Annals of Occupational and Environmental Medicine

In Jeong Park

2 Articles

Analysis of Korean Analytical Quality Assurance Program for the Special Health Examination from 1995 to 1999: Seong Kyu Kang, Jeong Sun Yang, Mi Young Lee, In Jeong Park, Ho Keun Chung; Korean Journal of Occupational and Environmental Medicine 2000;12(1):139-147. Published online March 31, 2000; DOI: https://doi.org/10.35371/kjoem.2000.12.1.139

OBJECTIVE: The accuracy of analytical results of blood and urine heavy metals came out to the main issue on occupational health from late eighties. The discrepancy of the results for same samples from different laboratories made the diagnosis for occupational diseases be unreliable. Therefore, a quality control program for analysis of samples taken from workplace had been introduced in Korea since 1992. This study aims to show the quality control program f'or analysis of blood and urine samples and its proficient rates from 1992 to 1999 and to know how they have been being used in occupational health.
METHODS
The quality control program runs twice a year with mandatory items of blood lead and urine hippuvic acid and voluntary items of blood cadmium and manganese and urine mandellic acid and methyl hippuric acid. Participant laboratories are receiving three levels for each items and two out of three samples have to be qualified for being a proficient laboratory for the item. The acceptable range of blood lead and urine hippuric acid is +/-15% and that of the others is within 3 SD(standard deviation) from the reference values.
RESULTS
The proficient rates of blood lead and urine hippuric acid was 89%, 90%, repectively, however those of the other voluntary items have been from 51% to 62%. The proficient rates of urine mercury and urine N-methylformamide(NMF), which are introduced since 1999, were very poor. Urine hippuric acid and blood lead were analyzed frequently for the purpose of biological monitoring conducting by special health examination organizations. Urine and blood manganese and urine metabolites of trichloroethylene, urine phenol, methylhippuric acid and cadmium were followed.
CONCLUSIONS
In conclusion, the quality control program for biological monitoring has dramatically improve the ability of analysing blood and urine samples and eventually contributes to diagnose occupational diseases and to prevent occupational poisoning. However, some biological monitoring data, such as urine manganese, mercury and NMF, have been still reported from laboratories that were not accepted as a proficient laboratory.

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External Quality Assessment Scheme for Biological Monitoring of Occupational Exposure to Toxic Chemicals
Mi-Young Lee, Jeong Sun Yang, Seong-Kyu Kang
Safety and Health at Work.2011; 2(3): 229. CrossRef

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Styrene in Air and Blood and Mandelic acid in Urine in the Workers exposed to Styrene: Ho Keun Chung, Seong Kyu Kang, Jeong Sun Yang, Ki Woong Kim, Jong Seong Lee, Young Sook Cho, In Jeong Park; Korean Journal of Occupational and Environmental Medicine 1994;6(1):113-121. Published online February 28, 1994; DOI: https://doi.org/10.35371/kjoem.1994.6.1.113

Abstract PDF

The concentration of styrene in air and in blood and mandelic acid in urine were checked for the 60 workers with normal liver function, exposed to styrene. Styrene in air were sampled with personal air sampler at least 4 hours and analyzed by gas chromatography. Blood and spot urine were collected at the end of shift with a vacuum tube and a plyethylene bottle and analyzed by has chromatography and high performance liquid chromatography. Means of air and blood styrene and urine mandelic acid were 8.16 ppm (geometric mean), 0.199 mg/L, and 0.519 g/g creatinine, respectively. The concentration of styrene in air and mandelic acid in urine were high in the FRP factories and low in polymerization factory. Styrene in blood showed large difference by the working process. Styrene in air showed a good correlation with mandelic acid in urine(r=0.6369) and styrene in blood(r=0.6371). The mandelic acid in urine and styrene in blood corresponded to exposure of 50 ppm styrene were 0.890 g/g creatinine and 0.434 mg/L. However, hippuric acid in urine did not show any correlation with styrene in air. Urine mandelic acid excretion expected ratio showed a tendency to decrease according to obesity index and to increase with alcohol consumption.

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Evaluation of the Suitability of Establishing Biological Exposure Indices of Styrene
Ah-rum Choi, Sung-guk Im, Mi-young Lee, Se-Hoon Lee
Safety and Health at Work.2019; 10(1): 103. CrossRef

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