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Full-Text Articles in Neurology
Emerging Cellular And Molecular Strategies For Enhancing Central Nervous System (Cns) Remyelination., Mohammad Abu-Rub, Robert H Miller
Emerging Cellular And Molecular Strategies For Enhancing Central Nervous System (Cns) Remyelination., Mohammad Abu-Rub, Robert H Miller
Anatomy and Regenerative Biology Faculty Publications
Myelination is critical for the normal functioning of the central nervous system (CNS) in vertebrates. Conditions in which the development of myelin is perturbed result in severely compromised individuals often with shorter lifespans, while loss of myelin in the adult results in a variety of functional deficits. Although some form of spontaneous remyelination often takes place, the repair process as a whole often fails. Several lines of evidence suggest it is feasible to develop strategies that enhance the capacity of the CNS to undergo remyelination and potentially reverse functional deficits. Such strategies include cellular therapies using either neural or mesenchymal …
Amygdala Corticofugal Input Shapes Mitral Cell Responses In The Accessory Olfactory Bulb, Livio Oboti, Eleonora Russo, Tuyen Tran, Daniel Durstewitz, Joshua G. Corbin
Amygdala Corticofugal Input Shapes Mitral Cell Responses In The Accessory Olfactory Bulb, Livio Oboti, Eleonora Russo, Tuyen Tran, Daniel Durstewitz, Joshua G. Corbin
Pediatrics Faculty Publications
Interconnections between the olfactory bulb and the amygdala are a major pathway for triggering strong behavioral responses to a variety of odorants. However, while this broad mapping has been established, the patterns of amygdala feedback connectivity and the influence on olfactory circuitry remain unknown. Here, using a combination of neuronal tracing approaches, we dissect the connectivity of a cortical amygdala [posteromedial cortical nucleus (PmCo)] feedback circuit innervating the mouse accessory olfactory bulb. Optogenetic activation of PmCo feedback mainly results in feedforward mitral cell (MC) inhibition through direct excitation of GABAergic granule cells. In addition, LED-driven activity of corticofugal afferents increases …
Neurotransmitter, Spring 2018, George Washington Institute For Neuroscience Neurological Institute, George Washington University Hospital
Neurotransmitter, Spring 2018, George Washington Institute For Neuroscience Neurological Institute, George Washington University Hospital
Neurotransmitter
No abstract provided.
Why West? Comparisons Of Clinical, Genetic And Molecular Features Of Infants With And Without Spasms., Anne T Berg, Samya Chakravorty, Sookyong Koh, Zachary M Grinspan, Renée A Shellhaas, William D Gaillard, +Several Additional Authors
Why West? Comparisons Of Clinical, Genetic And Molecular Features Of Infants With And Without Spasms., Anne T Berg, Samya Chakravorty, Sookyong Koh, Zachary M Grinspan, Renée A Shellhaas, William D Gaillard, +Several Additional Authors
Neurology Faculty Publications
Infantile spasms are the defining seizures of West syndrome, a severe form of early life epilepsy with poorly-understood pathophysiology. We present a novel comparative analysis of infants with spasms versus other seizure-types and identify clinical, etiological, and molecular-genetic factors preferentially predisposing to spasms. We compared ages, clinical etiologies, and associated-genes between spasms and non-spasms groups in a multicenter cohort of 509 infants (