Inactivation of sodium channels underlies reversible neuropathy during critical illness in rats
Kevin R. Novak, … , Jaffar Khan, Mark M. Rich
Kevin R. Novak, … , Jaffar Khan, Mark M. Rich
Published April 1, 2009
Citation Information: J Clin Invest. 2009;119(5):1150-1158. https://doi.org/10.1172/JCI36570.
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Research Article Neuroscience

Inactivation of sodium channels underlies reversible neuropathy during critical illness in rats

Abstract

Neuropathy and myopathy can cause weakness during critical illness. To determine whether reduced excitability of peripheral nerves, rather than degeneration, is the mechanism underlying acute neuropathy in critically ill patients, we prospectively followed patients during the acute phase of critical illness and early recovery and assessed nerve conduction. During the period of early recovery from critical illness, patients recovered from neuropathy within days. This rapidly reversible neuropathy has not to our knowledge been previously described in critically ill patients and may be a novel type of neuropathy. In vivo intracellular recordings from dorsal root axons in septic rats revealed reduced action potential amplitude, demonstrating that reduced excitability of nerve was the mechanism underlying neuropathy. When action potentials were triggered by hyperpolarizing pulses, their amplitudes largely recovered, indicating that inactivation of sodium channels was an important contributor to reduced excitability. There was no depolarization of axon resting potential in septic rats, which ruled out a contribution of resting potential to the increased inactivation of sodium channels. Our data suggest that a hyperpolarized shift in the voltage dependence of sodium channel inactivation causes increased sodium inactivation and reduced excitability. Acquired sodium channelopathy may be the mechanism underlying acute neuropathy in critically ill patients.

Authors

Kevin R. Novak, Paul Nardelli, Tim C. Cope, Gregory Filatov, Jonathan D. Glass, Jaffar Khan, Mark M. Rich

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Figure 1

Rats develop reversible neuropathy following induction of sepsis.

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Rats develop reversible neuropathy following induction of sepsis. (A) Ex...
(A) Example of 3 tail nerve responses before and 3 days after cecal ligation and puncture to induce sepsis. There is a range of responses in the 3 rats. In rat 1, there was a 70% drop in amplitude and a substantial prolongation of distal latency. In rat 2, there was a 20% drop in amplitude and moderate prolongation of distal latency and duration. In rat 3, there was little effect on amplitude, but distal latency and duration were prolonged. (B) Paired scatter plot of tail nerve response amplitude before and after 3 days of sepsis for each of 29 rats (P < 0.01, paired Student’s t test). (C) An example of the tail nerve response in a rat before, during, and after recovery from sepsis. The amplitude is reduced by 20% days 2 and 3 following cecal ligation and puncture but recovers by day 7. The dotted line is placed to aid in comparison of amplitudes. (D) A plot of the normalized average tail nerve response prior to cecal ligation and puncture (CLP), 2, 3, and 7 days later demonstrates the recovery of nerve amplitude as the rats (n = 8) recovered from sepsis. At day 2, the reduction in tail nerve amplitude is statistically significant relative to both the baseline and post-recovery amplitude (P < 0.01 for both). Data are presented as mean ± SEM.