Carbon monoxide and cyanide gas poisoning in fires. / Forgiftning med karbonmonoksid og cyanidgass ved brann.

Acute poisoning caused by inhalation of carbon monoxide and other toxic substances is the primary cause of death in fires and may occur without signs of external injury. Life-threatening symptoms may arise immediately, as in cyanide poisoning, or over a longer period, as in carbon monoxide poisoning. Severe inhalation injury may also occur independently of systemic poisoning and should always be suspected in patients with soot on their face and in the respiratory tract, or hoarseness and wheezing.

Hydrogen sulfide gas poisoning in fish garbage room: A report of a fisherman.

We report the case of a fisherman who was exposed to high concentrations of hydrogen sulfide (H2S) gas from the fish garbage room. The patient survived and was discharged with full recovery from the hospital. H2S is a colourless, foul smelling and highly toxic gas next to carbon monoxide, which causes inhalation death. It is a by-product of various industrial processes particularly involves exposure from agriculture, petrochemical industry and organic matter decomposition from sewage processing. It is a by-product of H2S has been referred as the "knock down gas" because inhalation of high concentrations can cause immediate loss of consciousness and death. Although early use of amyl nitrate and hyperbaric oxygen shows some benefit in literature, supportive care remains the mainstay of treatment. Emergency physicians and pre-hospital care personnel are not very familiar with such exposure due to its rarity. This becomes more relevant in the developing world settings where there are rising concerns about the unsafe exposure to hazardous chemicals and its impact on human health. Emergency physicians working in Pakistan should be aware of this entity especially in regard to fishermen presenting to the Emergency Department with such a clinical presentation and its toxic manifestations. This incident also illustrates the need of enforcement of health and safety regulations in the fishing industry.

[Chemicals as fire damaging factor].

The article provides an overview of published scientific data about toxic chemical compounds formed during thermal degradation of various materials. In case of fire the complex of physical and chemical factors affect the human, along with injuries, thermal burns of the skin and respiratory tract there is a lack of oxygen in the inspired air and the impact of thermal degradation products. The greatest number of deaths in.a fire due to the inhalation by the victims smoke and toxic gases. The impact of the combination of toxic substances leads to the development of various forms of toxic process. The main causes of poisoning at the fires due to the effects of toxic substances and substances which can cause structural and functional disorders of the respiratory organ. Intoxication manifestations by some of them appear already in the fire zone, in other cases, in cases of poisoning by the compounds of the slow motion, there is the latent period of of intoxication. Knowledge of the spectrum of toxic products thermal destruction on the human during the fire, it is necessary to develop approaches to improve medical care and creation of tools of medical protection.

Sarin exposure: a simulation case scenario.

Given the current geopolitical tensions, the risk of a terrorist attack on the United States is constant and increasing. Chemical terrorism, specifically the use of nerve agents, has occurred in other nations. Because of the ease of manufacture, the ability to conceal them, and the lethality of these agents, they pose a potential threat as a weapon of terror. Nerve agent exposure requires prompt recognition, a series of actions to mitigate further exposure to others, and management of the physiological sequelae of exposure. Many civilian healthcare providers are unprepared to manage injuries from nerve exposure. Failure to recognize the signs of nerve agent exposure will increase mortality and morbidity in victims and place healthcare providers at risk. Simulation is an effective methodology to train healthcare personnel in disaster preparedness. This article presents a simulation scenario that reviews the presentation of nerve agent exposure, its management, and a recipe for performing this simulation in a training exercise.

[Case of dyspnea due to toilet cleaner containing nitric acid for household use].

A 40-year-old male tried to clean a urinal at his home storing 900 mL of a toilet cleaner containing 9.8% nitric acid to remove calcium deposit, and clean the toilet floor for twenty minutes. Immediately after using the cleaner, he experienced eye irritation. He washed out the toilet cleaner. However, he thereafter experienced dyspnea, a compressive sensation in his chest, and chest and back pain about 40 minutes after the cleaning the toilet. He monitored his symptoms overnight and found them to gradually improve. However, the symptoms still remained the next morning and therefore he came to our department on foot. He had no particular past or family history. On arrival, his physiological findings and chest computed tomography scan were negative for any abnormalities. His arterial blood gas analysis revealed a mild abnormality of oxygenation. Observation without any drugs revealed that a complete remission of his symptoms occurred after approximately 4 weeks. Based on the results of the experiments, contact with the mucosal membrane and nitric acid gas produced by any accidentally coexisting metals or contact with moisture, including nitric acid produced by a reaction between CaCO3 and cleaner, may have been the mechanism of occurrence for the symptoms observed in this case. This is the first reported case of nitric acid poisoning due to the use of a toilet cleanser intended for household use.

Metal fume fever - a case review of calls made to the Victorian Poisons Information Centre.

OBJECTIVE: To determine the epidemiology of metal fume fever over an extended period in Victoria, Australia. METHODS: A retrospective case review of all metal fume fever related calls to the Victorian Poisons Information Centre. Specific defined criteria were used to identify cases of metal fume fever and a set of data points extracted for each. RESULTS: Eighty-four (99%) of the cases involved adults. Fifty-three percent of exposures occurred in the workplace. The most frequent day of symptom manifestation was Monday (24%). All of the calls concerned people involved in welding metal with subsequent inhalation of fumes. DISCUSSION: Calls were most common at the beginning of the week, reflecting the previously described phenomena of increased symptoms occurring after a period on nonexposure (loss of tolerance). Workplace safety and education is key to prevention of metal fume fever. Medical profession education may help prevent occurrences of metal fume fever at home, at school and in the workplace.

Recent sulfur mustard attacks in Middle East and experience of health professionals.

Sulfur mustard (SM) is a vesicant chemical warfare agent which affects ocular, respiratory, and cutaneous system. In this study, we aimed to share recent experiences on medical management of chemical casualties that were exposed to SM in Middle East. We reported medical management of 17 contaminated patients. After the evacuation from the hot zone, all chemical casualties should be transferred to the designated intensive care units. After detailed medical decontamination and stabilization, biological samples should be collected from all chemical casualties as soon as possible for the verification of the exposure. Medical history and existing symptoms reveal the clinical diagnosis of SM exposure. Medical management of SM casualties should focus on "good nursing care" including treatment of pain and itching, fluid and electrolyte replacement therapy, respiration and nutrition support. Despite of improved clinical skills, treatment of SM lesions is still non-specific which aims to relieve symptoms and to prevent infections. Existing diagnostic capabilities and treatment approaches could be improved by sharing recent clinical experiences on medical management of SM casualties where there are still important major gaps.

Metal fume fever: a review of the literature and cases reported to the Louisiana Poison Control Center.

Metal fume fever (MFF) is an important occupational-related illness resulting from inhalation of volatile metal oxides, especially zinc, that are produced during welding or cutting of metal materials. Onset of MFF is rapid, occurring within a few hours after inhalation of the fumes. Symptoms include fever, chills, cough, dyspnea, headache, myalgia, and malaise. Symptoms are self-limiting and typically resolve within 24 hours with a subsequent short-lived tolerance to zinc oxide fumes that disappears after one to two days of avoidance. In this report, we present an overview of MFF's history, pathogenesis, clinical presentation, regulatory guidelines, and prevention recommendations. This review is followed by a description of MFF cases reported by the Louisiana Poison Control Center to the Louisiana Office of Public Health's Section of Environmental Epidemiology and Toxicology during a two-year period.

Ocular and respiratory illness associated with an indoor swimming pool--Nebraska, 2006.

On December 26, 2006, the Nebraska Department of Health and Human Services (NDHHS) received a report of a child hospitalized in an intensive care unit for severe chemical epiglottitis and laryngotracheobronchitis after swimming in an indoor motel swimming pool. The pool was inspected the same day and immediately closed by NDHHS because of multiple state health code violations. NDHHS initiated an outbreak investigation to identify additional cases and the cause of the illness. This report describes the results of that investigation, which indicated that 24 persons became ill, and the outbreak likely was the result of exposure to toxic levels of chloramines that had accumulated in the air in the enclosed space above the swimming pool. This outbreak highlights the potential health risks from chemical exposure at improperly maintained pools and the need for properly trained pool operators to maintain water quality.

[Gas poisoning: respiratory irritants and axphyxiants]. / Otrovanja plinovima: respiracijski iritansi i asfiksansi.

Inhalation exposure to harmful substances in the working as well as in general environment may induce serious health effects. The severity of gas poisoning is determined primarily by its physical and chemical characteristics, and the level and duration of exposure. Toxic effects from gas inhalation involve simple asphyxia, respiratory irritation, systemic toxicity, and a combination of these mechanisms. This article describes the characteristics, types of exposure and health effects of most common irritant and asphyxiant gases, including carbon monoxide, hydrogen cyanide and ammonia.

[Household gas poisonings]. / Otrovanja plinovima u kucanstvu.

Exposure to toxic gases which can induce serious health effects, can occur in the working as well as in general environment, including home. The severity of gas poisoning is determined by its physical and chemical characteristics, intensity and duration of exposure, and concomitant diseases and injuries in the poisoned person. Manifestations of gas toxic action involve simple asphyxia, local irritation of respiratory mucosa, systemic toxicity, and a combination of these mechanisms. This article describes the characteristics, modes of exposure and health effects of most common gases causing poisoning at home. These include gas fuels, carbon monoxide, ammonia, chlorine, and fire gases such as nitrogen and sulphur oxides, hydrogen cyanide and phosgene. First aid as well as preventive measures to avoid exposure to toxic gases and prevent fire at home are also given. The Croatian Poison Control Centre gathered data on toxic gas exposures in households between November 2005 and July 2006. During this period 30 persons (3 % of the total number of cases) were exposed to toxic gases at home, including carbon monoxide, irritating vapours from cleaning agents and disinfectants, gas fuels, septic tank gases, tear-gas, and chlorofluorocarbons from refrigerators.

Case Files of the University of Massachusetts Toxicology Fellowship: Does This Smoke Inhalation Victim Require Treatment with Cyanide Antidote?

Cyanide toxicity is common after significant smoke inhalation. Two cases are presented that provide framework for the discussion of epidemiology, pathogenesis, presenting signs and symptoms, and treatment options of inhalational cyanide poisoning. An evidence-based algorithm is proposed that utilizes point-of-care testing to help physicians identify patients who benefit most from antidotal therapy.

[Nerve gas--guidelines for care of victims of terrorism]. / Nervegass--retningslinjer ved terror.

The threat from chemical warfare agents such as nerve agents against civilians has traditionally been considered irrelevant. Following the recent terrorist attacks in the US on 11 September 2001 and in Madrid, Spain on 11 March 2004, the threat from such weapons is taken seriously. Hospitals must therefore be prepared to take care of civilian victims. Emergency preparedness implies education and training of healthcare professionals, stocking of antidotes, and training of personnel. This involves decontamination of patients, establishment of routines to avoid contamination of hospitals, and the ability to determine if patients and first responders are contaminated with chemicals and to avoid such contamination. Treatment against nerve agents includes atropine, acetylcholinesterase reactivators (obidoxime or pralidoxime) and benzodiazepines (diazepam). Because these drugs are not sufficiently effective in protecting the brain, new and more effective countermeasures must be developed.

Poisoning caused by inhalation of hydrogen chloride, phosphorus oxychloride, phosphorus pentachloride, oxalyl chloride, and oxalic acid.

Eleven people accidentally inhaled a significant amount of a gaseous mixture of hydrogen chloride, phosphorus oxychloride, phosphorus pentachloride, oxalyl chloride, and oxalic acid. Clinical observations and laboratory tests were recorded from the time of admission throughout hospitalization. The main abnormalities were found in the respiratory tract and consisted of clinical and physiologic evidence of obstruction of the airways, mild interstitial and alveolar edema, a defect in diffusion, and inequalities of ventilation and perfusion that produced hypoxemia. All of these cleared within a short time.

Relationship between pupil size and acetylcholinesterase activity in patients exposed to sarin vapor.

OBJECTIVE: To elucidate the effect of sarin vapor on pupil size and erythrocyte acetylcholinesterase activity (AchE). DESIGN: Retrospective observational survey. SETTING: Emergency department of an urban teaching hospital. PATIENTS: 80 patients who were exposed to sarin in a terrorist attack in Tokyo subways. MEASUREMENTS AND RESULTS: Pupil size and AchE activity on the day of exposure were measured. Among the 80 patients, the pupils were miotic (< 3 mm) in 50 patients (62.5%), while AchE activity was below the normal range (< 1.2 U) in 34 patients (42.5%). AchE was significantly lower in the miotic group than in the group with normal pupils (1.0 +/- 0.5 U vs 1.5 +/- 0.3 U, p < 0.01). In the miotic group, AchE activity was lower than normal in 32 patients (64.0%) but was decreased in only 2 patients in the normal pupil group (6.7%) (p < 0.01). CONCLUSIONS: Miosis is a more sensitive index of exposure to sarin vapor than erythrocyte AchE. Systemic poisoning is apparently less likely to develop if the patient's pupil size is normal on arrival at the hospital.

Casualties from a junior-senior high school during the Persian Gulf War: toxic poisoning or mass hysteria?

Mass hysteria is a bizarre and uncommon epidemic phenomenon. The usual victims are adolescent females and school settings are frequent. The epidemics are characterized by the rapid onset of a constellation of symptoms and signs which resolve quickly in the absence of abnormal laboratory results and physical findings that confirm a specific organic cause. It is common, however, for unexpected laboratory results to cause confusion and promote controversy about suspected etiologies. These outbreaks are often noted to be associated with periods of uncertainty and social stress. We describe an epidemic involving the explosive onset and rapid resolution of a constellation of symptoms that sent 17 seventh and eighth grade students and four teachers to the emergency department of a hospital after an apparent toxic gas exposure. Mildly elevated carboxyhemoglobin levels (for nonsmokers) in some patients raised concern that there had been exposure to excessive levels of carbon monoxide. Although no specific unusual stress could be identified at the school, the event took place 3 1/2 weeks after the beginning of the Persian Gulf War.

Twenty-foot fall averts fatality from massive hydrogen sulfide exposure.

Hydrogen sulfide is a colorless irritant and asphyxiant gas with a noxious odor of "rotten eggs." Acute hydrogen sulfide exposure may cause, depending on the level and duration of toxicity, symptoms ranging from mild mucous membrane irritation to permanent neurologic impairment and cardiopulmonary arrest. We present a case of an oil refinery worker exposed to a typically fatal concentration of hydrogen sulfide gas (>1000 ppm) while working on top of a 20-foot ladder. The "knockdown" effect of exposure to high concentrations of hydrogen sulfide caused him to lose consciousness and fall from the top of the ladder. He was transported to the Emergency Department as a major trauma victim. Ironically, this 20-foot fall saved his life and possibly those of the rescuers by immediately removing him from the source of the hydrogen sulfide. Treatment of hazardous materials incidents and the pathophysiology and treatment options for hydrogen sulfide poisoning are discussed.