Increased cortical extracellular adenosine correlates with seizure termination

Jamie J. Van Gompel, Mark R. Bower, Gregory A. Worrell, Matt Stead, Su Youne Chang, Stephan J. Goerss, Inyong Kim, Kevin E. Bennet, Fredric B. Meyer, W. Richard Marsh, Charles D. Blaha, Kendall H. Lee

Research output: Contribution to journalArticlepeer-review

55 Scopus citations


Objective Seizures are currently defined by their electrographic features. However, neuronal networks are intrinsically dependent on neurotransmitters of which little is known regarding their periictal dynamics. Evidence supports adenosine as having a prominent role in seizure termination, as its administration can terminate and reduce seizures in animal models. Furthermore, microdialysis studies in humans suggest that adenosine is elevated periictally, but the relationship to the seizure is obscured by its temporal measurement limitations. Because electrochemical techniques can provide vastly superior temporal resolution, we test the hypothesis that extracellular adenosine concentrations rise during seizure termination in an animal model and humans using electrochemistry. Methods White farm swine (n = 45) were used in an acute cortical model of epilepsy, and 10 human epilepsy patients were studied during intraoperative electrocorticography (ECoG). Wireless Instantaneous Neurotransmitter Concentration Sensor (WINCS)-based fast scan cyclic voltammetry (FSCV) and fixed potential amperometry were obtained utilizing an adenosine-specific triangular waveform or biosensors, respectively. Results Simultaneous ECoG and electrochemistry demonstrated an average adenosine increase of 260% compared to baseline, at 7.5 ± 16.9 s with amperometry (n = 75 events) and 2.6 ± 11.2 s with FSCV (n = 15 events) prior to electrographic seizure termination. In agreement with these animal data, adenosine elevation prior to seizure termination in a human patient utilizing FSCV was also seen. Significance Simultaneous ECoG and electrochemical recording supports the hypothesis that adenosine rises prior to seizure termination, suggesting that adenosine itself may be responsible for seizure termination. Future work using intraoperative WINCS-based FSCV recording may help to elucidate the precise relationship between adenosine and seizure termination.

Original languageEnglish (US)
Pages (from-to)233-244
Number of pages12
Issue number2
StatePublished - Feb 2014


  • Adenosine
  • Amperometry
  • Electrochemistry
  • Epilepsy
  • Fast scan cyclic voltammetry
  • Human trial
  • Large animal model
  • Purine
  • Seizure

ASJC Scopus subject areas

  • Neurology
  • Clinical Neurology


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