TOXICOLOGY
COMPLICATIONS
■ Delayed or persistent neurocognitive deficits on neuropsychiatric testing.
■ HBO therapy may prevent the development of these effects but studies
are not conclusive.
A 25-year-old male is brought to the ED after being found unresponsive
inside a burning house. He was intubated by EMS en route. On arrival he
is hypotensive, comatose, and markedly tachypnic. There is no evidence of
trauma or skin/airway burns. ABG reveals a severe metabolic acidosis and a nor-
mal measured PaO 2. What is the most appropriate next step?
This patient should be presumed to have a combined CO and cyanide (CN)
poisoning based on his hemodynamic instability and coma. Initial treatment of
CO poisoning consists of O 2 therapy, which has already been initiated. The next
most appropriate step, therefore, is administration of either hydroxycobolamin
or sodium thiosulfate for treatment of CN poisoning. In the smoke inhalation vic-
tim, administration of nitrites is not recommended, as a nitrite-induced methe-
moglobinemia will further decrease tissue O 2 delivery in the CO-poisoned
patient. If the COHb level is low on co-oximetry, nitrites may be initiated.
Cyanide
Cyanide (CN) is a rapid-acting, highly toxic poison found in a wide variety of
chemicals. Poisoning is rare in the United States as few household products
contain CN.
Sources of CN include:
■ Combustion of plastics, synthetic fibers, or wool
■ House fires (smoke inhalation) represent the most likely source of
exposure.
■ Prolonged infusion of nitroprusside
■ Industry, including mining, plastics manufacturing, welding, fumigation,
chemical synthesis, and research
■ The pits and seeds of certain fruits (apricots, bitter almonds) contain a
compound amygdalin, which releases CN in vivo during its metabolism.
TABLE 6.20. Indications for HBO Treatment of CO Poisoning
Any history of syncope
Evidence of major end-organ damage
Persistent neurologic symptoms
Pregnancy
COHb level > 20—25%