体畸变和微核率分别为0.224%和0.024%,不同岗位(车控室、售票处、安检处)之间染色体畸变和微核率存在差异(P<0.05),但均低于相应国家标准异常率限值标准,未观察到岗位与染色体畸变、微核之间的相关性(P>0.05)。单因素分析显示不同年龄、地铁站工龄、吸烟者的染色体畸变与微核有差异(P<0.05),多因素分析未观察到上述因素对染色体畸变和微核的影响(P>0.05)。
    结论 地铁站氡浓度处于正常水平;地铁岗位对染色体畸变和微核有影响,但染色体畸变率和微核率异常率明显低于国家标准规定限值,因此地铁氡暴露尚未对工作人员造成健康危害影响。

     

    Abstract:
    Background Excessive radon exposure is considered the second risk factor for lung cancer. Since the opening of the subway in a city of Zhejiang Province, the exposure level of radioactive gas radon in subway stations and its impact on occupational health have become one of the important issues of public concern.
    Objective To monitor the radon concentration of subways in a city in Zhejiang Province and explore the effect of radon exposure on chromosome aberration and micronuclei in the working population.
    Methods A total of 55 vehicle control rooms of 55 stations affiliated to two different subway lines in a city were measured for one year; the 110 ticket offices and 55 security checkpoints from the same 55 stations were measured from 16 March to 14 June. The radon concentrations were compared by job types, subway lines, and seasons referring to Measurement methods for determination of radon in environmental air (HJ 1212-2021). Peripheral blood lymphocyte chromosome aberration and micronucleus analyses were conducted in 165 subway workers from monitoring sites for three different job types, then the influencing factors were analyzed. The detection methods were adopted from the standards of Test and assessment of chromosomal aberrations on occupational health examinations for radiation workers (GBZ/T 248-2014) and Standard for the method of micronucleus detection in lymphocytes on occupational health examination for radiation workers and exposure dose estimation (GBZ/T 328-2023).
    Results The radon concentration range of the target subways in Zhejiang Province was 10-320 Bq·m−3, all lower than the national limit (≤400 Bq·m−3). The differences in radon radioactivity levels among different lines, job types, and time segments were statistically significant (P<0.05). The rates of chromosomal aberration and micronucleus formation among the 165 subjects were 0.224% and 0.024%, respectively. There were significant differences in the rates of chromosome aberration and micronuclei among different jobs (vehicle control room, ticket office, security checkpoint) (P<0.05), but the abnormal rates were lower than the limits of the corresponding national standard. No significant correlation was found between jobs and chromosomal aberrations or micronuclei (P>0.05). Chromosome aberration and micronuclei varied by age, subway station seniority, and smoking (P<0.05). No effect of the above factors on chromosome aberration and micronuclei was observed by logistic regression (P>0.05).
    Conclusion The radon concentration in the target subway system is at a normal level. The rates of chromosomal aberration and micronucleus formation vary by jobs, but both are lower than the corresponding national limits. Therefore, radon exposure has not yet caused outstanding health impact on the subway workers.

     

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