Adult ; Humans ; Male ; Middle Aged ; Phosphines ; poisoning ; Young Adult

Adult ; Aluminum Compounds ; poisoning ; Humans ; Male ; Phosphines ; poisoning

Adult ; Autopsy ; Female ; Humans ; Insecticides ; poisoning ; Phosphines ; poisoning ; Poisoning ; pathology

Aluminum phosphide is commonly used as a rodenticidal agent in agricultural workplaces. However, reported cases of aluminum phosphide poisoning in Korea are rare. Upon contact with moisture in the air, aluminum phosphide releases highly toxic phosphine gas (PH3). PH3 is readily absorbed through lung epithelium and into the bloodstream. Phosphine may cause denaturing of oxyhemoglobin and enzymes important to respiration and metabolism, and also may effect cellular membranes. There are numerous complications associated with acute aluminum phosphide poisoning including gastrointestinal, respiratory, and cardiac toxicities. We report the case of a 46-year-old man who suffered from respiratory and cardiac toxicities after unintentional aluminum phosphide exposure. More intensive education for prevention is recommended.
Aluminum ; Aluminum Compounds ; Epithelium ; Humans ; Korea ; Lung ; Membranes ; Middle Aged ; Oxyhemoglobins ; Phosphines ; Respiration

Acute Disease ; Adult ; Humans ; Male ; Occupational Diseases ; diagnosis ; therapy ; Phosphines ; poisoning ; Poisoning ; diagnosis ; therapy

Acute Disease ; Adult ; Chromatography, Gas ; Female ; Humans ; Lung ; chemistry ; Phosphines ; analysis ; blood ; poisoning

OBJECTIVES: To study the distribution of total phosphine in phosphine poisoning victims and summarize the characteristics of phosphine poisoning cases. METHODS: The phosphine and its metabolites in the biological samples of 29 victims in 16 phosphine poisoning cases were qualified and quantified by headspace gas chromatography-mass spectrometry. RESULTS: Five victims among 29 were poisoned by ingestion of aluminium phosphide and 24 by inhalation of phosphine gas. Phosphine metabolites were detected in the biological samples of 23 victims, and the concentrations of total phosphine in blood ranged 0.5-34.0 μg/mL. The total concentration of phosphine in liver tissue was up to 71.0 μg/g. Phosphine was not detected in the blood of the other six survived victims, which may be related to the small amount of phosphine exposure and the delay in blood sampling. CONCLUSIONS The total concentration of phosphine in blood and tissues caused by aluminum phosphine ingestion is higher than that caused by phosphine gas inhalation. The death cases of phosphine inhalation are characterized by long exposure time, repeated exposures and age susceptibility.
Aluminum Compounds/analysis* ; Gas Chromatography-Mass Spectrometry ; Humans ; Liver/chemistry* ; Phosphines/analysis* ; Poisoning/diagnosis*

Objective: To investigate the clinical characteristics of patients with acute phosphine poisoning, and to follow up and evaluate the prognosis of patients. Methods: In May 2022, 12 patients with phosphine poisoning by respiratory inhalation in Beijing Chao-Yang Hospital of Capital Medical University were analyzed. The patients were treated with symptomatic support therapy. Three months later, patients were re-evaluated the symptoms of poisoning, pulmonary function and magnetic resonance imaging (MRI) of the brain to understand the prognosis of the phosphine poisoning. Results: The main symptoms of 12 patients were respiratory and central nervous system symptoms with hypoxia. The symptoms of poisoning improved after treatment. Follow-up found that the patients had different degrees of residual symptoms. Pulmonary function showed increased airway resistance. Airway challenge test was positive in some patients. MRI of the head of some patients showed small ischemic focus in bilateral frontal lobes. Conclusion: Acute phosphine poisoning may cause persistent damage to the respiratory system and central system, and residual symptoms after 3 months.
Humans ; Follow-Up Studies ; Phosphines ; Lung ; Lung Diseases ; Aluminum Compounds ; Poisoning/diagnosis*

Acute Disease ; Adolescent ; Adult ; Aluminum Compounds ; poisoning ; Child ; Female ; Humans ; Male ; Middle Aged ; Pesticides ; poisoning ; Phosphines ; poisoning ; Poisoning ; diagnosis ; therapy

OBJECTIVES: This study was designed to evaluate exposure levels of various chemicals used in wafer fabrication product lines in the semiconductor industry where work-related leukemia has occurred. METHODS: The research focused on 9 representative wafer fabrication bays among a total of 25 bays in a semiconductor product line. We monitored the chemical substances categorized as human carcinogens with respect to leukemia as well as harmful chemicals used in the bays and substances with hematologic and reproductive toxicities to evaluate the overall health effect for semiconductor industry workers. With respect to monitoring, active and passive sampling techniques were introduced. Eight-hour long-term and 15-minute short-term sampling was conducted for the area as well as on personal samples. RESULTS: The results of the measurements for each substance showed that benzene, toluene, xylene, n-butyl acetate, 2-methoxyethanol, 2-heptanone, ethylene glycol, sulfuric acid, and phosphoric acid were non-detectable (ND) in all samples. Arsine was either "ND" or it existed only in trace form in the bay air. The maximum exposure concentration of fluorides was approximately 0.17% of the Korea occupational exposure limits, with hydrofluoric acid at about 0.2%, hydrochloric acid 0.06%, nitric acid 0.05%, isopropyl alcohol 0.4%, and phosphine at about 2%. The maximum exposure concentration of propylene glycol monomethyl ether acetate (PGMEA) was 0.0870 ppm, representing only 0.1% or less than the American Industrial Hygiene Association recommended standard (100 ppm). CONCLUSION: Benzene, a known human carcinogen for leukemia, and arsine, a hematologic toxin, were not detected in wafer fabrication sites in this study. Among reproductive toxic substances, n-butyl acetate was not detected, but fluorides and PGMEA existed in small amounts in the air. This investigation was focused on the air-borne chemical concentrations only in regular working conditions. Unconditional exposures during spills and/or maintenance tasks and by-product chemicals were not included. Supplementary studies might be required.
2-Propanol ; Arsenicals ; Bays ; Benzene ; Carcinogens ; Ether, Ethyl ; Ethylene Glycol ; Ethylene Glycols ; Ethylenes ; Fluorides ; Humans ; Hydrochloric Acid ; Hydrofluoric Acid ; Ketones ; Korea ; Leukemia ; Nitric Acid ; Occupational Exposure ; Occupational Health ; Phosphines ; Phosphoric Acids ; Propylene Glycol ; Propylene Glycols ; Semiconductors ; Sulfur ; Sulfuric Acids ; Toluene ; Xylenes