Lipid resuscitation: a life-saving antidote for local anesthetic toxicity.


Journal article


S. Bern, B. Akpa, I. Kuo, G. Weinberg
Current pharmaceutical biotechnology, 2011

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APA   Click to copy
Bern, S., Akpa, B., Kuo, I., & Weinberg, G. (2011). Lipid resuscitation: a life-saving antidote for local anesthetic toxicity. Current Pharmaceutical Biotechnology.


Chicago/Turabian   Click to copy
Bern, S., B. Akpa, I. Kuo, and G. Weinberg. “Lipid Resuscitation: a Life-Saving Antidote for Local Anesthetic Toxicity.” Current pharmaceutical biotechnology (2011).


MLA   Click to copy
Bern, S., et al. “Lipid Resuscitation: a Life-Saving Antidote for Local Anesthetic Toxicity.” Current Pharmaceutical Biotechnology, 2011.


BibTeX   Click to copy

@article{s2011a,
  title = {Lipid resuscitation: a life-saving antidote for local anesthetic toxicity.},
  year = {2011},
  journal = {Current pharmaceutical biotechnology},
  author = {Bern, S. and Akpa, B. and Kuo, I. and Weinberg, G.}
}

Abstract

Local anesthetic toxicity is a rare, but potentially lethal, complication of regional anesthesia that cannot be prevented by any single measure. It is associated with CNS excitation and can lead to refractory cardiac dysfunction and collapse. The development of lipid emulsion for the treatment of anesthetic-induced toxicity resulted from a set of observations during a study on the potent, lipophilic drug bupivacaine and its associated clinical risk of intransigent cardiac toxicity in otherwise healthy individuals. Subsequent laboratory studies and clinical reports have shown that infusion of lipid can reliably reverse toxicity from potent local anesthetics as well as other drugs. The underlying mechanisms of lipid resuscitation may be a combination of a 'lipid sink' and metabolic effect. Lipid rescue has led to a reduction in fatalities associated with severe systemic toxicity, but continued research is necessary for a better mechanistic understanding. Increased physician awareness and education, as well as optimized treatment protocols, will significantly reduce the rate of morbidity and mortality from local anesthetic toxicity.


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