| Contributing Authors | p. xi |
| Foreword | p. xv |
| Preface | p. xvii |
| What Should Be Modeled? | p. 1 |
| In Vitro Preparations | |
| Single Nerve Cells Acutely Dissociated from Animal and Human Brains for Studies of Epilepsy | p. 15 |
| Cell Culture Models for Studying Epilepsy | p. 23 |
| An Overview of In Vitro Seizure Models in Acute and Organotypic Slices | p. 35 |
| The Use of Brain Slice Cultures for the Study of Epilepsy | p. 45 |
| Hippocampal Slices: Designing and Interpreting Studies in Epilepsy Research | p. 59 |
| Thalamic, Thalamocortical and Corticocortical Models of Epilepsy with an Emphasis on Absence Seizures | p. 73 |
| Studying Epilepsy in the Human Brain In Vitro | p. 89 |
| In Vitro Isolated Guinea Pig Brain | p. 103 |
| Induced Seizures in Intact Animals | |
| Pharmacologic Models of Generalized Absence Seizures in Rodents | p. 111 |
| Models of Chemically-Induced Acute Seizures | p. 127 |
| Electrical Stimulation-Induced Models of Seizures | p. 153 |
| Alcohol Withdrawl Seizures | p. 161 |
| Alumina Gel Injection Models of Epilepsy in Monkeys | p. 179 |
| Genetic Models | |
| Modeling Epilepsy and Seizures in Developing Zebrafish Larvae | p. 189 |
| Transgenic and Gene Replacement Models of Epilepsy: Targeting Ion Channel and Neurotransmission Pathways in Mice | p. 199 |
| Spontaneous Epileptic Mutations in the Mouse | p. 223 |
| Genetic Models of Absence Epilepsy in the Rat | p. 233 |
| Models with Spontaneous Seizures and Developmental Disruption of Genetic Etiology | p. 249 |
| Mammalian Models of Genetic Epilepsy Characterized by Sensory-Evoked Seizures and Generalized Seizure Susceptibility | p. 261 |
| Inherited Epilepsy in Mongolian Gerbils | p. 273 |
| Acquired Focal Models | |
| The Cortical Freeze Lesion Model | p. 295 |
| MAM and Other "Lesion" Models of Developmental Epilepsy | p. 305 |
| In Utero Irradiation as a Model of Cortical Dysplasia | p. 315 |
| Modeling Hypoxia-Induced Seizures and Hypoxic Encephalopathy in the Neonatal Period | p. 323 |
| Complex Febrile Seizures-An Experimental Model in Immature Rodents | p. 333 |
| Repetitive Seizures in the Immature Brain | p. 341 |
| The Kindling Phenomenon | p. 351 |
| Kindling Kittens and Cats | p. 365 |
| Electrical Kindling in Developing Rats | p. 371 |
| Chemical Kindling | p. 379 |
| Kindling, Spontaneous Seizures, and the Consequences of Epilepsy: More than a Model | p. 395 |
| Tetanus Toxin Model of Focal Epilepsy | p. 407 |
| Kainate-Induced Status Epilepticus: a Chronic Model of Acquired Epilepsy | p. 415 |
| The Pilocarpine Model of Seizures | p. 433 |
| Status Epilepticus: Electrical Stimulation Models | p. 449 |
| Posttraumatic Epilepsy Induced by Lateral Fluid-Percussion Brain Injury in Rats | p. 465 |
| Chronic Partial Cortical Isolation | p. 477 |
| Head Trauma: Hemorrhage-Iron Deposition | p. 495 |
| Stroke | p. 501 |
| Models Available for Infection-Induced Seizures | p. 521 |
| Brain Tumour and Epilepsy: A New Neurophysiologic and Neuropathologic Ex Vivo In Vitro Model | p. 527 |
| An Animal Model of Rasmussen's Encephalitis | p. 535 |
| Models Used for Pharmacological Assessment | |
| Therapeutic Assays for the Identification and Characterization of Antiepileptic and Antiepileptogenic Drugs | p. 539 |
| Animal Models of Drug-Refractory Epilepsy | p. 551 |
| Technical Approaches for Model Characterization | |
| Monitoring for Seizures in Rodents | p. 569 |
| Imaging Approaches in Small Animal Models | p. 583 |
| Behavioral Characterization of Seizures in Rats | p. 601 |
| Behavioral and Cognitive Testing Procedures in Animal Models of Epilepsy | p. 613 |
| Morphologic Approaches to the Characterization of Epilepsy Models | p. 629 |
| Important Questions | |
| Animal Model Development Based on the Human Epilepsies: Which Causes and Syndromes Should Be Modeled? | p. 653 |
| What Good are Animal Models? | p. 659 |
| Index | p. 669 |
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