Neuromuscular blocking drugs, which include depolarizing and nondepolarizing drugs, are used to facilitate intubation and provide skeletal muscle relaxation during surgery and in the intensive care unit. The agents differ in their mechanism, duration of action, side-effect profile, and metabolism. Succinylcholine is the only depolarizing agent in clinic use and is typically used for emergent control of the airway, rapid sequence intubations, and short surgical procedures. The risk of hyperkalemia in certain clinical conditions and risk of malignant hyperthermia in susceptible individuals limit the use of succinylcholine in specific patient populations. Nondepolarizing agents vary in their duration of action, but all provide muscle relaxation for a longer duration than succinylcholine. Clinical effects of neuromuscular blocking drugs can be assessed with neuromuscular monitoring, although there is significant variability among providers in the regular use of neuromuscular monitoring. Reversal agents are used to restore neuromuscular transmission, as residual neuromuscular blockade after extubation has been associated with multiple adverse events, including hypoxemia, atelectasis, and aspiration. Sugammadex is an encapsulating agent capable of immediately reversing the effects of rocuronium-induced neuromuscular blockade that will likely impact the way many providers administer rocuronium and may decrease the future use of succinylcholine.
This review contains 4 figures, 6 tables, and 41 references.
Keywords: hyperkalemia, neuromuscular monitoring, neuromuscular transmission, nondepolarizing neuromuscular blocking agents, residual neuromuscular blockade, reversal agents, succinylcholine sugammadex, sugammadex