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DBpiaVolatilc organic compounds (VOCs) are an important public health problem throughout the world. Many important questions remain to be addressed in assessing exposure to these compounds. Because they are ubiquitous and highly volatile, special technique...
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RISS 인기검색어
대기 중 휘발성유기오염물질의 환경, 개인 및 인체 노출의 상관성 연구 = A Correlation Study between the Environmental, Personal Exposures and Biomarkers for Volatile Organic Compounds
한글로보기https://www.riss.kr/link?id=A45023428
-
저자
조성준 (죤스홉킨스 대학교) ; 신동천 (연세대학교 환경공해연구소) ; 정용 (연세대학교 환경공해연구소) ; Patrick N. Breysse (죤스홉킨스 대학교)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2002
-
작성언어
Korean
- 주제어
-
KDC
539.905
-
자료형태
학술저널
- 발행기관 URL
-
수록면
197-205(9쪽)
-
KCI 피인용횟수
0
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Volatilc organic compounds (VOCs) are an important public health problem throughout the world. Many important questions remain to be addressed in assessing exposure to these compounds. Because they are ubiquitous and highly volatile, special techniques must be applied in the analytical determination of VOCs.
Personal exposure measurements are needed to evaluate the relationship between microenvironmental concentrations and actual exposures. It is also important to investigate exposure frequency, duration, and intensity, as well as personal exposure characteristics. In addition to air monitoring, biological monitoring may contribute significantly to risk assessment by allowing estimation of absorbed doses, rather than just the external exposure concentrations, which are evaluated by environmental and personal monitoring.
This study was conducted to establish the analytic procedure of VOCs in air, blood, urine and exhaled breath and to evaluate the relationships among these environmental media.
The subjects of this study were selected because they are occupationally exposed to high levels of VOCs. Environmental, personal, blood, urine and exhalation samples were collected. Purge & trap, thermal desorber, gas chromatography and mass selective detector were used to analyze the collected samples. Analytical procedures were validated with the "break through test", "recovery test for storage and transportation", "method detection limit test" and "inter-laboratory QA/QC study".
Assessment of halogenated compounds indicted that they were significantly correlated to each other (p value < 0.01). In a similar manner, aromatic compounds were also correlated, except in urine sample.
Linear regression was used to evaluate the relationships between personal exposures and environmental concentrations. These relationships for aromatic and halogenated are as follows:
Halogens_(personal)=3.875+0.068Halogens_(evironmet)(R²=.930)
Aromaties_(personal)=34217.757-31.266Aromatics_(evironmet)(R²=.821)
Multiple regression was used to evaluate the relationship between exposures and various exposure determinants including, gender, duration of employment, and smoking history. The results of the regression modeling for halogens in blood and aromatics in urine are as follows:
Halogens_(blood)=8.181+0.246Halogens_(personal)+3.975Gender(R²=.925),
Aromatics_(urine)=249.565+0.135Aromatics_(personal)-5.651D.S(R²=.735),
In conclusion, we have established analytic procedures for VOC measurement in biological and environmental samples and have presented data demonstrating relationships between VOCs levels in biological media and environmental samples.
Personal exposure measurements are needed to evaluate the relationship between microenvironmental concentrations and actual exposures. It is also important to investigate exposure frequency, duration, and intensity, as well as personal exposure characteristics. In addition to air monitoring, biological monitoring may contribute significantly to risk assessment by allowing estimation of absorbed doses, rather than just the external exposure concentrations, which are evaluated by environmental and personal monitoring.
This study was conducted to establish the analytic procedure of VOCs in air, blood, urine and exhaled breath and to evaluate the relationships among these environmental media.
The subjects of this study were selected because they are occupationally exposed to high levels of VOCs. Environmental, personal, blood, urine and exhalation samples were collected. Purge & trap, thermal desorber, gas chromatography and mass selective detector were used to analyze the collected samples. Analytical procedures were validated with the "break through test", "recovery test for storage and transportation", "method detection limit test" and "inter-laboratory QA/QC study".
Assessment of halogenated compounds indicted that they were significantly correlated to each other (p value < 0.01). In a similar manner, aromatic compounds were also correlated, except in urine sample.
Linear regression was used to evaluate the relationships between personal exposures and environmental concentrations. These relationships for aromatic and halogenated are as follows:
Halogens_(personal)=3.875+0.068Halogens_(evironmet)(R²=.930)
Aromaties_(personal)=34217.757-31.266Aromatics_(evironmet)(R²=.821)
Multiple regression was used to evaluate the relationship between exposures and various exposure determinants including, gender, duration of employment, and smoking history. The results of the regression modeling for halogens in blood and aromatics in urine are as follows:
Halogens_(blood)=8.181+0.246Halogens_(personal)+3.975Gender(R²=.925),
Aromatics_(urine)=249.565+0.135Aromatics_(personal)-5.651D.S(R²=.735),
In conclusion, we have established analytic procedures for VOC measurement in biological and environmental samples and have presented data demonstrating relationships between VOCs levels in biological media and environmental samples.
Volatilc organic compounds (VOCs) are an important public health problem throughout the world. Many important questions remain to be addressed in assessing exposure to these compounds. Because they are ubiquitous and highly volatile, special techniques must be applied in the analytical determination of VOCs.
Personal exposure measurements are needed to evaluate the relationship between microenvironmental concentrations and actual exposures. It is also important to investigate exposure frequency, duration, and intensity, as well as personal exposure characteristics. In addition to air monitoring, biological monitoring may contribute significantly to risk assessment by allowing estimation of absorbed doses, rather than just the external exposure concentrations, which are evaluated by environmental and personal monitoring.
This study was conducted to establish the analytic procedure of VOCs in air, blood, urine and exhaled breath and to evaluate the relationships among these environmental media.
The subjects of this study were selected because they are occupationally exposed to high levels of VOCs. Environmental, personal, blood, urine and exhalation samples were collected. Purge & trap, thermal desorber, gas chromatography and mass selective detector were used to analyze the collected samples. Analytical procedures were validated with the "break through test", "recovery test for storage and transportation", "method detection limit test" and "inter-laboratory QA/QC study".
Assessment of halogenated compounds indicted that they were significantly correlated to each other (p value < 0.01). In a similar manner, aromatic compounds were also correlated, except in urine sample.
Linear regression was used to evaluate the relationships between personal exposures and environmental concentrations. These relationships for aromatic and halogenated are as follows:
Halogens_(personal)=3.875+0.068Halogens_(evironmet)(R²=.930)
Aromaties_(personal)=34217.757-31.266Aromatics_(evironmet)(R²=.821)
Multiple regression was used to evaluate the relationship between exposures and various exposure determinants including, gender, duration of employment, and smoking history. The results of the regression modeling for halogens in blood and aromatics in urine are as follows:
Halogens_(blood)=8.181+0.246Halogens_(personal)+3.975Gender(R²=.925),
Aromatics_(urine)=249.565+0.135Aromatics_(personal)-5.651D.S(R²=.735),
In conclusion, we have established analytic procedures for VOC measurement in biological and environmental samples and have presented data demonstrating relationships between VOCs levels in biological media and environmental samples.
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분석정보
인용정보 인용지수 설명보기
학술지 이력
| 연월일 | 이력구분 | 이력상세 | 등재구분 |
|---|---|---|---|
| 2017 | 평가예정 | 신규평가 신청대상 (신규평가) | |
| 2016-12-01 | 평가 | 등재후보 탈락 (계속평가) | |
| 2015-12-01 | 평가 | 등재후보로 하락 (기타) |  |
| 2011-01-01 | 평가 | 등재 1차 FAIL (등재유지) |  |
| 2010-08-16 | 학술지명변경 | 한글명 : 환경독성학회지 -> 환경독성보건학회지 | |
| 2010-07-30 | 학술지명변경 | 외국어명 : journal of environmental toxicology -> Environmental Health and Toxicology | |
| 2010-04-27 | 학회명변경 | 한글명 : 한국환경독성학회 -> 환경독성보건학회영문명 : The Korean Society Of Environmental Toxicology -> The Korean Society of Environmental Health and Toxicology | |
| 2008-01-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
| 2007-01-01 | 평가 | 등재후보 1차 PASS (등재후보1차) | |
| 2006-01-01 | 평가 | 등재후보 1차 FAIL (등재후보2차) | |
| 2005-05-18 | 학술지등록 | 한글명 : 환경독성학회지외국어명 : journal of environmental toxicology | |
| 2005-01-01 | 평가 | 등재후보 1차 PASS (등재후보1차) | |
| 2003-01-01 | 평가 | 등재후보학술지 선정 (신규평가) | |
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