Pyrethroids have been widely using insecticides. Although generally regarded as less toxic to mammals including humans, we report one fatal case of pyrethroid poisoning with severe brain injury.
Brain Injuries* ; Humans ; Insecticides ; Mammals ; Poisoning ; Pyrethrins

This paper reported 3 cases of poisoning caused by chlorfenagyr. Chlorfenapyr poisoning has gradually increased in clinical practice. The early stage after poisoning is digestive tract symptoms, followed by sweating, high fever, changes in consciousness, changes in myocardial enzymology, etc. Its main mechanism of intoxication is uncoupling oxidative phosphorylation. Since there is no specific antidote after poisoning, the fatality rate of chlorfenapyr poisoning remains high. The therapeutic measures are early gastrointestinal decontamination, symptomatic and supportive treatments, and early blood purification may be an effective treatment.
Humans ; Pyrethrins ; Gastrointestinal Tract ; Insecticides ; Poisoning/diagnosis*

Athetosis ; chemically induced ; therapy ; Benzene ; poisoning ; Humans ; Male ; Nitriles ; poisoning ; Pyrethrins ; poisoning ; Young Adult

This retrospective observational case series study was conducted to describe the clinical feature of acute type II pyrethroid poisoning, and to investigate whether hyperglycemia at presentation can predict the outcome in patients with type II pyrethroid poisoning. This study included 104 type II pyrethroid poisoned patients. The complication rate and mortality rate was 26.9% and 2.9% in type II pyrethroid poisoned patients. The most common complication was respiratory failure followed by acidosis and hypotension. In non-diabetic type II pyrethroid poisoned patients, patients with complications showed a higher frequency of hyperglycemia, abnormalities on the initial X ray, depressed mentality, lower PaCO2 and HCO3- levels, and a higher WBC and AST levels at the time of admission compared to patients without complication. Hyperglycemia was an independent factor for predicting complications in non-diabetic patients. Diabetic patients had a significantly higher incidence of complications than non-diabetic patients. However, there was no significant predictive factor for complications in patients with diabetes mellitus probably because of small number of diabetes mellitus. In contrast to the relatively low toxicity of pyrethroids in mammals, type II pyrethroid poisoning is not a mild disease. Hyperglycemia at presentation may be useful to predict the critical complications in non-diabetic patients.
Acute Disease ; Aged ; Blood Glucose/analysis ; Female ; Humans ; Hyperglycemia/*chemically induced ; Insecticides/*poisoning ; Male ; Middle Aged ; Pyrethrins/*poisoning

As a new type of pesticides and because of their high performance and low toxicity, pyrethroid insecticides are widely used in place of organochlorine insecticides both in agriculture and in the home. In the recent years, more and more evidence indicates that pyrethroid insecticides can reduce sperm count and motility, cause deformity of the sperm head, increase the count of abnormal sperm, damage sperm DNA and induce its aneuploidy rate, as well as affect sex hormone levels and produce reproductive toxicity. The present article reviews the advances in the studies of male reproductive toxicity of pyrethroid pesticides by experiment in animals and human population, discusses the mechanism of male reproductive toxicity of pesticides and raises some problems concerning the evaluation of human reproductive hazards.
Animals ; Genitalia, Male ; drug effects ; pathology ; physiopathology ; Humans ; Insecticides ; poisoning ; toxicity ; Male ; Mice ; Pyrethrins ; poisoning ; toxicity ; Rats ; Toxicity Tests

OBJECTIVE: To establish an animal model in acute poisoned rat by deltamethrin and an analysis method for determination of deltamethrin by gas chromatography-electron capture detector (GC-ECD) and to study the distribution of deltamethrin in rats in order to provide the references for forensic medicine identification about such cases. METHODS: Rats were administered with deltamethrin of different doses(512 and 1,024 mg/kg) and killed 1.5 h later to be dissected rapidly for tissues (blood, hearts, livers, lungs, kidneys and brains etc.). Samples were dehydrated by anhydrous sodium sulfate and extracted with petroleum ether and acetone (V:V=4:1). The level of deltamethrin was determined by GC-ECD. RESULTS: There was a good separate between deltamethrin and endogenous impurities. The limit of quantification for deltamethrin in blood and liver were 0.1 microg/mL and 0.1 microg/g (S/N> or =10), respectively. The recovery rate of deltamethrin in blood was 91.55%-134.37% and both inter-day and intra-day precisions were less than 5.67%. The distribution of deltamethrin in poisoned rats with 512 mg/kg was as follow: lungs > livers > hearts > kidneys > blood > brains and with 1 024 mg/kg dose was lungs > blood > hearts > kidneys > brains > livers (P<0.05). CONCLUSION The GC-ECD method is sensitive for determination of deltamethrin. The distribution of deltamethrin in rats has a dose-dependent manner. The study suggests that samples of blood, hearts, livers, lungs, kidneys and brains are suitable for deltamethrin poisoned analysis.
Animals ; Chromatography, Gas/methods* ; Disease Models, Animal ; Forensic Toxicology/methods* ; Kidney/metabolism* ; Linear Models ; Liver/metabolism* ; Lung/metabolism* ; Male ; Nitriles/poisoning* ; Pyrethrins/poisoning* ; Rats ; Reproducibility of Results ; Sensitivity and Specificity ; Tissue Distribution

OBJECTIVES: Pyrethroids are commonly used pesticides, and acute human poisoning by these insecticides is common in Korea. It has a high affinity to the sodium channel on cell membranes causing blockage, which results in neurotoxicity, hyperexcitation, and death. The purpose of this study was to analyze the clinical characteristics of acute pyrethroid poisoning. METHODS: To evaluate the clinical characteristics (age, sex, causative agents, cause of ingestion, severity of poisoning and its clinical feature, prognosis, complication and results of the treatment), we analyzed the clinical reports of 30 patients with pyrethroid poisoning who were admitted to Soonchunhyang Chunan hospital from January 1992 to July 1997. RESULTS: 1) 18 out of 30 patients with pyrethroid poisoning were male and the largest age group was above 60 years old. 2) The most common cause of ingestion was suicide, in 24 cases (80%). 3) There were 7 classes of causative agents of poisoning and all of these were classified into 2 grades according to the degree of WHO toxicity. Fenvlaerate and cypermethrin were the most common agents. 4) The degree of severity was classified into three groups - mild, moderate and life -threatened. Of these groups, mild poisonig was the most common. There was no significant difference in the age, type of pyrethoid and interval between pyrethroid ingestion and arriving at the emergency room between the three groups. However, the amount of ingestion was significantly higher in the life-threatened group. 5) The most common symptom of the patients was vomiting, in 19 patients. The classification were of three types (5 type I, 11 type II and 1 intermediate type) according to clinical characteristics. 6) There is no specific antidote, therefore therapy is generally supportive. There were three deaths, and the cause of death was respiratory failure. 7) The most common complication was pneumonia, in 3 cases (10%), which occured in almost all patients in the life-threatened group. CONCLUSIONS: The most common age group of poisoing was over 60 years old, and suicide was the most common cause of ingestion. Treatment is supportive, and most causal exposures require only decontamination. There were three deaths, and the cause of death was respiratory failure in each case. The most common complication was pneumonia.
Cause of Death ; Cell Membrane ; Chungcheongnam-do ; Classification ; Decontamination ; Eating ; Emergency Service, Hospital ; Humans ; Insecticides ; Korea ; Male ; Middle Aged ; Pesticides ; Pneumonia ; Poisoning* ; Prognosis ; Pyrethrins* ; Respiratory Insufficiency ; Sodium Channels ; Suicide ; Vomiting