环境卫生
铅(地质)
铅暴露
铅冶炼
血铅水平
医学
铅中毒
人口
荟萃分析
显著性差异
环境保护
地理
冶炼
生物
内科学
古生物学
有机化学
化学
精神科
猫
作者
J. Adolfo Chavez-Garcia,Alejandro Noriega-León,Julio A. Alcocer-Zuñiga,Juvencio Robles,Gustavo Cruz-Jiménez,Cuauhtémoc Arturo Juárez‐Pérez,Minerva Martínez‐Alfaro
标识
DOI:10.1016/j.jtemb.2022.126948
摘要
Lead is one of the 10 most toxic chemicals of greatest concern for its effects on public health. Predominantly, in undeveloped countries, high blood lead levels (BLLs) persist in the population. To develop intervention strategies that may reduce lead exposure in populations, it is a priority to know the sources of lead pollution. The objective of this critical review and meta-analysis is to assess whether there is an association between different sources of lead exposure and the mean difference in blood lead levels in people exposed. To identify the major lead source exposure, a statistical analysis was performed on selection studies. This investigation reveals the limited information available on the sources of lead in Mexico and other lead producer countries, such as Croatia, Ecuador, Brazil, South Korea, India, Nigeria, Turkey, and China. Meta-analysis could be performed only in battery, smelting mining, and glazed ceramic workers. Battery manufacturing workers have the highest mean difference level of lead in their blood worldwide. Mexico has the second highest mean difference BLL in battery workers in the world. An interesting difference between the mean difference in BLL in mining workers from uncontrolled industry (−39.38) and controlled industry (−5.68) was found. This difference highlighted the success of applying strict control of lead sources and community education to reduce BLL and its potential harmful effects on human health and the environment. Children living near mining sites have the highest mean difference BLL (−11.1). This analysis may aid in assessing the source of lead exposure associated with a range of BLLs in people. Furthermore, this review highlights several social and cultural patterns associated with lead exposure and lead levels in control populations. These results could help to develop international lead regulations and appropriate public health guidelines to protect people around the world.
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