1 / 37

Poisoning in Children

Poisoning in Children. Presented by:Dr.Doaa Al-Masri. Moderated by:Dr J.Halazoun. Introduction . Unintentional poisoning can occur following exposure to any of a large number of pharmaceutical or nonpharmaceutical products. Acetaminophen . Definition:

apu
Download Presentation

Poisoning in Children

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Poisoning in Children Presented by:Dr.Doaa Al-Masri. Moderated by:Dr J.Halazoun.

  2. Introduction • Unintentional poisoning can occur following exposure to any of a large number of pharmaceutical or nonpharmaceutical products.

  3. Acetaminophen • Definition: • It is the most common analgesic overdose in children younger than 6 years. • 99.8% of these exposures resulted in minor or no toxicity.

  4. Acetaminophen • Clinical aspects: • The toxicity arises from the metabolism of the drug with the accumulation of a toxic metabolite in the hepatocyte and binds to intracellular molecules causing damage to the liver cells. • The minimum toxic dose is 140mg/kg. • A single ingestion of this quantity may cause transient reversible liver damage. • More severe toxicity results from ingestions in excess of 250mg/kg.

  5. Acetaminophen • Clinical aspects • The initial symptoms and signs are nonspecific in the form of nausea and vomiting. • Within 18-24 hours after the dose , hepatic damage may become evident as transaminases begin to rise. • If not treated , hepatic damage may worsen over the next 2-3 days before gradually resolving. • Rarely fulminant hepatic failure can occur.

  6. The end Thank you

  7. Acetaminophen • The only accurate predictor is an acetaminophen serum level measured between 4 and 10 hours after the dose. • Hepatic toxicity has been defined by elevations in serum hepatic transaminases and prolongation of prothrombin time.

  8. Acetaminophen • Diagnosis: history of an ingestion of at least 140mg/kg and serum level above the therapeutic range. • Toxicity is defined by serum level above the line in the nomogram or by positive history in association with increased liver enzymes. • If the patient is having the level in the toxic range ,treat by N-acetylcysteine.. • If the level cannot be determined,the therapy is based on the history . • The treatment should be initiated within 10 hours of the ingestion.

  9. Acetaminophen • Prognosis: • In general it is good. • Few children develop hepatotoxicity and only occasional cases progress to serious liver damage and if the child recovers, the hepatic damage resolves completely. • Death is rare.

  10. Ethanol • It is found in: • Beverages: wine,beer and liquor in different percentages. • Elixirs and cough preparations. • Personal care products:mouthwashes and aftershaves.

  11. Ethanol • Clinical aspects:it is a dose related CNS depressant. • It also induces hypoglycemia by blockage of gluconeogenesis. • A single ingestion of 0.5mg/kg (1.5cc/kg) is sufficient to induce significant intoxication in a young child

  12. Ethanol • Clinical aspects: • Dose related progressive CNS depression (inebiration,ataxia,vomiting and coma, respiratory depression, hypotension). • May mask toxicities from other coingested drugs. • May blunt the effect of CNS stimulants. • May potentiate the effects of other CNS depressants. • The clinical signs are nonspecific and can be masked by hypoglycemia and its severity is not related to ethanol level or the ingested dose.

  13. Ethanol • Investigations: • serum electrolytes,glucose and ethanol. • Broad-spectrum drug screen if needed.

  14. Ethanol • Diagnosis and management: • Any suspicion should be confirmed with measurement of the blood level. • Management is supportive and symptomatic. • Correction of electrolytes and hypoglycemia and administration of I.V. fluids. • No available antidote. • Extracorporeal removal techniques. • Good prognosis and recovery with supportive care.

  15. Hydrocarbons: • Definition:they are substances comprised of hydrogen and carbon. • They are either aliphatic or aromatic or mixture of the two hydrocarbons.

  16. Hydrocarbons • Gasoline was the most common, but Kerosene have the highest morbidity. • Lighter fluid was the only substance category that resulted in death.

  17. Hydrocarbons • Clinical aspects:it irritates the gastrointestinal and respiratory tracts. • Chemical pneumonitis: spread over large areas of the lining of the lungs and destroying surfactant causing alveolar collapse, ventilation/perfusion mismatch and hypoxemia . • Direct capillary damage.

  18. Hydrocarbons • Clinical aspects: • oropharyngeal and gastric irritation. • Vomiting,coughing and respiratory distress. • Petroleum smell , tachypnea, retractions, bronchospasm and wheezing and rales. • Fulminant chemical pneumonitis. • Fever within 6 hours. • The clinical peak of pulmonary damage is 3 days after aspiration.

  19. Hydrocarbons • Management: • Asymptomatic patients should be observed. • Symptomatic patients should be investigated by ABG and CXR.

  20. Hydrocarbons • Diagnosis by history, symptoms and signs of respiratory involvement and CXR . • Management: • Asymptomatic patients with normal CXR. • Asymptomatic patients with abnormal CXR. • Symptomatic patients. • Role of prophylactic antibiotics and corticosteroids.

  21. Hydrocarbons • Prognosis: • Most ingestions will result in no or minor clinical effects. • Most patients with chemical pneumonitis will recover completely. • Rarely it is complicated by prolonged bronchospastic tendencies or pneumatoceles.

  22. Theophylline • Definition: it is used as a bronchodilator and it is widely available in different clinical forms. • It is uncommon. • Children younger than 4 years appear to be at a higher risk of developing serious toxicity than are older children.

  23. Theophylline • Clinical aspects: the acute ingestion of a dose exceeding 10mg/kg may result in some degree of clinical toxicity. • Nausea/vomiting/abdominal discomfort. • Restlesssness/agitation/tremors/peripheral vasodilation/sinus tachycardia. • Convulsions/hypotension/arrhythmia.

  24. Theophylline • Investigations : • Serum levels correlate well with clinical toxicity and levels may not peak for many hours after ingestion of a sustained release product. • Minor toxicity:20-40 mcg/ml. • Moderate toxicity:40-60 mcg/ml. • Severe toxicity:70-80 mcg/ml. • Levels above 100 mcg/ml are associated with death. • Serum electrolytes and sugar, ABG, ECG.

  25. Theophylline • Diagnosis/management • If the ingestion was within the previous 2 hours: give activated charcoal (1g/kg) • Monitor theophylline level. • If the patient is having more severe or worsening toxicity and serum levels more than 60mcg/ml,he must be admitted for careful monitoring, supportive care and multiple doses of activated charcoal. • If serum levels more than 80mcg/ml,the patient should be transferred to a facility where extracorporeal clearance can be performed.

  26. Tricyclic Antidepressants • These drugs are used in children to treat enuresis. • They cause toxicity by blockage of the cholinergic neurotransmitter acetylcholine,preventing reuptake of the adrenergic neurotransmitter norepinephrine and by blocking sodium channels in the myocardium.

  27. Tricyclic Antidepressants • Clinical toxicity begins within 6 to 8 hours after ingestion and peaks within 24 hours of presentation. • The potentially toxic dose is 5-20mg/kg. • Dry mouth,ileus, dilated pupils, urinary retention and mild sinus tachycardia. • CNS effects- which are more common than the cardiovascular system involvement- include delirium,agitation,restlessness, hallucinations and convulsions. • Cardiac arrhythmia and hypertension but hypotension is a poor prognostic sign.

  28. Tricyclic Antidepressants • Serum levels do not contribute to treatment decisions. • ECG changes: • Conduction defects. • Ventricular arrhythmia. • The single most useful predictor of convulsions or cardiac arrhythmia is QRS duration on a limb-lead ECG.

  29. Tricyclic Antidepressants • TCA overdose should be suspected in any child with acute onset of nonfocal neurologic abnormalities and lives in a house in which TCA are present. • Gastrointestinal decontamination with activated charcoal. • Convulsions are treated with benzodiazepines. • Cardiac arrhythmia: sodium bicarbonates. • Prognosis: generally it is good.

  30. Methanol • It is present in automobile windshield washing fluid. • It has an unpleasant taste. • Potentially toxic amount of 0.15 cc/kg or 3 cc in 20 kg child.So a very small quantity is needed to result in serious toxicity.

  31. Methanol • Clinical aspects • Inebiration • Metabolic acidosis( due to formation of formic acid) and compensatory respiratory alkalosis. • Ocular findings( blurred vision,snow field vision, hyperemia and edema of optic disks). • Nausea/vomiting/abdominal discomfort. • Investigate by measuring serum methanol level and ABG.

  32. Methanol • Management: • Sodium bicarbonate. • Ethanol. • Leucovorin or folate. • Hemodialysis.

  33. Methanol • Prognosis: • If treated early,recovery is expected. • Permanent ocular damage.

More Related