Rosen & Barkin's 5-Minute Emergency Medicine Consult (258 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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  • Boerhaave Syndrome
  • Foreign Body, Caustic Ingestion, Esophageal
  • Mallory–Weiss Syndrome
CODES
ICD9
  • 862.22 Injury to esophagus without mention of open wound into cavity
  • 862.32 Injury to esophagus with open wound into cavity
  • 935.1 Foreign body in esophagus
ICD10
  • S27.813A Laceration of esophagus (thoracic part), initial encounter
  • S27.819A Unspecified injury of esophagus (thoracic part), init encntr
  • T18.108A Unsp foreign body in esophagus causing oth injury, init
ETHYLENE GLYCOL POISONING
Paul E. Stromberg

Kirk L. Cumpston
BASICS
DESCRIPTION
  • Peak serum concentration in 1–4 hr
  • Half-life, 2.5–4.5 hr
  • <20% excreted unmetabolized by kidneys
  • Pathophysiology:
    • Metabolized by hepatic alcohol dehydrogenase and aldehyde dehydrogenase ultimately to oxalic acid
    • Results in aldehyde and acid metabolites
    • Directly toxic to CNS, heart, and kidneys
ETIOLOGY
  • Ethylene-glycol–containing products:
    • Antifreeze
    • Solvents
  • Min. reported lethal dose is 30 mL of 100% ethylene glycol.
DIAGNOSIS
SIGNS AND SYMPTOMS
  • Cardiovascular:
    • Tachycardia/bradycardia/other dysrhythmias
    • Hypertension/hypotension
  • CNS:
    • Inebriation/irritability
    • Ataxia
    • Obtundation
    • Coma
    • Cerebral edema
    • Convulsions
    • Peripheral nervous system
    • Cranial nerve abnormalities
  • GI:
    • Nausea/vomiting
    • Abdominal pain
  • Pulmonary:
    • Hyperventilation/tachypnea/Kussmaul respiration
    • Pulmonary edema
  • Renal:
    • Acute renal failure
    • Crystalluria
  • 3 stages (may overlap):
    • 1st stage: 1–12 hr after ingestion:
      • CNS depression
      • GI symptoms
      • Worsening acidosis
      • Coma
      • Convulsions
      • Cerebral edema
      • Tetany and myoclonus secondary to hypocalcemia
    • 2nd stage: 12–36 hr after ingestion:
      • Cardiopulmonary symptoms
      • When most deaths occur
    • 3rd stage: 36–72 hr after ingestion:
      • Oliguria
      • Flank pain
      • Acute renal failure
History
  • Intentional or unintentional ethylene glycol ingestion
  • No history but a patient with an unexplained high anion gap metabolic acidosis
  • Elevated unexplained osmol gap
Physical-Exam
  • Tachypnea
  • Altered mental status
ESSENTIAL WORKUP
  • History of all substances ingested
  • Drawn simultaneously:
    • Arterial blood gas
    • Serum ethylene glycol, methanol, isopropyl alcohol, and ethanol serum concentration
    • Electrolytes, BUN/creatinine, glucose
    • Measured serum osmolality (by freezing point depression)
    • Serum calcium, phosphorus, magnesium
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • Determine the anion gap:
    • Anion gap = (Na
      +
      ) – (Cl

      + HCO
      3

      )
    • Normal anion gap is 8–12.
  • Determine osmol gap:
    • Osmol gap = measured osmolality – calculated osmolarity
    • Increased osmol gap: >10
    • Calculated osmolarity = 2(Na
      +
      ) + glucose/18 + BUN/2.8 + ethanol (mg/dL)/4.6
    • Calculated to screen for ethylene glycol ingestion because toxic alcohol serum concentration are not commonly available in timely manner from most clinical labs
    • Most useful early in course of ethylene glycol poisoning or with concurrent ethanol ingestion
    • With concurrent ethanol ingestion, osmol gap tends to be larger and acidosis tends to be less severe because relatively less ethylene glycol has been converted to acid-producing metabolites.
    • Normal osmol gap does not rule out ethylene glycol ingestion.
    • Late presentation after ethylene glycol ingestion may manifest itself with only an elevated anion gap without a significant osmol gap.
  • Ethylene glycol, methanol, isopropyl alcohol serum concentration
  • Ethanol serum concentration:
    • Measured to determine amount of ethanol bolus necessary to attain therapeutic serum concentration, and to determine coingestants
  • Urinalysis:
    • Envelope-shaped oxalate crystals: Insensitive but specific finding.
    • Absence of urine calcium oxalate crystals does not rule out ethylene glycol exposure.
    • Ketones may be due to isopropyl alcohol ingestion, starvation, or diabetic ketoacidosis.
Diagnostic Procedures/Surgery

Wood lamp inspection of urine or gastric contents:

  • Detects presence of fluorescein, a common antifreeze additive
  • Insensitive and not specific marker of antifreeze ingestion
  • Absence of urinary fluorescence does not rule out ethylene glycol exposure.
DIFFERENTIAL DIAGNOSIS
  • Increased osmol gap:
    • M
      ethanol
    • E
      thanol
    • D
      iuretics (mannitol, glycerin, propylene glycol, sorbitol)
    • I
      sopropyl alcohol
    • E
      thylene glycol
    • A
      cetone, ammonia
    • P
      ropylene glycol
  • Elevated anion gap metabolic acidosis:
    A CAT MUDPILES
    :
    • A
      lcoholic ketoacidosis
    • C
      yanide, CO, H
      2
      S, others
    • A
      cetaminophen
    • Antiretrovirals (NRTI)
    • T
      oluene
    • M
      ethanol, metformin
    • U
      remia
    • D
      iabetic ketoacidosis
    • P
      araldehyde, phenformin, propylene glycol
    • I
      ron, INH
    • L
      actic acidosis
    • E
      thylene glycol
    • S
      alicylate, acetylsalicylic acid (ASA; aspirin), starvation ketosis
TREATMENT
PRE HOSPITAL
  • Bring containers of all possible substances ingested.
  • Monitor airway and CNS depression.
  • Dermal decontamination of an ethylene glycol chemical spill by removal of clothing and jewelry and irrigation with soap and water
INITIAL STABILIZATION/THERAPY
  • ABCs
  • Supplemental oxygen, cardiac monitor, secured IV line with 0.9% NS
  • D
    50
    W (or Accu-Check), naloxone, and thiamine for altered mental status
ED TREATMENT/PROCEDURES
  • Prevent further ethylene glycol absorption:
    • Gastric lavage with nasogastric tube:
      • If <1 hr since ingestion, if patient is in coma, or if history of large ingestion
    • Initial dose of activated charcoal for potential coingestants, but unlikely to help if only ethylene glycol:
      • Activated charcoal adsorbs ethylene glycol poorly.
  • Prevent ethylene glycol conversion to toxic metabolites with fomepizole:
    • Fomepizole (4-MP, Antizol):
      • Initiate before ethylene glycol serum concentration returns, if accidental ingestion greater than a sip or intentional ingestion oraltered mental status associated with unexplained osmol gap or elevated anion gap acidosis.
      • Competitive inhibitor of alcohol dehydrogenase
    • Disadvantages:
      • Blurry vision
      • Transient elevation of LFTs
    • Advantages:
      • Easy dosing
      • No need for continuous infusion
      • No inebriation/CNS depression
      • No hypoglycemia, hyponatremia, or hyperosmolality
      • Not necessary to check ethanol serum concentration
      • Reduction in degree of nursing care and monitoring
  • Ethanol therapy:
    • 2nd choice antidote if fomepizole is not available
    • Not FDA approved for treatment of ethylene glycol
    • Initiate before ethylene glycol serum concentration returns, if potentially toxic ingestion is suspected.
    • Ethanol: Greater affinity than ethylene glycol for alcohol dehydrogenase:
      • Slows conversion to toxic metabolites
    • Indications:
      • History of accidental ethylene glycol ingestion of greater than a sip or intentional ethylene glycol ingestion
      • Altered mental status associated with unexplained osmol gap or elevated anion gap metabolic acidosis
    • Goal: Serum ethanol serum concentration of 100–150 mg/dL
    • Continue ethanol therapy until ethylene glycol serum concentration is 25 mg/dL.
  • Administer thiamine, pyridoxine, and magnesium:
    • Cofactors in metabolism of ethylene glycol that may promote conversion to nontoxic metabolites.
    • No human data supporting this theory
  • Hemodialysis:
    • Decreases elimination half-life of ethylene glycol and removes toxic metabolites
    • Indications: Severe acidosis or osmol gap; persistent electrolyte or metabolic acidosis; renal insufficiency; pulmonaryedema; cerebral edema; serum ethylene glycol serum concentration >25 mg/dL
    • Continue hemodialysis until ethylene glycol serum concentration approaches 25 mg/dL and metabolic acidosis resolves.
  • Correct secondary disorders:
    • Ensure adequate urine output via IV fluids.
    • Sodium bicarbonate therapy for acidemia with pH < 7.1:
      • The goal is to maintain a serum pH in the normal range.
  • Monitor/replace calcium:
    • Deposition of calcium into tissues can result in hypocalcemia.

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