Carbamate toxicity

(Redirected from Carbamates)

Background

Clinical Features

Autonomic Nervous System Receptors and Their Effects

  • Parasympathetic - ACh is transm
    • Muscarinic
      • receptors in heart, eye, lung, GI, skin and sweat glands
      • Bradycardia
      • Miosis
      • Bronchorrhea / Bronchospasm
      • Hyperperistalsis (SLUDGE)
      • Sweating
      • Vasodilation
    • Nicotinic
  • Sympathetic
    • Alpha effects (vessels, eye, skin)
    • Beta effects (heart, lungs)
  • Symptoms caused by acetylcholine buildup in CNS and PNS.
  • CNS symptoms = headache, confusion, vertigo, seizures, coma
  • Muscarinic Receptors
    • SLUDGE(M) = Salivation, Lacrimation, Urination, Diarrhea, GI pain, Emesis, Miosis
  • Nicotinic Receptors (NMJ)
    • MTWThF = Mydriasis/Muscle cramps, Tachycardia, Weakness, Twitching, Hypertension/Hyperglycemia, Fasiculations
  • Common causes of death in organophosphate toxicity
    • Killers B's = Bradycardia, Bronchorrhea, Bronchospasm

Differential Diagnosis

SLUDGE Syndrome

Weakness

Chemical weapons

Symptomatic bradycardia

Evaluation

Management

  • Pralidoxime not useful with carbamates but should be given unless organophosphate toxicity completely ruled out

Decontamination

  • Providers should wear appropriate PPE during decontamination.
    • Neoprene or nitrile gloves and gown (latex and vinyl are ineffective)
  • Dispose of all clothes in biohazard container
  • Wash patient with soap and water

Supportive Care

  • IVF, O2, Monitor
  • Aggressive airway management is of utmost importance.
    • Intubation often needed due to significant respiratory secretions / bronchospasm.
    • Use nondepolarizing agent (Rocuronium or Vecuronium)
    • Succinylcholine is absolutely contraindicated
  • Benzodiazepines for seizures

Antidotes

  • Dosing with atropine and pralidoxime are time dependent and provides ability to reverse symptoms while awaiting agent metabolism
  • For exposure to nerve agents, manufactured IM autoinjectors are available for rapid administration:
    • Mark 1
      • Contains 2 separate cartridges: atropine 2 mg + 2-PAM 600 mg
      • Being phased out with newer kits
    • DuoDote
      • Single autoinjector containing both medications
      • Same doses as Mark 1: atropine 2 mg + 2-PAM 600 mg

Antidotes

Atropine

  • Competitively blocks muscarinic sites (does nothing for nicotinic-related muscle paralysis)
  • May require massive dosage (hundreds of milligrams)
  • Dosing[3]
  • Adult: Initial bolus of 2-6mg IV; titrate by doubling dose q5-30m until tracheobronchial secretions controlled
    • Once secretions controlled → start IV gtt 0.02-0.08 mg/kg/hr
    • Child: 0.05-0.1mg/kg (at least 0.1mg) IV; repeat bolus q2-30m until tracheobronchial secretions controlled
    • Once secretions controlled → start IV gtt 0.025 mg/kg/hr
  • No max dose, doses >400mg have been reported[4]

Pralidoxime

  • AKA 2-PAM
  • For Organophosphate poisoning only - reactivates AChE by removing phosphate group → oxime-OP complex then excreted by kidneys.
    • This must be done before "aging" occurs - conformational change that makes OP bond to AChE irreversible[5]
    • Pralidoxime can actually bind and inhibit AChE once all AChE enzymes have aged, and can make the toxicity worse
    • Window to aging depends on the agent, and is a matter of debate, but pralidoxime within 1-2 hours of exposure is the goal
  • Dosing[3]
    • Adult: 1-2gm IV over 15-30min; repeat in 1 hour if needed or 50 mg/hr infusion.
    • Child: 20-40mg/kg IV over 20min; repeat in 1 hour if needed or 10-20 mg/kg/hr infusion.

Disposition

  • Admit all patients with respiratory or CNS compromise and all who require atropine


See Also

External Links

References

  1. Silberman J, Taylor A. Carbamate Toxicity. [Updated 2019 Jun 18]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2019 Jan-. Available from: https://www.ncbi.nlm.nih.gov/books/NBK482183/
  2. https://www.merckmanuals.com/professional/injuries-poisoning/poisoning/organophosphate-poisoning-and-carbamate-poisoning
  3. 3.0 3.1 Agency for Toxic Substances and Disease Registry, Case Studies in Environmental Medicine, Cholinesterase Inhibitors: Including Pesticides and Chemical Warfare Nerve Agents. Centers for Disease Control (CDC). PDF Accessed 06/21/15
  4. Hopmann G, Wanke H. Höchstdosierte Atropinbehandlung bei schwerer Alkylphosphatvergiftung [Maximum dose atropin treatment in severe organophosphate poisoning (author's transl)]. Dtsch Med Wochenschr. 1974;99(42):2106-2108. doi:10.1055/s-0028-1108097
  5. Eddleston M, Szinicz L, Eyer P, Buckley, N (2002) Oximes in Acute Organophosphate Pesticide Poisoning: a Systematic Review of Clinical Trials. QJM. 95(5): 275–283.
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