Journal of Environmental Impact Assessment (환경영향평가)

Korean Society of Environmental Impact Assessment (한국환경영향평가학회)
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Correlation of Urinary Hippuric Acid Concentration according to Occupational Exposure Level of Toluene and Worker's Characteristics

작업환경중 톨루엔 농도와 근로자 특성에 따른 뇨중 마뇨산 농도의 상관성

  • Lee, Gye-Young (Department of Environmental Engineering, Chungbuk National University) ;
  • Shin, Taek-Soo (Department of Environmental Engineering, Chungbuk National University) ;
  • Hong, Sang-Pyo (Department of Environmental Engineering, Cheongju University) ;
  • Kim, Kwangyul (Department of Environmental Engineering, Chungbuk National University)
  • Received : 2014.09.16
  • Accepted : 2015.03.20
  • Published : 2015.04.30
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Abstract

Correlation between occupational exposure levels to toluene and urinary hippuric acid (HA) concentrations were studied for 124 workers at 54 work places. The highest indoor toluene concentration measured at printing process was 81.116 ppm, and their geometric average concentration was as high as 12.304 ppm. The geometric average concentration of hippuric acid in urine samples from workers who are exposed to toluene was 0.714 g/g creatinine. This is almost five times higher than the average HA concentration from non-exposure workers. Printing workers showed the average HA concentration of 1.145 g/g creatinine from their urine samples. It is the highest concentration among the workers exposed to toluene. The correlation coefficient between HA concentrations in urine and indoor toluene concentration at work places was relatively high as r=0.624 (P<0.01). But the correlations of HA with sex, smoking, drinking, age and employment history was relatively low. We can express the regression equation for the urinary HA concentration which is Y = 0.037X + 0.562 as exposure toluene concentration is X. The urinary HA concentrations showed significantly increase depend on indoor toluene concentration at work place.

작업환경중 톨루엔 농도와 뇨중 마뇨산 농도와의 상관성에 대하여 54개 사업장에서 일하는 124명의 근로자를 대상으로 연구하였다. 가장 높은 실내 작업장의 톨루엔 농도는 인쇄 공정에서 81.116ppm으로 측정되었으며, 기하평균농도는 12.304 ppm으로 높은 값을 나타내었다. 톨루엔 노출 작업자의 뇨중 마뇨산 농도의 기하평균은 0.714 g/g creatinine으로, 비노출군에 비하여 5배 정도 높게 나타났다. 인쇄 공정 노동자의 평균 뇨중 마뇨산 농도는 다른 공정의 노동자에 비해 가장 높은 1.145g/g creatinine 이었다. 작업자의 노출 톨루엔 농도와 뇨중 마뇨산 농도 사이의 상관계수는 r=0.624 (P<0.01)로 상관성이 비교적 높은 것으로 나타났으나, 뇨중 마뇨산 농도와 근로자의 성별, 음주 및 흡연, 근무경력 등의 상관성은 낮게 나타났다. 노출 톨루엔 농도 X에 대한 뇨중 마뇨산 농도 Y의 회귀방정식은 Y = 0.037X + 0.562로 표현할 수 있다. 결론적으로 작업장에서의 톨루엔 노출농도에 따라 뇨중 마뇨산농도가 유의하게 증가함을 알 수 있다.

Keywords

References

  1. 대한산업보건협회. 1991. 요중 마뇨산, 메틸마뇨산 및 만델산의 측정; 고속액체 그로마토그라프법, 산업보건, 37, 21-26.(Korean Industrial Health Association. 1991. Measurement of Hippuric Acid, Methylhippuric Acid, and mandelic acid in Urine; High Performance Liquid Chromatographic Determination. Industrial Health, 37, 21-26.)
  2. 박흥재, 김형준, 정성욱, 이병호. 2005. 작업장 특성에 따른 톨루엔 노출 근로자의 마뇨산 배출특성, 한국환경과학회지, 14(2), 201-207.(Park H, Kim H, Jeong S, Lee B. 2005. A Specific Character on the Urinary Hippuric Acid Excretions of Workers Exposed to Toluene in Specific Character of Manufacturing Industry, Journal of the Environmental Sciences, 14(2), 201-207.)
  3. 백남원. 2003. 산업위생학개론, 신광출판사, 61-66.(Back N. 2003. Introduction to Industrial Hygiene, Shinkwang Publishing Co., 61-66.)
  4. 산업안전보건연구원. 2013. 근로자건강진단 실무지침, 산업안전보건연구원.
  5. 안선희, 최호춘. 2000. 가스크로마토그래프를 이용한 요중 마뇨산, 만델릭산, 메틸마뇨산, 페닐글리옥실산 분석, 산업보건, 152, 49-56.(An S, Choi H. 2000. Analysis of Hippuric Acid, Mandelic Acid and Methylhippuric Acid in Urine by Using Gas chromatograph, Industrial Health, 152, 49-56.)
  6. 이성수, 안규동, 이병국, 남택승. 1989. 톨루엔 사용 근로자의 폭로량과 요중 마뇨산 배설량, 예방의학회지, 22(4), 480-485.(Lee S, Ahn K, Lee B, Nam T. 1989. A Study on Relationship between Exposure to Toluene and Excretion of Hippuric Acid in Urine with Male Sovent Workers, Journal of Preventive Medicine and Public Health, 22(4), 480-485.)
  7. 이세훈, 김형아, 이병국, 이광묵. 1988. 톨루엔 폭로근로자의 요중 마뇨산 및 o-cresol 배설농도와 자각증상, 한국의 산업의학, 27(2), 4-11.(Lee S, Kim H, Lee B, Lee G. 1988. Urinary Excretion of Hippuric Acid and o-Cresol and Subjective Symptoms Among Workers Occupationally Exposed to Toluene, Korean Industrial Medicine, 27(2), 4-11.)
  8. 이용진. 2004. 저 농도 톨루엔 폭로자에서 식이음료가 마뇨산 배설에 미치는 영향, 대한직업환경의학회지, 16(4), 475-487.(Lee Y. 2004. Effect of Soft Drink on Urinary Hippuric Acid Excretion in Workers Exposed to Low dose Toluene, Korean J Occup Environ Med, 16(4), 475-487.)
  9. 이채언, 신해림, 조병만, 문덕환. 1988. 톨루엔 폭로 근로자들의 요중 마뇨산 배설량, 예방의학회지, 21(2), 374-379.(Lee C, Shin H, Cho B, Moon D. 1988. Urinary Hippuric Acid Excretion in Toluene Exposed Workers, Journal of Preventive Medicine and Public Health, 21(2), 374-379.)
  10. 정최경희, 장성훈, 김형수, 오원기, 고상백, 이건세, 박수경. 2006. 톨루엔 및 크실렌 노출 근로자에서 안식향산나트륨 섭취에 따른 요중 대사산물 농도의 시간적 변화, 대한직업환경의학회, 18(3), 163-170.(Jung-Choi K, Chang S, Kim H, Oh W, Koh S, Lee K, Park S. 2006. Effect of Sodium Benzoate on Change of Urinary Hippuric Acid and Methyl Hippuric Acid among Workers Coexposed to Toluene and Xylene, Korean J Occup Envrion Med, 18(3), 163-170.)
  11. 한국산업안전보건공단. 2010. 근로자건강진단 실무 지침, 한국산업안전보건공단 산업안전보건연구원.(Korea Occupational Safety & Health Agency. 2010. Practical Guidelines on the Medical Examination of Worker, Occupational Safety & Health Research Institute.)
  12. Ayer HE. 1989. Occupational Air Sampling Strategies, In Air Sampling Instruments for Evaluation of Atmospheric Contaminants. ACGIH. Cincinnati, Ohio.
  13. Cohr KJ, Stockholm J. 1979. Toluene A Toxicological Review, Scand, J. Work Environ & Health, 2(71).
  14. NIOSH (National Institute of Occupational Safety and Health). 2003. NIOSH Manual of Analytical Method No 1501, Fourth Edition. Cincinnati, Ohio. http://www.cdc.gov/niosh/docs/2003-154/pdfs/1501.pdf.
  15. Ogata M, Tomokuni K, Takatsuka Y. 1970. Urinary Excretion of Hippuric Acid in The Urine of Persons Exposed to Vapours of Toluene and m- or p-Xylene as a Test of Exposure, Brit. J. Ind., 27, 43-50.

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