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Microfluidic systems for studying neurotransmitters and neurotransmission
Callie A. Croushore
,
Jonathan V. Sweedler
Chemistry
Carl R. Woese Institute for Genomic Biology
Beckman Institute for Advanced Science and Technology
Bioengineering
Molecular and Integrative Physiology
Center for Advanced Study
Biomedical and Translational Sciences
Neuroscience Program
Research output
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Keyphrases
Neurotransmitters
100%
Microfluidic System
100%
Cell Signaling
100%
Signaling Molecules
100%
Neurotransmission
100%
Small Molecules
50%
Amino Acids
50%
Microfluidic Device
50%
Precision Control
50%
Microfluidic Technique
50%
Extracellular Environment
50%
Culture in Vitro
50%
Diatomic Gas
50%
Nervous System
50%
Cell Signaling Molecules
50%
Physical Nature
50%
Cell Culture Conditions
50%
Cell-cell Communication
50%
Chemical Stimulation
50%
Neuromodulators
50%
Neural Regeneration
50%
System Control
50%
Neural Network Formation
50%
Neural Injury
50%
Damaged Network
50%
Functional Processes
50%
Physiological Response
50%
Chemical Nature
50%
Volume System
50%
Neural Network Function
50%
Reduced Volume
50%
Chemical Messengers
50%
Neuroscience
Neurotransmitter
100%
Cell Signaling
100%
Synaptic Transmission
100%
Behavior (Neuroscience)
50%
Amino Acid
50%
In Vitro
50%
In Vivo
50%
Cell Culture
50%
Nervous System
50%
Neural Network
50%
Cell Communication
50%
Biochemistry, Genetics and Molecular Biology
Signal Transduction
100%
Neurotransmitter
100%
Synaptic Transmission
100%
Amino Acids
50%
Nerve Cell Culture
50%
Small Molecule
50%
Cell Culture
50%
Coculture
50%
Cell Communication
50%
Pharmacology, Toxicology and Pharmaceutical Science
Neurotransmitter
100%
Amino Acid
50%
Cell Culture
50%
Nervous System Injury
50%
Medicine and Dentistry
Neurotransmitter
100%