Astrocytes and epilepsy / Jacqueline A. Hubbard and Devin K. Binder, Center for Glial-Neuronal Interactions, Division of Biomedical Sciences, School of Medicine, University of California, Riverside, CA, USA.

By: Contributor(s): Material type: TextTextPublisher: Amsterdam : Elsevier/AP, Academic Press is an imprint of Elsevier [2016]Description: xii, 381 pages : illustrations (chiefly color), portraits ; 25 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 9780128024010
Subject(s): DDC classification:
  • 612.81046 22
LOC classification:
  • QP363.2 .H83 2016
NLM classification:
  • 2016 I-198
  • WL 385
Contents:
History of astrocytes -- Astrocytes in the mammalian brain -- Gliotransmitters -- Types of epilepsy -- Neuropathology of human epilepsy -- Astrocyte calcium signaling -- Potassium channels -- Water channels -- Glutamate metabolism -- Adenosine metabolism -- Gap junctions -- Blood-brain barrier disruption -- Inflammation -- Therapeutic targets and future directions.
Summary: "Epilepsy is a devastating group of neurological disorders characterized by periodic and unpredictable seizure activity in the brain. There is a critical need for new drugs and approaches given than at least one-third of all epilepsy patients are not freed of seizures by existing medications and become "medically refractory." Much of epilepsy research has focused on neuronal therapeutic targets, but current antiepileptic drugs often cause severe cognitive, developmental, and behavioral side effects."-- Page 4 of cover.
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Item type Current library Collection Call number Status Date due Barcode
Books Books Tan Tao University General Stacks Non-fiction 612.81046 (Browse shelf(Opens below)) Available AS-2022-0049

"Elsevier science & technology books."

Includes bibliographical references and index.

History of astrocytes -- Astrocytes in the mammalian brain -- Gliotransmitters -- Types of epilepsy -- Neuropathology of human epilepsy -- Astrocyte calcium signaling -- Potassium channels -- Water channels -- Glutamate metabolism -- Adenosine metabolism -- Gap junctions -- Blood-brain barrier disruption -- Inflammation -- Therapeutic targets and future directions.

"Epilepsy is a devastating group of neurological disorders characterized by periodic and unpredictable seizure activity in the brain. There is a critical need for new drugs and approaches given than at least one-third of all epilepsy patients are not freed of seizures by existing medications and become "medically refractory." Much of epilepsy research has focused on neuronal therapeutic targets, but current antiepileptic drugs often cause severe cognitive, developmental, and behavioral side effects."-- Page 4 of cover.

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