Rosen & Barkin's 5-Minute Emergency Medicine Consult (99 page)

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Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

BOOK: Rosen & Barkin's 5-Minute Emergency Medicine Consult
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Barbiturate Poisoning

The author would like to provide special thanks to the author of the prior edition, Matthew Valento.

CODES
ICD9

969.4 Poisoning by benzodiazepine-based tranquilizers

ICD10
  • T42.4X1A Poisoning by benzodiazepines, accidental, init
  • T42.4X2A Poisoning by benzodiazepines, intentional self-harm, init
  • T42.4X4A Poisoning by benzodiazepines, undetermined, init encntr
BETA-BLOCKER POISONING
Christopher S. Lim

Steven E. Aks
BASICS
DESCRIPTION
Normal Physiology
  • Cardiovascular: β
    1
    -receptors:
    • ATP converted to cAMP by adenyl cyclase with stimulation of β-receptors.
    • cAMP activates protein kinase, which phosphorylates proteins of the sarcoplasmic reticulum.
    • Sarcoplasmic reticulum releases calcium.
    • Excitation–contraction coupling occurs.
  • Effects of β-blockers:
    • Cardiovascular:
      • Decreased excitation/contraction
      • Membrane stabilizing activity
      • Sodium channel blockade causes a prolongation of the QRS complex (with some agents).
      • Prolongation of QTc interval leading to ventricular dysrhythmias (with some agents)
      • Intrinsic sympathomimetic activity
      • Partial agonist properties (with some agents)
    • Neurologic:
      • CNS effects with the lipophilic agents (propranolol, metoprolol, labetalol)
DIAGNOSIS
SIGNS AND SYMPTOMS
  • Cardiovascular:
    • Hypotension
    • Bradycardia
    • Cardiac conduction delays
    • Heart block
    • Heart failure
    • Electrical mechanical dissociation
    • Loss of β-selectivity in overdose settings
  • Neurologic:
    • Coma
    • Seizures
  • Pulmonary:
    • Bronchospasm
    • Pulmonary edema
  • Metabolic:
    • Hypoglycemia
History
  • Inquire about risk of medication error.
  • Inquire about risk of suicidal ideation with intent.
  • Inquire about possible exposure to medications with a pediatric patient.
Physical-Exam
  • Hypotension
  • Bradycardia
  • Dysrhythmias
ESSENTIAL WORKUP
  • With unknown ingestion: Suspect β-blocker poisoning with bradycardia/hypotension.
  • ECG:
    • Conduction delays
    • 1st-, 2nd-, or 3rd-degree heart block
    • Bradycardia
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • CBC
  • Electrolytes, BUN, creatinine, glucose
  • Toxicology screen if coingestants suspected
DIFFERENTIAL DIAGNOSIS
  • Calcium-channel blocker toxicity
  • Clonidine toxicity
  • Digitalis toxicity
  • Acute myocardial infarction with heart block
TREATMENT
PRE HOSPITAL
  • Transport pills and pill bottles when overdose suspected.
INITIAL STABILIZATION/THERAPY
  • ABCs:
    • Airway protection as indicated by mental status
    • Supplemental oxygen as needed
    • 0.9% NS IV access
    • Close hemodynamic monitoring
  • Naloxone and thiamine if altered mental status
  • Bedside glucose determination, treat hypoglycemia with D
    50
    W
  • Treat prolonged seizures with benzodiazepines
ED TREATMENT/PROCEDURES
Goals
  • Heart rate >60 beats per minute
  • Systolic BP >90 mm Hg
  • Adequate urine output
  • Improving level of consciousness
GI Decontamination
  • Syrup of ipecac: Contraindicated in the prehospital and ED setting.
  • Consider lavage with Ewald tube if ingestion within 1 hr:
    • Propranolol may cause esophageal spasm producing difficulty with passage and removal of gastric lavage tube.
  • Activated charcoal helpful especially in the presence of coingestants.
Bradycardia/Hypotension
  • Atropine:
    • Initial agent
    • Low success rate
  • Glucagon:
    • Initial drug of choice for β-blocker–induced hemodynamic instability
    • Administer if atropine does not increase heart rate.
    • Promotes cAMP production through a receptor site other than the β-receptor
    • May cause nausea and vomiting
    • Mix with NS or D
      5
      W
  • IV fluids:
    • Administer cautiously in the hypotensive patient
    • Swan-Ganz catheter or central venous pressure (CVP) monitoring to help follow volume status
  • Amrinone:
    • Selective phosphodiesterase inhibitor
    • Indirectly increases cAMP leading to increased inotropy
    • Use in conjunction with glucagon to treat symptomatic sustained bradycardia.
  • Vasopressor agents:
    • Initiate when symptomatic hypotension/bradycardia persists after atropine/glucagon.
    • Use invasive monitoring to help guide therapy.
    • Utility may be limited owing to β-blockade:
      • Higher doses may be required.
    • Isoproterenol (nonselective β-agonist):
      • Titrate for BP and heart rate.
    • Epinephrine (potent α- and β-receptor agonist):
      • BP increases as a result of direct myocardial stimulation, increase in heart rate, and vasoconstriction.
      • Use if no BP response with isoproterenol
    • High-dose dopamine
  • Sodium bicarbonate:
    • In theory, this is used if there is evidence of prolongation of QRS >100 ms owing to some of the β-blockers also causing sodium channel blockade leading to a prolonged QRS.
    • Not routinely administered for all β-blocker toxicities
  • Electrical pacing: When other treatment options have failed
Experimental Treatment Options
  • Consult with local poison center
  • High-dose insulin:
    • Promotes more efficient myocardial metabolism
    • Hypoglycemia commonly seen in β-blocker overdose, will require frequent monitoring of glucose concentration
    • Perform in consultation with local poison center
  • IV fat emulsion therapy (20% intralipid)
Enhanced Elimination
  • Hemodialysis helpful with water-soluble β-blocking agents:
    • Nadolol
    • Atenolol
    • Sotalol
  • IV fat emulsion (20% Intralipid):
    • Potential treatment in the future
MEDICATION
  • Activated charcoal: 1 g/kg PO
  • Amrinone: Loading dose 0.75 mg/kg; maintenance drip 2–20 μg/kg/min; titrate for effect
  • Atropine: 0.5 mg (peds: 0.02 mg/kg) IV; repeat 0.5–1 mg IV (peds: 0.04 mg/kg)
  • Dopamine: 2–20 μg/kg/min IV
  • Dextrose: D
    50
    W 1 ampule (50 mL or 25 g; peds: D
    25
    W 2–4 mL/kg) IV
  • Epinephrine: 2 μg/min (peds: 0.01 mg/kg [0.1 mL/kg 1:10,000]); titrate to effect
  • Glucagon: 3–5 mg IV over 1–2 min (peds: 0.03–0.1 mg/kg) bolus followed by 70 μg/kg/h infusion
  • Insulin (regular insulin): 1 IU/kg bolus IV followed by 0.5–1 IU/kg/h titrated to clinical response (be sure to supplement with dextrose)
  • Isoproterenol: 5 μg/min IV and titrate for heart rate effect
  • Norepinephrine: Start 2–4 μg/min IV, titrate up to 1–2 μg/kg/min IV
  • Sodium bicarbonate: 1 mEq/kg IVP
First Line
  • IV fluids
  • Glucagon
  • Vasopressor agents
Second Line
  • Sodium bicarbonate
  • Hemodialysis
FOLLOW-UP

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