Phys.org on MSN: Optimal brain processing requires balance between excitatory and inhibitory neurons, study suggests
Optimal brain processing requires balance between excitatory and inhibitory neurons, study suggests
Phys.org: Optimal brain processing requires balance between excitatory and inhibitory neurons, study suggests
Brain function is based on a delicate balance of excitatory processes (which make brain cells fire) and inhibitory processes (which stop brain cells firing) -- this is known as the E-I balance.
Brain function, much like many other areas of life, is all about balance. Excitatory neurons that increase the activity of connected neurons are balanced by inhibitory neurons that dampen this ...
Using a mouse model, researchers have discovered a new daily rhythm in a type of synapse that dampens brain activity. Known as inhibitory synapses, these neural connections are rebalanced so that we ...
Science Daily: First insights into how excitatory and inhibitory brain signals change as people age using wearable scanner
First insights into how excitatory and inhibitory brain signals change as people age using wearable scanner
News Medical: Study provides insight into how sleep and wakefulness regulate inhibitory synapses
Science Daily: The power of neighbors: Neighboring synapses shape learning and memory
Medical Xpress on MSN: Newly discovered neural connections in fruit flies reveal that inhibitory neurons can also drive movement
Newly discovered neural connections in fruit flies reveal that inhibitory neurons can also drive movement
New research reveals how a class of neurons that help coordinate communication in the brain link up with their target cells, identifying two molecules that must be present before synapses, the ...
Edhat: Newly Discovered Neural Connections Reveal That Inhibitory Neurons Can Also Drive Movement