Relationship between Blood Lead Concentration and Neurobehavioral Function of Children

Kwang Seub Park; Jae Yong Park; Joon Sakong

doi:10.35371/kjoem.2009.21.2.131

Articles

Page Path: HOME > Ann Occup Environ Med > Volume 21(2); 2009 > Article

Original Article Relationship between Blood Lead Concentration and Neurobehavioral Function of Children: Kwang Seub Park, Jae Yong Park, Joon Sakong; Korean Journal of Occupational and Environmental Medicine (대한직업환경의학회지) 2009;21(2):131.
DOI: https://doi.org/10.35371/kjoem.2009.21.2.131
Published online: June 30, 2009

¹Department of Public Health, Graduate School, Kyungpook National University, Daegu, Korea.
²Gyeongsangbukdo Goverment Public Institute of Health and Environment, Korea.
³Department of Preventive Medicine and Public Health, School of Medicine, Kyungpook National University, Daegu, Korea.
⁴Department of Preventive Medicine and Public Health, College of Medicine, Yeungnam University, Daegu, Korea. jsakong@med.yu.ac.kr
⁵Department of Occupational and Environmental Medicine, Yeungnam University Hospital, Daegu, Korea.

869 Views
1 Download
4 Crossref
0 Scopus

prev next

Full Article

Download PDF

Abstract

OBJECTIVES
To evaluate effects of lead on the central nervous system of children by measuring blood lead concentration, computerized neurobehavioral function and intelligence of elementary school students.
METHODS
The study was conducted with 208 elementary school students living in the vicinity of Pohang Industrial Complex in October and November, 2005. Data on demographic characteristics, living environments and lifestyle habits were collected from subjects.
RESULTS
Blood lead levels of elementary school students ranged from 0.76-4.97 microg/dl, which is below the 10 microg/dl recommended level of CDC. The blood lead levels were similar with those reported in other domestic and international studies. Neurobehavioral tests revealed that most third grade students reacted slowly and their speed declined in simple reaction time (p<0.05), choice reaction time (p<0.05), symbol digit substitution (p<0.01), finger tapping speed nondominant hand (p<0.05) as blood lead levels increased. Sixth grade students demonstrated significance in test performance, and displayed blood lead levels of 2.00-4.00 microg/dl. Results of intelligence testing showed significantly low performance in IQ (p<0.05), vocabulary ability (p<0.05), reasoning ability (p<0.05), mathematical ability (p<0.05) and perception ability (p<0.05) among third grade students who displayed high levels of blood lead concentration. Sixth grade students showed significantly low performance in vocabulary ability (p<0.05) at high level of blood lead concentration. The difference in mean IQ scores between the group with blood lead level of < or =2.00 microg/dl and the group with blood lead level > or =3.00 microg/ dl was 3.21 in third grade students and 4.28 in sixth grade students. Low academic achievement was observed among third grade students (p<0.05) and six grade students (p<0.05) as the average blood lead level increased. Correlation analysis on the association of blood lead concentration with neurobehavioral tests revealed a positive correlation between blood lead levels and reaction time of choice reaction time and symbol digit substitution in third grade students. A positive correlation was observed between blood lead levels and reaction time of symbol digit substitution and finger tapping speed in sixth grade students. There was a negative correlation between blood lead levels and reasoning ability of third grade students (r=-0.247) and vocabulary ability of six grade students (r=-0.255).
CONCLUSION
There have been few studies on the effects of blood lead on the central nervous systems of children in Korea. The study supports the findings of earlier studies that blood lead has an impact on children. However, the study did not confirm significant association of blood lead concentration with each neurological and motor test conducted for this study due to a small sample size and relatively low blood lead levels of elementary school students. Further studies using a similar assessment methods would be helpful to evaluate the effects of low blood lead levels on the central nervous systems of children.

Keywords: Elementary school student;Blood lead concentration;Neurobehavioral function

Figure & Data

References

Citations

Citations to this article as recorded by

Association of heavy metal complex exposure and neurobehavioral function of children
Minkeun Kim, Chulyong Park, Joon Sakong, Shinhee Ye, So young Son, Kiook Baek
Annals of Occupational and Environmental Medicine.2023;[Epub] CrossRef
The Impact of Aircraft Noise on the Cognitive Function of Elementary School Students in Korea
Kiook Baek, Chulyong Park, Joon Sakong
Noise and Health.2023; 25(117): 83. CrossRef
The association between lead concentration in the blood and neurobehavioral performance of children
Dae-Seon Kim, Seungchul Ahn, Seungdo Yu, Eun-Hee Lee
Toxicology and Environmental Health Sciences.2012; 4(2): 87. CrossRef
Evaluation of reliability of computerized neurobehavioral tests in Korean children
Kyeong-Soo Lee, Man-Joong Jeon, Tae-Yoon Hwang, Chang-Yoon Kim, Joon Sakong
NeuroToxicology.2012; 33(5): 1362. CrossRef

Cite