Developing Criteria for Cortical Resections

The safety and scientific validity of this study is the responsibility of the study sponsor and investigators. Listing a study does not mean it has been evaluated by the U.S. Federal Government. Know the risks and potential benefits of clinical studies and talk to your health care provider before participating. Read our disclaimer for details. Identifier: NCT00152659
Recruitment Status : Recruiting
First Posted : September 9, 2005
Last Update Posted : May 17, 2016
Information provided by (Responsible Party):
University of Chicago

No Study Results Posted on for this Study
  Recruitment Status : Recruiting
  Estimated Primary Completion Date : December 2030
  Study Completion Date : No date given
Ramirez J-M, Koch H, Pena F, Drongelen W van, Tryba AK, Parkis MA, Loweth JA, Hecox KE, Kohrman MH, Frim DM, Chico MS, Marcuccilli CJ (2003) - In vitro electrophysiological differences between least and most abnormal tissue obtained from pediatric patients with intractable epilepsy. Epilepsia 44, Suppl 9: 245-246
Marcuccilli CJ, Koch H, Pena F, Drongelen W van, Tryba AK, Parkis MA, Hecox KE, Kohrman MH, Frim DM, OConnor SE, Chico MS, Ramirez J-M (2003) - Rational pharmacotherapy: relationship between in vitro electrophysiology and clinical measures. Epilepsia 44, Suppl 9: 244-245
Drongelen W van, Koch H, Marcuccilli CJ, Viemari J, Tryba AKH, Loweth JA, Ramirez J-M, Elsen F (2004) - Persistent sodium current plays a critical role in the generation of slow oscillations in vitro neocortex brain slices of mice and humans. Abstract Soc Neuroscience
Drongelen W van, Doren EL, Koch H, Marcuccilli CJ, Ramirez J-M, Elsen FP (2005) - Characterization of the persistent sodium current in neocortical networks of mice and humans. Abstract Washington DC: Society for Neuroscience