An Electroneurographic Assessment of Subclinical Lead Neurotoxicity

Overview

Journal Int Arch Occup Environ Health

Specialty Environmental Health

Date 1988 Jan 1

PMID 2848773

Citations 7

Authors

F S He

S L Zhang

G Li

S C Zhang

J X Huang

Y Q Wu

Affiliations

Soon will be listed here.

Abstract

While heavy exposure to inorganic lead is capable of inducing symptomatic neuropathy in man, the subclinical neuropathy due to low levels of occupational lead exposure remains to be proved. The reported results of electroneurographic studies on lead workers, however, have been controversial. In this study, 40 lead smeltery workers and 50 non-exposed referents were investigated. The air concentrations of lead at worksites were 0.25 to 42.5 mg/m3. The geometric means of PbB, PbU and delta-ALAU in lead exposed group were 40.03 micrograms/dl, 71 micrograms/l and 4.68 mg/l respectively, which were significantly higher (P less than 0.001) than those (7.01 micrograms/dl, 6.0 micrograms/l and 1.81 mg/l respectively) in the reference group. There were no clinical symptoms or signs of nerve damage in either group. Alcoholism and diabetes were excluded in both groups. Nerve conduction velocity was measured by a DISA 1500 electromyograph in both groups. Eleven electroneurographic parameters, including motor nerve conduction velocity (MCV) and distal latency (DML) of median, ulnar and peroneal nerves as well as sensory nerve conduction velocity (SCV) and distal latency (DSL) of median, ulnar and sural nerves, showed statistically significant differences between the two groups. However, the results of electroneurographic measurements of each individual in the lead-exposed group were all within the normal range. There was no correlation between the blood-lead levels and the neurophysiological measurements except for the median MCV. No correlation was seen between the median MCV and the exposure duration.(ABSTRACT TRUNCATED AT 250 WORDS)

Citing Articles

Radial neuropathy due to occupational lead exposure: Phenotypic and electrophysiological characteristics of five patients.

Shobha N, Taly A, Sinha S, Venkatesh T Ann Indian Acad Neurol. 2010; 12(2):111-5.

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Vibration perception thresholds in workers with long term exposure to lead.

Chuang H, Schwartz J, Tsai S, Lee M, Wang J, Hu H Occup Environ Med. 2000; 57(9):588-94.

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The conceptual structure of the integrated exposure uptake biokinetic model for lead in children.

White P, van Leeuwen P, Davis B, Maddaloni M, Hogan K, Marcus A Environ Health Perspect. 1998; 106 Suppl 6:1513-30.

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Effects of low level exposure to lead on neurophysiological functions among lead battery workers.

Kovala T, Matikainen E, Mannelin T, Erkkila J, Riihimaki V, Hanninen H Occup Environ Med. 1997; 54(7):487-93.

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Latency of the Achilles tendon reflex for detection of reduced functions of the peripheral nervous system in workers exposed to lead.

Ogawa Y, Hirata M, Okayama A, Ichikawa Y, Goto S Br J Ind Med. 1993; 50(3):229-33.

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