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3.Applicability of thresholds of toxicological concern in the chronic dietary risk assessment of transformation products of pesticide active substance.

Chinese Journal of Preventive Medicine 2013;47(6):569-572

OBJECTIVETo establish the threshold of toxicological concern(TTC) approach and to apply it in the risk assessment of metabolites, degradation and reaction products of pirimicarb.

METHODSTTC decision tree approach based on Cramer classification was established and Lazar software was used to predict the genotoxicity of the seven transformation products of pirimicarb, namely, R34836, R34885, R35140, R31805, R34865, R16210 and R16192. Dietary exposure in general population as well as in six age population groups was estimated by using data from the Chinese National Nutrition and Health Survey and pirimicarb residue data from national chemical surveillance data in 2011. TTC decision tree approach was used for risk assessment and the exposure was compared with the corresponding TTC values.

RESULTSOf the seven transformations of pirimicarb active substance, namely, R34836, R34885, R35140, R31805, R34865, R16210 and R16192, the maximum dietary exposure of mean and large portion(P 97.5) were all belong to 2-6 age group. The mean exposures of the seven transformation products for 2-6 age group,were 0.0290, 0.0207, 0.0015, 0.0320, 0.0005, 0.6918 and 0.1274 µg/kg,respectively, and the corresponding P 97.5 exposures were 0.0817,0.0581,0.0042,0.0900,0.0014, 1.9459 and 0.3585 µg/kg. Besides, the mean and P 97.5 exposure of R16210 for 2-6 age group was the largest,which were 0.6918 and 1.9459 µg/kg, accounting for 46.12% and 129.73% of the TTC threshold,respectively.

CONCLUSIONTTC decision tree approach is a useful tool for prior screening and primary risk assessment of the transformation products of pesticide active substance.

Carbamates ; toxicity ; Food Contamination ; Humans ; Maximum Allowable Concentration ; Pesticide Residues ; toxicity ; Pesticides ; toxicity ; Pyrimidines ; toxicity ; Risk Assessment

4.Present situation of biological limit value for occupational exposure in the domestic and international.

Zhi-hu ZHANG ; Xiao GENG ; Jin-long MEN ; Bin FENG ; Fang ZHANG ; Cui-juan WANG ; Meng-ing ZHANG ; Hua SHAO

Chinese Journal of Industrial Hygiene and Occupational Diseases 2013;31(12):955-960

5.Comparative analysis on the occupational exposure limits of the synthetic vitreous fibers insulation wools.

Xiao-jun ZHU ; Yong-qing CHEN ; To LI

Chinese Journal of Industrial Hygiene and Occupational Diseases 2012;30(2):149-151

6.Outline and investigation of emergency exposure limits.

Hui CUI ; Zhi-sheng XU ; Wen-hua SONG

Chinese Journal of Industrial Hygiene and Occupational Diseases 2010;28(8):633-636

7.Clinical research on correlation between occupational acute arsine poisoning and thrombotic thrombocytopenic purpura.

Lin WANG ; Fang WAN ; Hu-Ping DUAN

Chinese Journal of Industrial Hygiene and Occupational Diseases 2010;28(12):929-930

8.Effects of carbon disulfide on blood pressure and electrocardiogram for workers exposed to levels below the national maximum allowable concentration.

Jia CHEN ; Yong-Jun LI ; Wen-Ping YANG

Chinese Journal of Industrial Hygiene and Occupational Diseases 2009;27(11):644-648

OBJECTIVETo study the effects of carbon disulfide exposure within the national maximum allowable concentration(MAC) on blood pressure and electrocardiogram, and associations with selected factors.

METHODSWorkers in a chemical fiber factory were divided into two groups based on the type of work: a high exposure group (HEG) of 821 individuals and a low exposure group (LEG) of 259. The CS2 concentration at workplace was controlled under the national MAC. A set of 250 randomly selected people taking routine physical check-ups in the same period and hospital constituted the control group. The systolic blood pressure (SBP) and diastolic blood pressure (DBP) were measured on the arm, and the pulse pressure (PP) and mean arterial blood pressure (MABP) were calculated based on SBP and DBP. The blood pressure data, along with the results of the routine 12-lead electrocardiography taken at rest and records on gender, age, years of work, type of work, and concentrations of triglycerol, cholesterol, and glucose in blood, were compiled for analyses. Risk factors upon CS2 exposure for the increase of blood pressure and occurrence of electrocardiogram abnormalities were identified and rationalized.

RESULTSSignificant difference (P < 0.01) in the average values of SBP, DBP, MABP, and the corresponding abnormality incident rates was found between HEG and LEG, and between HEG and the control group. For both HEG and LEG, the incident rate of DBP abnormality (high DBP) is nearly two times as high as that of SBP. Type of work is the largest risk factor in both the high SBP and high DBP subgroups, with odds ratios (OR) of 2.086 and 2.331 respectively, and high CS2 exposure presents more than double the risk than low exposure. On the incident rate of ECG abnormalities, both exposure groups are significantly different (P < 0.01) to the control group. High SBP in LEG and high DBP in HEG were found to be significant risk factors (OR = 3.531 and 1.638 respectively), while blood glucose appears to be a protective factor (OR = 0.747), appealing to further investigation. Meanwhile, factors like years of work and cholesterol were found to be risk factors in the high SBP subgroup with low exposure, and in the high DBP subgroup with high exposure. Within HEG, high DBP is the only blood pressure-related risk factor found for the incident of left ventricular high voltage (OR = 4.140), as is high SBP for LEG (OR = 4.776). High PP is the only risk factor found for repolarization disturbances within LEG (OR = 20.417). While blood sugar is a risk factor for origin disturbances, it is a protection factor for left ventricular high voltage (OR = 0.633).

CONCLUSIONThe damage of CS2 done to the cardiovascular system is a gradual process. Both early and very low level exposures are detrimental to the human circulatory system. Below the National MAC limit, the toxic effect of CS2 to the cardiovascular system increases with time and level of exposure. The effect of CS2 on DBP is more significant than on SBP, which indicates that CS2 may affect peripheral resistant blood vessels more than the artery. The abnormalities of ECG of workers exposed to CS2 are not only the result of high blood pressure on the heart, but also of the direct toxicity of CS2 on heart and blood vessels.

Adult ; Blood Pressure ; drug effects ; Carbon Disulfide ; administration & dosage ; adverse effects ; Electrocardiography ; drug effects ; Female ; Humans ; Male ; Maximum Allowable Concentration ; Middle Aged ; Occupational Exposure ; adverse effects ; Retrospective Studies ; Young Adult

9.Preliminary study on monitoring the time weighted average permissible concentration of dust in the air by quartz crystal microbalances.

Xue-qian LI ; Xiao-zhou WU ; Guo-ling LUO ; Die-xian ZHONG

Chinese Journal of Industrial Hygiene and Occupational Diseases 2004;22(3):227-228

10.Study on the health standard for phosphorus pentasulfide in the workshop air.

Chun-Mi LAI ; Shu-Bo LIU ; Shun TAO ; Jian-Yun DAI ; Yun GAO ; Wei-Jun LI ; Shu-Qiao CAO

Chinese Journal of Industrial Hygiene and Occupational Diseases 2004;22(4):310-311

1.Research Progress of occupational exposure limits of silica dust.

2.Exploration of biological limitvalue for occupational exposure to ethyllenzeve.