Assessment and management of acute poisoning by petroleum products

Ingestion of white spirit resulting in perineal skin burns: a case report and review of the literature

In the literature, possible systemic effects on health of inhalation or ingestion of white spirit are well described. Only a few case reports discuss the toxic skin effects that can occur following massive ingestion. Ingestion of large amounts of white spirit produces a watery diarrhoea with a high concentration of white spirit, resulting in perineal skin burns when there is prolonged contact. We describe a patient who developed partial thickness perineal skin burns after ingestion of white spirit and review the literature. The present data indicate that conservative therapy of the skin burns is recommended.

Possible gasoline-induced chronic liver injury due to occupational malpractice in a motor mechanic: a case report

BACKGROUND

Hydrocarbon-induced occupational liver injury is a well-known clinical entity among petroleum industry workers. There are many types of hydrocarbon exposure, with inhalation being the most common. Hydrocarbon-induced occupational liver injury is a rarely suspected and commonly missed etiological agent for liver injury. We report a case of a non-petroleum industry worker with chronic liver disease secondary to hydrocarbon-induced occupational liver injury caused by chronic low-grade hydrocarbon ingestion due to occupational malpractice.

CASE PRESENTATION

A 23-year-old Sri Lankan man who was a motor mechanic presented to our hospital with decompensated cirrhosis. He had been chronically exposed to gasoline via inadvertent ingestion due to occupational malpractice. He used to remove gasoline from carburetors by sucking and failed to practice mouth washing thereafter. On evaluation, he had histologically proven established cirrhosis. A comprehensive history and workup ruled out other nonoccupational etiologies for cirrhosis. The patient's long-term occupational gasoline exposure and clinical course led us to a diagnosis of hydrocarbon-induced occupational liver injury leading to decompensated cirrhosis.

CONCLUSIONS

Hydrocarbon-induced occupational liver injury should be considered as a cause when evaluating a patient with liver injury with possible exposure in relevant occupations.

Respiratory complications following hydrocarbon aspiration in children

Accidental hydrocarbon ingestion may lead to aspiration and chemical pneumonitis in children. In this review article, the clinical course of hydrocarbon pneumonitis, chest radiographic abnormalities, complications, and treatment interventions are summarized. Most children remain asymptomatic and without complications following ingestion of a hydrocarbon. In approximately 15% of ingestions, aspiration pneumonitis occurs and evolves over the first 6-8 hr presenting with fever, tachypnea, hypoxemia, and tachycardia. A symptom zenith is reached within 48 hr followed by progressive improvement. Up to 5% of pneumonitis cases progress rapidly to acute respiratory failure. Chest radiographic abnormalities develop by 4-8 hr after ingestion, but they are not always predictive of clinical pneumonitis. Patients with history of hydrocarbon ingestion should be monitored for 6-8 hr in the emergency department and a chest radiogram should be obtained at the end of the observation period. Spontaneous or induced emesis and gastric lavage have been related to aspiration pneumonitis. Children who are symptomatic are admitted to the hospital for cardiorespiratory status monitoring and supportive care. Approximately 90% of hospitalized patients have a benign clinical course. Increased work of breathing with or without altered sensorium and seizures are indications for admission to the intensive care unit. Hypoxemia unresponsive to supplemental oxygen and/or severe central nervous system involvement require mechanical ventilation. Corticosteroids do not seem to offer any benefit and antibiotics are administered in cases of bacterial superinfection. Pneumatoceles may become evident after the first 6-10 days of symptoms on follow-up chest radiograms and they resolve up to 6 months later. Pediatr Pulmonol. 2016;51:560-569. © 2016 Wiley Periodicals, Inc.

Amanita phalloides poisoning: Mechanisms of toxicity and treatment

Amanita phalloides, also known as 'death cap', is one of the most poisonous mushrooms, being involved in the majority of human fatal cases of mushroom poisoning worldwide. This species contains three main groups of toxins: amatoxins, phallotoxins, and virotoxins. From these, amatoxins, especially α-amanitin, are the main responsible for the toxic effects in humans. It is recognized that α-amanitin inhibits RNA polymerase II, causing protein deficit and ultimately cell death, although other mechanisms are thought to be involved. The liver is the main target organ of toxicity, but other organs are also affected, especially the kidneys. Intoxication symptoms usually appear after a latent period and may include gastrointestinal disorders followed by jaundice, seizures, and coma, culminating in death. Therapy consists in supportive measures, gastric decontamination, drug therapy and, ultimately, liver transplantation if clinical condition worsens. The discovery of an effective antidote is still a major unsolved issue. The present paper examines the clinical toxicology of A. phalloides, providing the currently available information on the mechanisms of toxicityinvolved and on the current knowledge on the treatment prescribed against this type of mushrooms. Antidotal perspectives will be raised as to set the pace to new and improved therapy against these mushrooms.

DNA-polyfluorophore Chemosensors for Environmental Remediation: Vapor-phase Identification of Petroleum Products in Contaminated Soil

Contamination of soil and groundwater by petroleum-based products is an extremely widespread and important environmental problem. Here we have tested a simple optical approach for detecting and identifying such industrial contaminants in soil samples, using a set of fluorescent DNA-based chemosensors in pattern-based sensing. We used a set of diverse industrial volatile chemicals to screen and identify a set of five short oligomeric DNA fluorophores on PEG-polystyrene microbeads that could differentiate the entire set after exposure to their vapors in air. We then tested this set of five fluorescent chemosensor compounds for their ability to respond with fluorescence changes when exposed to headgas over soil samples contaminated with one of ten different samples of crude oil, petroleum distillates, fuels, lubricants and additives. Statistical analysis of the quantitative fluorescence change data (as Δ(R,G,B) emission intensities) revealed that these five chemosensors on beads could differentiate all ten product mixtures at 1000 ppm in soil within 30 minutes. Tests of sensitivity with three of the contaminant mixtures showed that they could be detected and differentiated in amounts at least as low as one part per million in soil. The results establish that DNA-polyfluorophores may have practical utility in monitoring the extent and identity of environmental spills and leaks, while they occur and during their remediation.

Pyopneumothorax following suicidal kerosene ingestion

Liquid hydrocarbons derived from petroleum are widely used in household and industry. Many hydrocarbons in kerosene, such as hexane, naphthalene, octane and phenanthrene, are toxic to humans. Pulmonary toxicity is the major cause of morbidity and mortality followed by central nervous-system and cardiovascular complications. As kerosene is a mixture of chemicals, there is no definitive absorption, distribution, metabolism and excretion. The major route of exposure is by inhalation of liquid (aspiration). Kerosene vapours may be mildly irritating to the respiratory system and spray applications of kerosene may provoke signs of pulmonary irritation such as coughing and dyspnoea. Kerosene aspiration leads to inflammation and loss of surfactant. Secondary effects in the lungs include pneumothorax, pneumatocele or bronchopleural fistula. Here, we are presenting a case of pyopneumothorax after kerosene consumption.

Light and transmission electron microscopic comparisons of sperms between petrochemical factory workers and public servants in a nonindustrialized area

In this study, we compared the semen characteristics on light microscopy and ultrastructural sperm morphology on transmission electron microscopy between workers in an industrialized area with petrochemical complexes and public servants in a nonindustrialized area. Occupational exposure to petrochemical compounds seems to decrease sperm motility and deteriorate the sperm ultrastructural arrangement, which may lead to this decrease in sperm motility.

Turpentine oil inhalation leading to lung necrosis and empyema in a toddler

Household poisons can cause serious damage to the health of children. Turpentine oil, used chiefly as a solvent in paints, varnishes, and waxes; is often placed within easy reach of children during polishing or painting work. It is capable of causing serious toxicity, whether ingested or inhaled. Pulmonary aspiration can lead to lung parenchymal damage and turpentine-associated pneumonia. We report a case of exploratory ingestion and inhalation of turpentine oil in an 18-month-old boy, leading to extensive lung parenchymal damage, formation of multiple abscess cavities, and necrosis treated with decortication and segmental resection.