Cesio Vidiar Prodia, L. J. Fuk, Mulyana Mulyana, Bertha Pangaribuan, M. Mansyur
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Blood δ-ALAD activity was measured using NMAM 8000 method, while heavy metals levels were measured using ICPMS. 25-OH vitamin D was measured using ECLIA method.\n \n \n \n We identify that several occupational activities were the sources of heavy metals exposure. The median (min-max) of the blood δ-ALAD activity was 22.16 (2.88-36.98) unit/g hematocrit. The median (min-max) concentrations of lead, chromium, cadmium and 25-OH vitamin D levels were 6.97 (1.17-43.94) μg/dL, 9.26 (0.05-66.95) μg/L, 1.0 (0.01-6.43) μg/L and 21 (11-36) ng/mL, respectively. The δ-ALAD activity was found to be significantly correlated with blood lead, chromium, and cadmium level, as well as with the ratio of Pb/Mn, Cd/Mn, Cd/vitamin D, and Pb/vitamin D.\n \n \n \n Our findings indicated that some heavy metals may contribute to the catalysis activity of the δ-ALAD enzyme.\n \n \n \n Blood δ-ALAD activity can be interfered with by lead, chromium, and cadmium. The health impacts mitigation efforts due to lead exposure need to pay attention to the potential involvement of co-exposure to other heavy metals. Keywords: Heavy metals, δ-ALAD activity, Ratio of metal to 25-OH vitamin D\n","PeriodicalId":19452,"journal":{"name":"Occupational medicine","volume":"80 7","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"P-365 ANALYSIS OF HEAVY METALS INTERFERENCE IN BLOOD DELTA-AMINOLEVULINIC ACID DEHYDRATASE (Δ-ALAD) ACTIVITY\",\"authors\":\"Cesio Vidiar Prodia, L. J. Fuk, Mulyana Mulyana, Bertha Pangaribuan, M. Mansyur\",\"doi\":\"10.1093/occmed/kqae023.0982\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"\\n \\n \\n Lead may alter δ-ALAD activity, the enzymes involved in the heme synthesis pathway. In the occupational setting, lead exposure rarely appears alone but occurs together with other heavy metal. This study aims to analyze the relationship of multiple heavy metals exposure with the δ-ALAD activity.\\n \\n \\n \\n We conducted a cross-sectional study in Java Island, Indonesia. A total of 71 participants were consecutively recruited from 3 locations. The questionnaire, physical examinations, and blood samples were taken from all subjects. Blood δ-ALAD activity was measured using NMAM 8000 method, while heavy metals levels were measured using ICPMS. 25-OH vitamin D was measured using ECLIA method.\\n \\n \\n \\n We identify that several occupational activities were the sources of heavy metals exposure. The median (min-max) of the blood δ-ALAD activity was 22.16 (2.88-36.98) unit/g hematocrit. The median (min-max) concentrations of lead, chromium, cadmium and 25-OH vitamin D levels were 6.97 (1.17-43.94) μg/dL, 9.26 (0.05-66.95) μg/L, 1.0 (0.01-6.43) μg/L and 21 (11-36) ng/mL, respectively. The δ-ALAD activity was found to be significantly correlated with blood lead, chromium, and cadmium level, as well as with the ratio of Pb/Mn, Cd/Mn, Cd/vitamin D, and Pb/vitamin D.\\n \\n \\n \\n Our findings indicated that some heavy metals may contribute to the catalysis activity of the δ-ALAD enzyme.\\n \\n \\n \\n Blood δ-ALAD activity can be interfered with by lead, chromium, and cadmium. The health impacts mitigation efforts due to lead exposure need to pay attention to the potential involvement of co-exposure to other heavy metals. 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引用次数: 0
摘要
铅可能会改变参与血红素合成途径的酶δ-ALAD 的活性。在职业环境中,铅暴露很少单独出现,而是与其他重金属一起出现。本研究旨在分析多种重金属暴露与δ-ALAD活性之间的关系。 我们在印度尼西亚爪哇岛进行了一项横断面研究。我们从 3 个地点连续招募了 71 名参与者。我们对所有受试者进行了问卷调查、体格检查和血液样本采集。血液中的δ-ALAD 活性采用 NMAM 8000 法进行测量,重金属水平则采用 ICPMS 法进行测量。25-OH 维生素 D 采用 ECLIA 方法进行测量。 我们发现几种职业活动是重金属暴露的来源。血液中δ-ALAD活性的中位数(最小-最大值)为22.16(2.88-36.98)单位/克血细胞比容。铅、铬、镉和 25-OH 维生素 D 浓度的中位数(最小-最大值)分别为 6.97(1.17-43.94)微克/分升、9.26(0.05-66.95)微克/升、1.0(0.01-6.43)微克/升和 21(11-36)纳克/毫升。研究发现,δ-ALAD 活性与血液中的铅、铬、镉含量以及铅/锰、镉/锰、镉/维生素 D 和铅/维生素 D 的比值显著相关。 血液中的δ-ALAD活性会受到铅、铬和镉的干扰。在减轻铅暴露对健康影响的工作中,需要注意其他重金属共同暴露的潜在影响。关键词重金属 δ-ALAD 活性 金属与 25-OH 维生素 D 的比率
P-365 ANALYSIS OF HEAVY METALS INTERFERENCE IN BLOOD DELTA-AMINOLEVULINIC ACID DEHYDRATASE (Δ-ALAD) ACTIVITY
Lead may alter δ-ALAD activity, the enzymes involved in the heme synthesis pathway. In the occupational setting, lead exposure rarely appears alone but occurs together with other heavy metal. This study aims to analyze the relationship of multiple heavy metals exposure with the δ-ALAD activity.
We conducted a cross-sectional study in Java Island, Indonesia. A total of 71 participants were consecutively recruited from 3 locations. The questionnaire, physical examinations, and blood samples were taken from all subjects. Blood δ-ALAD activity was measured using NMAM 8000 method, while heavy metals levels were measured using ICPMS. 25-OH vitamin D was measured using ECLIA method.
We identify that several occupational activities were the sources of heavy metals exposure. The median (min-max) of the blood δ-ALAD activity was 22.16 (2.88-36.98) unit/g hematocrit. The median (min-max) concentrations of lead, chromium, cadmium and 25-OH vitamin D levels were 6.97 (1.17-43.94) μg/dL, 9.26 (0.05-66.95) μg/L, 1.0 (0.01-6.43) μg/L and 21 (11-36) ng/mL, respectively. The δ-ALAD activity was found to be significantly correlated with blood lead, chromium, and cadmium level, as well as with the ratio of Pb/Mn, Cd/Mn, Cd/vitamin D, and Pb/vitamin D.
Our findings indicated that some heavy metals may contribute to the catalysis activity of the δ-ALAD enzyme.
Blood δ-ALAD activity can be interfered with by lead, chromium, and cadmium. The health impacts mitigation efforts due to lead exposure need to pay attention to the potential involvement of co-exposure to other heavy metals. Keywords: Heavy metals, δ-ALAD activity, Ratio of metal to 25-OH vitamin D
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