ABSTRACT
CONTEXT: Contaminated pharmaceutical products can result in substantial morbidity and mortality and should be included in the differential diagnosis of deaths of unknown origin. OBJECTIVE: To investigate an outbreak of deaths among children from acute renal failure in Haiti to determine the etiology and institute control measures. DESIGN: Case-control study, cohort study, and laboratory toxicologic evaluation. SETTING: Pediatric population of Haiti. PARTICIPANTS: Cases were defined as Haitian residents younger than 18 years with idiopathic anuria or severe oliguria for 24 hours or longer. Febrile hospitalized children without renal failure were enrolled as control subjects. MAIN OUTCOME MEASURE: The odds of exposure to suspected etiologic agents among cases and controls. RESULTS: We identified 109 cases of acute renal failure among children. The clinical syndrome included renal failure, hepatitis, pancreatitis, central nervous system impairment, coma, and death. Of 87 patients with follow-up information who remained in Haiti for treatment, 85 (98%) died; 3 (27%) of 11 patients transported to the United States for intensive care unit management died before hospital discharge. A locally manufactured acetaminophen syrup was highly associated with disease (odds ratio, 52.7; 95% confidence interval, 15.2-197.2). Diethylene glycol (DEG) was found in patients' bottles in a median concentration of 14.4%. The median estimated toxic dose of DEG was 1.34 mL/kg (range, 0.22-4.42 mL/kg). Glycerin, a raw material imported to Haiti and used in the acetaminophen formulation, was contaminated with 24% DEG. CONCLUSIONS: An epidemic of severe systemic toxicity and deaths from DEG-contaminated acetaminophen syrup occurred in Haiti. Good manufacturing practice regulations should be used by all pharmaceutical manufacturers to prevent such tragedies.
Subject(s)
Acetaminophen , Acute Kidney Injury/etiology , Disease Outbreaks , Drug Contamination , Ethylene Glycols/poisoning , Glycerol , Acute Kidney Injury/epidemiology , Adolescent , Anuria , Case-Control Studies , Child , Child, Preschool , Cohort Studies , Ethylene Glycols/analysis , Female , Haiti/epidemiology , Humans , Infant , Male , Oliguria , Poisoning/diagnosis , Poisoning/epidemiology , Poisoning/etiology , Risk FactorsABSTRACT
An emergency environmental health investigation of a mass poisoning of unknown origin is a multidiscipline effort that requires the cooperation and close communication of epidemiologists, toxicologists, and chemists. The laboratory's role in this effort is important; special instruments, knowledge, and experience are needed. Our approach to such an investigation is discussed and past cases are used as illustrations. The role of the analytical chemist is presented, and the major resources needed for these investigations are described.
Subject(s)
Chemistry Techniques, Analytical/methods , Disease Outbreaks , Endrin/poisoning , Insecticides/poisoning , Methomyl/poisoning , Animals , Dogs , Endrin/analysis , Epidemiologic Methods , Food Contamination , Humans , Jamaica , Male , Methomyl/analysis , PakistanABSTRACT
Three fatalities from the accidental ingestion of methomyl, a carbamate pesticide, are reported. The methomyl had been stored in an unlabeled tin can and was accidentally used in preparing "roti," an Indian dish. The identification of the source of the poison through animal tests and further chemical identification is described. The lethal dose of methomyl was estimated to have been between 12 and 15 mg/kg body weight.
Subject(s)
Bread/poisoning , Insecticides/poisoning , Methomyl/poisoning , Accidents , Autopsy , Bread/analysis , Humans , Jamaica , Male , Methomyl/analysis , ToxicologyABSTRACT
Three fatalities from the accidental ingestion of methomyl, a carbamate pesticide, are reported. The methomyl had been stored in an unlabelled tin can and was accidentally used in preparing "roti," an Indian dish. The identification of the source of the poison through animal tests and further chemical identification is described. The lethal dose of methomyl was estimated to have been between 12 and 15 mg/kg body weight. (Summary)