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Independent neuronal oscillators of the rat globus pallidus
Ian M. Stanford
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Corresponding author for this work
Aston Pharmacy School
Aston Institute of Health & Neurodevelopment
College of Health and Life Sciences
Aston Research Centre for Health in Ageing
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Keyphrases
Globus Pallidus
100%
Neural Oscillator
100%
Rebound Depolarization
40%
Subthalamic nucleus
40%
Dopamine
20%
Parkinson's Disease
20%
Frequency Response
20%
Phase Delay
20%
Fire Behavior
20%
Membrane Oscillation
20%
Neuronal Network
20%
Phase Variable
20%
Action Potential Firing
20%
Inhibitory Postsynaptic Potential
20%
Voltage Dependence
20%
Bicuculline
20%
Ejection
20%
GABAA Antagonist
20%
Phase Locking
20%
GABAA
20%
Pathological Disorders
20%
Subthreshold
20%
Intrinsic Oscillations
20%
Glutamate
20%
Tonic Activity
20%
Sodium-dependent
20%
Depolarization Potential
20%
Neuroscience
Globus pallidus
100%
Subthalamic Nucleus
40%
In Vitro
20%
In Vivo
20%
Parkinson's Disease
20%
Glutamic Acid
20%
Inhibitory Postsynaptic Potential
20%
Bicuculline
20%
Gamma-Aminobutyric Acid
20%
Action Potential
20%
Biochemistry, Genetics and Molecular Biology
Rebound
100%
Electric Potential
33%
Glutamic Acid
33%
Inhibitory Postsynaptic Potential
33%
Gamma-Aminobutyric Acid
33%
Action Potential
33%
Bicuculline
33%