[Bioaccessibility characteristics of metals in welding fume and its application in exposure assessment].

Q3 Medicine
M Yu, Y Tang, Y Ning, Y Xu, C Y Tao, X Zhang
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引用次数: 0

Abstract

Objective: To explore the bioaccessibility of the main metal components in welding fume welding fume in simulated lung fluid, and to evaluate the exposure level of each metal component in combination with the EPA inhalation exposure risk assessment model. Methods: In November 2022, the microscopic morphology characteristics of welding fumes were analyzed by scanning electron microscopy, the bioaccessibility of each metal component in lung fluid simulated normal and lung inflammatory states was analyzed by in vitro simulation method, and the exposure level of each metal component was calculated in combination with the EPA inhalation exposure risk assessment model. Results: The main metal components in carbon dioxide gas shielded welding fumes were Fe, Mn, Zn, Ti, Al, Cu, Cr, Cd, Ni and As, and the bioaccessibility in simulated normal lung interstitial fluid was 0.82%-1.84%, 5.07%-9.41%, 4.52%-7.23%, 5.10%-8.67%, 20.48%-29.60%, 5.27%-9.83%, 4.80%-7.56%, 0.07%-1.08%, 6.48%-13.84% and 33.02%-42.81%. The bioaccessibility of the above metal components in the lung fluid under simulated lung inflammation was 14.79%-27.45%, 34.53%-46.11%, 35.31%-59.13%, 16.45%-22.51%, 60.78%-76.51%, 26.58%-34.12%, 15.32%-25.87%, 2.0%-5.7%, 34.77%-43.33% and 71.34%-88.36%, respectively. Compared with the simulated lurg interstitial fluid, the bioaccessibility of metal components in the lung fluid under the simulated inflammatory state was increased, and the difference was statistically significant (P<0.05). The average daily exposure dose Mn in the two simulated lung fluids exceeded the inhalation reference limit (>50 times), and the average daily exposure dose Ti and Cr in the simulated lung inflammation exceeded the reference limit (>1.3 times) . Conclusion: Attention should be paid to the bioaccessibility characteristics of metal components in the exposure level and hazard assessment of welding fumes.

[焊接烟尘中金属的生物可及性特征及其在暴露评估中的应用]。
目的探讨焊接烟尘中主要金属成分在模拟肺液中的生物可及性,并结合美国环保署的吸入暴露风险评估模型,评估各金属成分的暴露水平。方法:2022年11月,利用扫描电子显微镜分析了焊接烟尘的微观形态特征,采用体外模拟方法分析了各金属成分在模拟正常和肺部炎症状态肺液中的生物可及性,并结合美国环保署吸入暴露风险评估模型计算了各金属成分的暴露水平。结果表明二氧化碳气体保护焊烟雾中的主要金属成分为 Fe、Mn、Zn、Ti、Al、Cu、Cr、Cd、Ni 和 As,在模拟正常肺间质中的生物可及性分别为 0.82%-1.84%、5%-10%、10%-15%。82%-1.84%、5.07%-9.41%、4.52%-7.23%、5.10%-8.67%、20.48%-29.60%、5.27%-9.83%、4.80%-7.56%、0.07%-1.08%、6.48%-13.84% 和 33.02%-42.81%。模拟肺部炎症时,上述金属成分在肺液中的生物可及性分别为 14.79%-27.45%、34.53%-46.11%、35.31%-59.13%、16.45%-22.51%、60.78%-76.51%、26.58%-34.12%、15.32%-25.87%、2.0%-5.7%、34.77%-43.33% 和 71.34%-88.36%。与模拟肺间质相比,模拟炎症状态下肺液中金属成分的生物可及性增加,差异有统计学意义(P50 倍),且模拟肺部炎症中钛和铬的日均暴露剂量超过参考限值(>1.3 倍)。结论在对焊接烟尘进行暴露水平和危害评估时,应注意金属成分的生物可及性特征。
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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来源期刊
中华劳动卫生职业病杂志
中华劳动卫生职业病杂志 Medicine-Medicine (all)
CiteScore
1.00
自引率
0.00%
发文量
9764
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