包佑红, 韩磊, 宋海燕, 董秋, 李秀婷, 季晓庆, 潘丽萍. 南京市2016年铅作业工人血铅结果分析[J]. 职业卫生与应急救援, 2018, 36(5): 385-388. DOI: 10.16369/j.oher.issn.1007-1326.2018.05.002
引用本文: 包佑红, 韩磊, 宋海燕, 董秋, 李秀婷, 季晓庆, 潘丽萍. 南京市2016年铅作业工人血铅结果分析[J]. 职业卫生与应急救援, 2018, 36(5): 385-388. DOI: 10.16369/j.oher.issn.1007-1326.2018.05.002
BAO Youhong, HAN Lei, SONG Haiyan, DONG Qiu, LI Xiuting, JI Xiaoqin, PAN Liping. Blood lead level of workers occupationally exposed to lead in Nanjing 2016[J]. Occupational Health and Emergency Rescue, 2018, 36(5): 385-388. DOI: 10.16369/j.oher.issn.1007-1326.2018.05.002
Citation: BAO Youhong, HAN Lei, SONG Haiyan, DONG Qiu, LI Xiuting, JI Xiaoqin, PAN Liping. Blood lead level of workers occupationally exposed to lead in Nanjing 2016[J]. Occupational Health and Emergency Rescue, 2018, 36(5): 385-388. DOI: 10.16369/j.oher.issn.1007-1326.2018.05.002

南京市2016年铅作业工人血铅结果分析

Blood lead level of workers occupationally exposed to lead in Nanjing 2016

  • 摘要:
    目的 了解南京市铅作业工人的血铅水平, 保护工人健康。
    方法 收集南京市全市职业健康检查机构2016年1月1日至12月31日参加在岗期间职业健康检查的1 097名铅作业工人的职业史以及血铅检查结果, 并按照企业规模、经济类型、所在地区和行业进行分类比较。
    结果 研究对象年龄17.0~60.0(32.8±9.3)岁, 工龄0.6~40.0(10.3±9.0)年。作业工人的血铅水平M (P25, P75)为33.0(18.0, 50.0)μg/L, 血铅超标检出率1.82%。未见慢性铅中毒患者。血铅>100 μg/L占9.0%。血铅水平与年龄、工龄呈弱的正相关关系(r年龄=0.25, r工龄=0.12, P < 0.05)。男性铅作业工人的血铅水平高于女性, 差异有统计学意义(P < 0.01)。专用设备制造业、化学原料和化学品制造业血铅水平均高于其余8个行业, 六合区的铅作业工人血铅水平高于其余4个区, 以上差异均有统计学意义(P < 0.05)。微型、小型、中型、大型企业工人血铅水平依次下降, 私营、外商投资、国有企业工人血铅水平也依次下降, 以上两两差异均有统计学意义(P < 0.05)。
    结论 南京市铅作业工人血铅水平高于普通人群。要特别重视化学原料和化学品制造业、专用设备制造业、微型和小型企业以及私营企业铅作业工人的铅危害防控。

     

    Abstract:
    Objective To understand the lead exposure level of workers in lead-used or produced industries in Nanjing.
    Methods The data of occupational surveillance of lead-exposed workers in Nanjing, including employment history and their blood levels in the year of 2016 were collected and analyzed according to the types of enterprises, such as the location, scale of economies, and industrial characteristic.
    Results The lead-exposed workers' age ranged from 17.0 to 60.0 (32.8±9.3) years old, and their employment time varied from 0.6 to 40.0(10.3±9.0) years. Their blood lead level, as median, was 33.0μg/L, while P25 and P75 was 18.0 and 50.0μg/L, respectively. It was found that 1.82% workers had higher blood lead level than the reference value but no chronic lead poisoning cases was diagnosed, and 9% workers had a higher blood lead level than 100μg/L and the blood lead level had a weak positive correlation with workers' age (r=0.25, P < 0.05)or employment time(r=0.12, P < 0.05). Male workers had a higher blood lead level than female workers and the difference was statistically significant (P < 0.01). It seemed that the workers in the special equipment manufacturing, chemical raw materials and chemical manufacturing industries had significantly higher blood level than the workers in the other 8 sectors(P < 0.05), and the workers of Liuhe District had significantly higher blood level than the workers in the other 4 districts(P < 0.05). The blood lead levels of workers seemed to be decreased in turn, in the micro-, small-, medium-and/or large-enterprises, or in the private, foreign and state-owned enterprises(P < 0.05).
    Conclusion The occupationally lead-exposed workers' blood lead level in Nanjing was higher than that in the general population. Particular attention should be paid to the prevention and control of lead hazards among lead-exposed workers in chemical raw materials and chemical manufacturing, special equipment manufacturing sectors, as well as in micro and small enterprises and private enterprises.

     

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