An understanding of mechanisms underlying seizure disorders depends critically on the insights provided by model systems. In particular with the development of cellular, molecular, and genetic investigative tools, there has been an explosion of basic epilepsy research. Models of Seizures and Epilepsy brings together, for the first time in 30 years, an overview of the most widely-used models of seizures and epilepsy. Chapters cover a broad range of experimental approaches (from in vitro to whole animal preparations), a variety of epileptiform phemelogy (including burst discharges and seizures), and suggestions for model characterization and validation, such as electrographic, morphologic, pharmacologic, and behavioral features. Experts in the field provide t only technical reviews of these models but also conceptual critiques - commenting on the strengths and limitations of these models, their relationship to clinical phemelogy, and their value in developing a better understanding and treatments. Models of Seizures and Epilepsy is a valuable, practical reference for investigators who are searching for the most appropriate laboratory models for addressing key questions in the field. It also provides an important background for physicians, fellows, and students, offering insight into the potential for advances in epilepsy research.
Dr. Moshe is a professor of neurology, neuroscience, and pediatrics at Albert Einstein College of Medicine. He is the Director of Child Neurology and Clinical Neurophysiology and the recipient of a Martin A. and Emily L. Fisher fellowship in Neurology and Pediatrics at Albert Einstein. Dr. Moshe received his M.D. from the National University of Athens School of Medicine, Athens, Greece in 1972. He trained in pediatrics at the University of Maryland and in neurology at Albert Einstein. Since 1979, his research has focused on understanding the mechanisms underlying age-related differences in epilepsy in humans and in animal models. During the last ten years, his interest has turned to elucidating the subcortical circuitry involved in the control of seizures as a function of age and the consequences of seizures on the developing brain.
Elsevier Science Publishing Co Inc
Date of Publication
Clinical Medicine: Professional
Place of Publication
Country of Publication
Academic Press Inc
Asla Pitkanen, Philip A. Schwartzkroin, Solomon L. Moshe