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Brainstem astrocytes control homeostatic regulation of caloric intake
Courtney Clyburn
, Kaitlin E. Carson
, Caleb R. Smith
, R. Alberto Travagli
,
Kirsteen N. Browning
Penn State Neuroscience Institute
Department of Neuroscience and Experimental Therapeutics
Research output
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Contribution to journal
›
Article
›
peer-review
16
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Keyphrases
High-fat Diet
100%
Brainstem
100%
Caloric Intake
100%
Astrocytes
100%
Dorsal Motor nucleus of the Vagus
100%
Homeostatic Regulation
100%
Hyperphagia
83%
Energy Balance
66%
Dietary Exposure
50%
Gastric Motility
50%
Gastric Tone
50%
Glutamatergic Transmission
50%
Food Intake
33%
Glutamatergic Neurotransmission
33%
Signaling Cascades
33%
Dysregulated
33%
Chemogenetics
33%
Weight Gain
16%
N-methyl-D-aspartate Receptor (NMDAR)
16%
Glutamatergic
16%
Glutamate
16%
Excitability
16%
Brainstem Slices
16%
Slice Preparation
16%
Caloric Balance
16%
Electrophysiological Recordings
16%
Gastric Emptying
16%
Food Intake Regulation
16%
Neuronal Excitability
16%
Gastric Emptying Rate
16%
Energy Regulation
16%
Medicine and Dentistry
Brainstem
100%
Caloric Intake
100%
Astrocyte
100%
High Fat Food
100%
Polyphagia
83%
Energy Balance
66%
Food Intake
50%
Excitability
33%
Stomach Emptying
33%
NMDA Receptor
33%
Stomach Motility
33%
Drive
16%
Adenosine Triphosphate
16%
Glutamic Acid
16%
Slice Preparation
16%
Neuroscience
Brainstem
100%
Astrocyte
100%
Polyphagia
100%
Energy Balance
80%
NMDA Receptor
40%
Glutamic Acid
20%
In Vivo
20%
Excitability
20%
Adenosine Triphosphate
20%
Neuronal Excitability
20%