Clinical toxicology : the official journal of the American Academy of Clinical Toxicology and European Association of Poisons Centres and Clinical Toxicologists
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Clin Toxicol (Phila) · Jan 2005
Practice Guideline Guidelinebeta-blocker ingestion: an evidence-based consensus guideline for out-of-hospital management.
In 2003, US poison centers were contacted regarding ingestion of beta-blockers by 15,350 patients including 3766 (25%) under 6 years of age; 7415 (48%) were evaluated in healthcare facilities and 33 died. An evidence-based expert consensus process was used to create this guideline. Relevant articles were abstracted by a trained physician researcher. ⋯ Consider the oral administration of activated charcoal if it is available and no contraindications are present but do not delay transportation to administer charcoal (Grade A). 4) Asymptomatic patients who ingest more than the referral dose should be sent to an emergency department if the ingestion occurred within 6 hours of contacting the poison center for an immediate-release product other than sotalol, within 8 hours of contacting the poison center for a sustained-release product, and 12 hours if they took sotalol (Grade C). 5) Ambulance transportation is recommended for patients who are referred to emergency departments because of the potential for life-threatening complications of beta-blocker overdose. Provide usual supportive care en route to the hospital, including intravenous fluids for hypotension (Grade D). 6) Follow-up calls should be made to determine outcome at appropriate intervals for up to 12-24 hours based on the judgment of the poison center staff (Grade D). 7) Asymptomatic patients who are referred to healthcare facilities should be monitored for at least 6 hours after ingestion if they took an immediate-release preparation other than sotalol, 8 hours if they took a sustained-release preparation, and 12 hours if they took sotalol. Routine 24-hour admission of an asymptomatic patient who has unintentionally ingested a sustained-release preparation is not warranted (Grade D).
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Clin Toxicol (Phila) · Jan 2005
Case ReportsSevere acute poisoning with homemade Aconitum napellus capsules: toxicokinetic and clinical data.
Aconitum napellus is an extremely dangerous plant that contains various toxic diterpenoid alkaloids, mainly aconitine primarily concentrated in the roots. We report a case of acute intoxication of a 21-year-old man admitted to our Emergency Department after the ingestion, in order to sleep, of three homemade Aconitum napellus capsules. Capsules were measured to contain 237 mg of root and 19 microg of aconitine. ⋯ The calculated half-life of aconitine was 3 hours. To our knowledge, this is the first reported case with an aconitine toxicokinetic-effect relationship. The authors stress that clinicians must be aware of possible occurrence of acute poisoning with Aconitum napellus in European countries and in the United States as herbal medicine is becoming increasingly popular.
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Clin Toxicol (Phila) · Jan 2005
Does ethanol explain the acidosis commonly seen in ethanol-intoxicated patients?
Emergency physicians frequently treat ethanol-intoxicated trauma patients. In patients with apparently minor injuries, the presence of metabolic acidosis is often attributed to serum ethanol. We tested whether there is justification for the bias that ethanol reliably explains the acidosis commonly seen in alcohol-intoxicated patients. ⋯ Ethanol intoxication is associated with acidosis, which does not correlate with BD or LAC. The complexity of pathogenesis of acidosis in ethanol intoxication justifies further diagnostic evaluation of these patients in order to rule out other causes of acidosis.
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Clin Toxicol (Phila) · Jan 2005
Comparative StudyEvaluation of relationship between arterial and venous blood gas values in the patients with tricyclic antidepressant poisoning.
Determination of arterial blood gas (ABG) values is essential in the evaluation of patients with TCA poisoning. The relationship between arterial and venous blood gas pH has not been established in TCA poisoning. In TCA poisoning, blood vessels vasodilatation due to antidepressant-induced alpha-blockade and also metabolic acidosis may lead to arterialization of venous blood, which in turn enhances the relationship between ABG and VBG parameters. Therefore this study was designed to evaluate the relationship between ABG and VBG pH values in TCA poisoned patients. ⋯ In TCA poisoning, the peripheral venous pH measurement is a valid and reliable substitute for arterial pH.