OBJECTIVES: The objective of the study was to investigate long-term cognitive effects resulting from low to moderate lead exposure below current threshold values. Executive functions, attention, visuospatial and visuomotor functioning in workers formerly exposed to lead were investigated. METHODS: 48 men formerly exposed to lead and with a mean current blood level (PbB) of 5.4 microg Pb/100 ml were investigated, together with 48 matched controls (PbB, 4.7 microg Pb/100 ml) out of a pool of 61 males. The two groups were matched for age, years spent in education, verbal intelligence and gram alcohol consumption per week. The following neuropsychological tests were used: modified Wisconsin card sorting test, block design test, visual recognition test, simple reaction time, choice reaction and digit-symbol substitution. Lead exposure was assessed using both current and cumulative measurements. RESULTS: There were no significant differences in cognitive parameters between the two groups. When analyzing dose-response relationships, negative correlations were found between PbB and performance in the block design test, and between PbB and scores in the visual recognition and digit-symbol substitution tests. High cumulative exposure (IBL, >5000; duration of exposure, >5 years) correlated only with wrong reactions in the choice reaction test. CONCLUSIONS: The results of our study indicate that cognitive deficits resulting from low-level exposure to lead are reversible. The study was limited to low-level long-term exposure (all PbB values were always below 55 microg Pb/100 ml), and extrapolation of these results to persons heavily exposed to lead is not possible.
OBJECTIVES: The objective of the study was to investigate long-term cognitive effects resulting from low to moderate lead exposure below current threshold values. Executive functions, attention, visuospatial and visuomotor functioning in workers formerly exposed to lead were investigated. METHODS: 48 men formerly exposed to lead and with a mean current blood level (PbB) of 5.4 microg Pb/100 ml were investigated, together with 48 matched controls (PbB, 4.7 microg Pb/100 ml) out of a pool of 61 males. The two groups were matched for age, years spent in education, verbal intelligence and gram alcohol consumption per week. The following neuropsychological tests were used: modified Wisconsin card sorting test, block design test, visual recognition test, simple reaction time, choice reaction and digit-symbol substitution. Lead exposure was assessed using both current and cumulative measurements. RESULTS: There were no significant differences in cognitive parameters between the two groups. When analyzing dose-response relationships, negative correlations were found between PbB and performance in the block design test, and between PbB and scores in the visual recognition and digit-symbol substitution tests. High cumulative exposure (IBL, >5000; duration of exposure, >5 years) correlated only with wrong reactions in the choice reaction test. CONCLUSIONS: The results of our study indicate that cognitive deficits resulting from low-level exposure to lead are reversible. The study was limited to low-level long-term exposure (all PbB values were always below 55 microg Pb/100 ml), and extrapolation of these results to persons heavily exposed to lead is not possible.
Authors: Yu-Ling Yu; Wen-Yi Yang; Azusa Hara; Kei Asayama; Harry A Roels; Tim S Nawrot; Jan A Staessen Journal: Hypertens Res Date: 2022-10-18 Impact factor: 5.528
Authors: Yu-Ling Yu; Lutgarde Thijs; Nelly Saenen; Jesus D Melgarejo; Dong-Mei Wei; Wen-Yi Yang; Cai-Guo Yu; Harry A Roels; Tim S Nawrot; Gladys E Maestre; Jan A Staessen; Zhen-Yu Zhang Journal: Scand J Work Environ Health Date: 2020-12-04 Impact factor: 5.024
Authors: Michael J Kosnett; Richard P Wedeen; Stephen J Rothenberg; Karen L Hipkins; Barbara L Materna; Brian S Schwartz; Howard Hu; Alan Woolf Journal: Environ Health Perspect Date: 2006-12-22 Impact factor: 9.031