0071643192.pdf

(Barré) #1

TOXICOLOGY


DIAGNOSIS
■ Clinical diagnosis based on history and examination
■ Lithium levels:
■ Measure 4–6 hours postingestion, follow until clear peak and decline.
■ Peak serum level with large ingestion, especially sustained-release
preparations, may occur >12 hours postingestion.
■ Falsely elevated if placed in a green-top tube (lithium heparin)

TREATMENT
■ Supportive therapy
■ GI decontamination for acute ingestions (ineffective for chronic
ingestions)
■ Lithium does notbind to charcoal.
■ Gastric lavage—if <1 hour and large ingestion.
■ Whole-bowel irrigation
■ Kayexelateadministration has been shown to decrease serum lithium levels
due to lithium’s similarity to K+, but its effect on outcome is uncertain.
■ Hydrationis essential to correct dehydration and increase GFR.
■ Hemodialysis
■ Lithium is effectively removed by hemodialysis (see Table 6.21).
■ Because HD removes lithium only from the plasma, a “rebound
lithium level” may occur. Levels should be checked after HD and
6 hours later.
■ Benzodiazepines for seizures and agitation
■ Avoid
■ Phenytoin:Decreases renal excretion of lithium
■ Forced diuresis or diuretics (not effective)

COMPLICATIONS
■ Hypothyroidism (concentrates in the thyroid)
■ Nephrogenic diabetes insipidus (via blockage of antidiuretic hormone)
■ Increased risk of serotonin syndrome when taken with serotonergic agents

LOCAL ANESTHESTICS

Local anesthetics are typically divided into two classes:
■ Esters: Procaine, tetracaine, benzocaine
■ Amides: Lidocaine, bupivacaine, mepivacaine

TABLE 6.21. Indications for Hemodialysis in Lithium Toxicity

Renal failure

Inability to handle aggressive hydration

Severe CNS toxicity

Level >4.0 mEq/L in acute ingestion

Level >2.5 mEq/L with moderate CNS symptoms in chronic ingestion
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