Humans ; Poisoning ; prevention & control ; therapy ; Solvents ; poisoning

Humans ; Pesticides ; poisoning ; Poisoning ; prevention & control

Aristolochia ; chemistry ; poisoning ; Aristolochic Acids ; analysis ; isolation & purification ; poisoning ; Drugs, Chinese Herbal ; poisoning ; Poisoning ; prevention & control

Accidents, Occupational ; prevention & control ; Humans ; Metals ; poisoning

Acute Disease ; China ; Humans ; Insecticides ; poisoning ; Organophosphate Poisoning ; Poisoning ; prevention & control

OBJECTIVETo investigate the effects of controlling the specific dangerous pesticides on prevention of acute pesticide poisoning in rural area.

METHODSThe data of reported cases of pesticide poisoning were analyzed to find out the specific dangerous pesticide in acute pesticide poisoning. Then the occurrence of occupational pesticide poisoning and fatality of non-occupational pesticide poisoning were estimated under the hypothesis of removing the specific dangerous pesticides.

RESULTSThe data indicated that parathion (including methyl parathion) was the specific dangerous pesticide inducing occupational pesticide poisoning. After removing the use of parathion, the hazard of pesticides which caused occupational pesticide poisoning would be significantly decreased (P < 0.01). Parathion was also the most dangerous pesticide which caused non-occupational pesticide poisoning, with its fatality up to 15.8%. If parathion was well controlled, the fatality of non-occupational pesticide poisoning would be declined from 9.4% to 7.4%. The analyses of related literatures also revealed the similar results.

CONCLUSIONThe occurrence of occupational pesticide poisoning and fatality of non-occupational pesticide poisoning may decrease if the most dangerous pesticides are well supervised.

OBJECTIVETo analyze the capacity of personal protection on poison emergency items in Chinese disease control and prevention institutes.

METHODSEvaluation analysis based on data obtained from investigating personal protection equipments and professional knowledge quizzing about personal protection in poisoning control of 57 different level centers for disease control and prevention selected from China by a multi-stage stratified sampling.

RESULTSAll 80.70% of the institutes possessed the protection equipments, provincial, municipal, county level institutes were 100.00%, 95.24%, 66.67%, respectively, with significant statistical difference (H = 7.94, P < 0.05). The average level of the type of individual protective equipments in disease control and prevention institutes was (5.42 +/- 4.00) kinds, the average points in category of provincial, municipal, county level institutes were (11.33 +/- 3.67), (6.52 +/- 3.16), (3.47 +/- 3.10) kinds, being statistically significant (F = 17.30, P < 0.05); type difference counts of disease control and prevention institutes in economic development, secondary, less-developed regions were (6.41 +/- 4.03), (3.55 +/- 3.35), (6.45 +/- 4.07) kinds, with statistical significance (F = 3.70, P < 0.05). Protection equipments chiefly possessed were latex gloves, gauze masks and C-protective clothing. Protective clothing and respiratory protective equipments were insufficient evidently. The average points in testing personal protection basic knowledge were (71.39 +/- 12.52) points; there were no differences between different institutes with different economic regions, levels, technical posts and title degrees.

CONCLUSIONCertain advances have been achieved in recent years in personal protection capacity of institutes for disease control and prevention, but far from the actual demands, and maybe no enough effective response on emergency occurred.

OBJECTIVETo calculate the consequence of acute ammonia poisoning accident which was caused by the leak of liquefied ammonia storage tank, so as to provide theoretical basis for working out the counterplan of accidents.

METHODThe amount of liquefied ammonia to be reserved, the pressure and temperature inside the tank were inputted; based on the physical chemistry principle, the evaporating amount was calculated; and using the proper diffusion model, the size of ammonia cloud, percentages of death and depth range of the poisonous gas etc was calculated.

RESULTSAssuming the leaky tank had liquefied ammonia 50 t, the pressure and the temperature were 2.5 MPa and 30 degrees C respectively, the evaporating amount and the size of ammonia cloud were calculated. The radiuses, of the ammonia released cloud of severe, moderate and mild hazard were 108 m, 216 m, 370 m respectively; if the exposured time was 30 min, the percentage of death would be 50%; if the exposured time was 5 min, the percentage would be 10%; if the exposured time was 2 min, the percentage would be 2.5%. When the stable degree of circumstance was C, the wind speed was 2.3 m/s and the outside concentration of the cloud was 4000 mg/m3, dimension of cloud in X axis was 782 m and in Y axis was 88 m.

CONCLUSIONThe leaky consequence of liquefied ammonia was very serious. It is necessary to take preventive measures during production, storage, transportation and using of liquefied ammonia.

Child ; China ; Humans ; Lead Poisoning ; prevention & control ; Public Health Practice

Benzene ; poisoning ; Hazardous Substances ; Humans ; Occupational Exposure ; prevention & control