Mobilisation of Heavy Metals into the Urine by CaEDTA: Relation to Erythrocyte and Plasma Concentrations and Exposure Indicators

Overview

Journal Br J Ind Med

Specialty Occupational Medicine

Date 1986 Sep 1

PMID 3092853

Citations 5

Authors

S Araki

H Aono

K Murata

Affiliations

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Abstract

To investigate the effects of calcium disodium ethylenediamine tetra-acetate (CaEDTA) on the urinary excretion, erythrocyte, and plasma concentrations and exposure indicators of seven heavy metals, CaEDTA was administered by intravenous infusion to 20 workers exposed to lead, zinc, and copper. The workers' blood lead concentrations ranged from 22 to 59 micrograms/dl (mean 38 micrograms/dl (1.8 mumol/l]. The 24 hour urinary excretion of metals after CaEDTA administration (mobilisation yield) was on average 13 times the background excretion for lead, 11 times for zinc, 3.8 times for manganese, 3.4 times for cadmium, 1.3 times for copper, and 1.1 times for chromium; no significant increase was found for mercury. The mobilisation yield of lead (MPb) was significantly correlated with whole blood and erythrocyte concentrations and the urinary excretion of lead but not with its plasma concentration; similarly, the mobilisation yield of cadmium was significantly correlated with its erythrocyte concentration. In addition, MPb was significantly correlated with intra-erythrocytic enzyme delta-aminolaevulinic acid dehydratase activity and urinary coproporphyrin excretion. The relation between the mobilisation yield of heavy metals and their body burden (and toxic signs) is discussed in the light of these findings.

Citing Articles

delta-Aminolevulinic acid dehydratase genotype modifies four hour urinary lead excretion after oral administration of dimercaptosuccinic acid.

Schwartz B, Lee B, Stewart W, Sithisarankul P, Strickland P, Ahn K Occup Environ Med. 1997; 54(4):241-6.

PMID: 9166129 PMC: 1128697. DOI: 10.1136/oem.54.4.241.

Measurement by ICP-MS of lead in plasma and whole blood of lead workers and controls.

Schutz A, Bergdahl I, Ekholm A, Skerfving S Occup Environ Med. 1996; 53(11):736-40.

PMID: 9038796 PMC: 1128590. DOI: 10.1136/oem.53.11.736.

Provocative chelation with DMSA and EDTA: evidence for differential access to lead storage sites.

Lee B, Schwartz B, Stewart W, Ahn K Occup Environ Med. 1995; 52(1):13-9.

PMID: 7697134 PMC: 1128144. DOI: 10.1136/oem.52.1.13.

Circadian rhythms in the urinary excretion of heavy metals and organic substances in metal workers in relation to renal excretory mechanism: profile analysis.

Aono H, Araki S Int Arch Occup Environ Health. 1988; 60(1):1-6.

PMID: 3350598 DOI: 10.1007/BF00409371.

Evaluation of the potential role of chelation therapy in treatment of low to moderate lead exposures.

CHISOLM Jr J Environ Health Perspect. 1990; 89:67-74.

PMID: 1965166 PMC: 1567805. DOI: 10.1289/ehp.908967.

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