波斯尼亚和黑塞哥维那卢卡瓦茨饮用地下水中氟化物的确定性和概率性人类健康风险评估。

Environmental analysis, health and toxicology Pub Date : 2022-06-01 Epub Date: 2022-06-22 DOI:10.5620/eaht.2022016
Maida Šljivić Husejnović, Almina Turkić, Arnela Halilčević, Nermina Hadžić, Halida Mahmutbegović
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引用次数: 4

摘要

虽然氟化物对牙齿健康至关重要,但人们对氟化物暴露的风险-效益比越来越关注。这项研究的目的是获取关于饮用地下水中氟化物含量和人类健康风险的数据,并比较和评价两种不同的健康风险评估方法(确定性与概率)所获得产出的差异。在波斯尼亚-黑塞哥维那东北部一个人口稠密的工业区,共收集了54个地下水样本。氟浓度从1.69毫克/升到3.52毫克/升不等。所分析的所有样本都超过了世卫组织对饮用水中氟化物的阈值,表明每天从地下水中摄取的氟化物有所增加。使用确定性和半概率技术进行暴露评估和健康风险量化。一般来说,确定性方法在大多数成人接触情景中导致可接受的健康风险。然而,蒙特卡罗模拟显示,20.6%、20.8%和99.8%的成年男性、女性和儿童分别高于可耐受的上限摄入量,这表明成人和儿童都面临着重大的健康风险。然而,幼儿比青年和成年人更容易受到环境危害的影响。因此,需要进行更深入的风险效益分析,以减少/或优化饮用水中的氟化物含量,以防止所有年龄段的蛀牙和氟中毒。考虑到氟化物的最佳每日摄入量是维护人类健康的一个关键因素,决策者应采取步骤,强调持续监测饮用水中氟化物浓度的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Deterministic and probabilistic human health risk assessment for fluorides in drinking groundwater from Lukavac, Bosnia and Herzegovina.

Deterministic and probabilistic human health risk assessment for fluorides in drinking groundwater from Lukavac, Bosnia and Herzegovina.

Deterministic and probabilistic human health risk assessment for fluorides in drinking groundwater from Lukavac, Bosnia and Herzegovina.

Deterministic and probabilistic human health risk assessment for fluorides in drinking groundwater from Lukavac, Bosnia and Herzegovina.

Although fluorides are essential for dental health, there are growing health concerns regarding the risk-benefit ratio of fluoride exposure. The objectives of the study were to obtain data on the amount and human health risks of fluoride in drinking groundwater, as well as to compare and evaluate the differences in the outputs obtained by two different approaches in health risk assessment (deterministic vs probabilistic). From a densely populated industrial area of north-eastern Bosnia and Herzegovina, a total of 54 groundwater samples were collected. Fluoride concentrations varied from 1.69 to 3.52 mg/L. The WHOapos;s threshold value for fluoride in drinking water was exceeded in all the samples analysed, indicating an increased daily intake of fluoride from groundwater. Deterministic and semi-probabilistic techniques were used for exposure assessment and health risk quantification. Generally, the deterministic approach resulted in acceptable health risks in most adult exposure scenarios. However, the Monte Carlo simulation revealed that 20.6, 20.8, and 99.8% of adult males, females, and children, respectively, were above the tolerable upper intake level, indicating that both adults and children face a significant health risk. Nevertheless, small children are more vulnerable to environmental hazards than youth and adults. Hence, a more in-depth risk-benefit analysis is required to reduce/or optimize fluoride content in drinking water to prevent tooth decay and fluorosis at all ages. Considering that optimal daily intake of fluorides is a crucial factor for preserving human health, decision-makers should take steps to emphasize the importance of continuous monitoring of fluoride concentrations in drinking water.

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