Rosen & Barkin's 5-Minute Emergency Medicine Consult (453 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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TREATMENT
PRE HOSPITAL
  • Bring to hospital all substances patient may have ingested.
  • Question witnesses and observe scene for household products and other potential coingestants:
    • Document and relay findings to emergency medical staff.
  • Commercial or industrial sites:
    • Obtain relevant material safety data sheets (MSDSs) if available to identify commercial or chemical products.
    • Avoid dermal exposures.
INITIAL STABILIZATION/THERAPY
  • ABCs:
    • Cardiac monitor
    • Isotonic crystalloids as needed for hypotension
  • Naloxone, thiamine, and dextrose (D
    50
    W) as indicated for altered mental status
  • Supplemental oxygen
ED TREATMENT/PROCEDURES
  • Decontamination:
    • If owing to acute ingestion/overdose within previous 1–2 hr, and protective airway reflexes are intact, administer 50–100 g of activated charcoal PO.
  • Remove source of oxidant stress.
  • Methylene blue:
    • Indications:
      • Asymptomatic with levels >30%
      • Symptomatic patients with levels >10–20%, especially if comorbid diseases are present
    • Expect transient worsening of saturations on pulse oximetry after methylene blue is administered:
      • Interferes with pulse oximetry measurement and no specific intervention required
    • Use with caution in patients with glucose-6 pyruvate decarboxylase deficiency:
      • May cause hemolysis
  • If no improvement with methylene blue, consider that source of oxidant stress is not eliminated, or that sulfhemoglobinemia is present:
    • Sulfhemoglobin is sulfur molecule bound to hemoglobin. Presents similar to methemoglobin, but is self-limited and not responsive to methylene blue.
  • RBC transfusion:
    • May be necessary to increase blood oxygen-carrying capacity
    • Consider in the presence of HA.
  • Exchange transfusion:
    • Especially with neonates/infants
  • Hyperbaric oxygen therapy:
    • Increases oxygen delivery to tissues by allowing more oxygen to be dissolved in the blood, independent of hemoglobin.
    • Use in life-threatening methemoglobinemia if immediately available.
Pediatric Considerations
  • Children may develop significant methemoglobinemia from apparently minor ingestions.
  • Symptoms delayed several hours after ingestion, so prolonged observation necessary
  • Neonates are also at higher risk of methemoglobinemia (owing to decreased stores of NADH methemoglobin reductase).
MEDICATION
  • Dextrose 50%: 25 g (50 mL) (peds: 0.5–1 g/kg of dextrose) IV for hypoglycemia
  • Methylene blue: 0.1–0.2 mL/kg 1% solution IV over 5 min (adults and peds)
    • May repeat if no improvement in 1 hr
    • Doses of 0.3 to 1 mg/kg IV have been effective in neonates. Has been used IO over 3–5 min.
  • Naloxone: 0.4–2 mg (peds: 0.1 mg/kg) IV, may repeat up to 10 mg for suspected opioid intoxication
  • Thiamine: 100 mg (peds: 1 mg/kg) IM or IV
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Severely symptomatic patients
  • Patients requiring multiple doses of methylene blue
  • Dapsone may cause prolonged recurrent methemoglobinemia
Discharge Criteria

Methemoglobin levels <20% and falling with no symptoms or comorbid disease

Issues for Referral

Toxicology consult for significant exposures

FOLLOW-UP RECOMMENDATIONS

Occupational medicine referral for work-related exposures

PEARLS AND PITFALLS
  • Pulse oximetry is
    inaccurate
    in methemoglobinemia.
  • Obtain an ABG.
  • Administer methylene blue for significant levels/symptoms.

A special thanks to Dr. Gerald Maloney who contributed to the previous edition.

ADDITIONAL READING
  • Barclay JA, Ziemba SE, Ibrahim RB. Dapsone-induced methemoglobinemia: A primer for clinicians.
    Ann Pharmacother.
    2011;45:1103–1115.
  • Bradberry SM, Aw TC, Williams NR, et al. Occupational methaemoglobinaemia.
    Occup Environ Med
    . 2001;58:611–615.
  • Guay J. Methemoglobinemia related to local anesthetics: A summary of 242 episodes.
    Anesth Analg.
    2009;108:837–845.
  • Price D. Methemoglobin inducers. In: Flomenbaum NE, Goldfrank LR, Hoffman RS, et al., eds.
    Goldfrank’s Toxicologic Emergencies.
    9th ed. New York, NY: McGraw-Hill; 2011.
  • Wright RO, Lewander WJ, Woolf AD. Methemoglobinemia: Etiology, pharmacology, and clinical management.
    Ann Emerg Med
    . 1999;34:646–656.
CODES
ICD9

289.7 Methemoglobinemia

ICD10
  • D74.0 Congenital methemoglobinemia
  • D74.8 Other methemoglobinemias
  • D74.9 Methemoglobinemia, unspecified
MITRAL VALVE PROLAPSE
Liudvikas Jagminas
BASICS
DESCRIPTION
  • Bulging of 1 or both of the mitral valve leaflets into the left atrium during systole
  • Occurs when the leaflet edges of the mitral valve do not coapt
  • Commonly due to abnormal stretching of 1 of the mitral valve leaflets during systole:
    • Myxomatous proliferation of the spongiosa layer within the valve causing focal interruption of the fibrosa layer
    • Excessive stretching of the chordae tendineae, leading to traction on papillary muscles
  • Theoretical explanations for associated chest pain:
    • Focal ischemia from coronary microembolism due to platelet aggregates and fibrin deposits in the angles between the leaflets
    • Coronary artery spasm
  • Mitral regurgitation (MR) may occur in some patients.
  • Age of onset is 10–16 yr
  • Female > male (3:1)
  • Typically benign in young women, whereas men >50 yr tend to have serious sequelae and more often develop severe regurgitation requiring surgical intervention
  • Can be identified by ECG in 2–4% of the general population and in 7% of autopsies
  • A variety of neuroendocrine and autonomic disturbances occur in some patients
  • Genetics:
    • Strong hereditary component
    • Sometimes transmitted as an autosomal dominant trait with varying penetrance
ETIOLOGY
  • Marfan syndrome
  • Relapsing polychondritis
  • Ehlers–Danlos syndrome (i.e., types I, II, IV)
  • Osteogenesis imperfecta
  • Pseudoxanthoma elasticum
  • Stickler syndrome
  • Systemic lupus erythematosus
  • Polyarteritis nodosa
  • Polycystic kidney disease
  • von Willebrand syndrome
  • Duchenne muscular dystrophy
DIAGNOSIS
SIGNS AND SYMPTOMS

Separated into 3 categories:

  • Symptoms related to autonomic dysfunction
  • Symptoms related to the progression of MR
  • Symptoms that occur as a result of an associated complication (i.e., stroke, endocarditis, or arrhythmia)
History
  • Palpitations in up to 40% of cases:
    • Usually ventricular premature beats or paroxysmal supraventricular tachycardia
    • Up to 40% have symptoms of dysautonomia
  • Chest pain occurs in 10%:
    • Sharp, localized, of variable duration, and nonexertional
    • Rarely may respond to nitroglycerin
  • Panic attacks
  • Anxiety
  • Fatigue
  • Depression in up to 70%
  • Nervousness
  • Migraine headaches
  • Irritable bowel
  • Syncope/presyncope:
    • Occurs in 0.9% of patients
  • Orthostasis
  • Dyspnea and fatigue relatively uncommon

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