The mechanisms behind memory have been studied mainly in artificial neural networks. Several mechanisms have been proposed, but it remains unclear yet if and how these findings can be translated to biological networks. Here we unravel part of the mechanism by showing that cultured neuronal networks develop an activity connectivity balance. External inputs disturb this balance and induce connectivity changes. The new connectivity is no longer disrupted by reapplication of the input, indicating that a network memorizes the input, analog to attractor memory networks as demonstrated in Hopfield network models. A different input again induces connectivity changes upon first application but not after repeated stimulation. Returning to the first i...
The growth of civilization stems from our collective ability to encode, store and retrieve more fact...
The persistent and graded activity often observed in cortical circuits is sometimes seen as a signat...
Despite significant progress in our understanding of the brain at both microscopic and macroscopic s...
The mechanism behind memory is one of the mysteries in neuroscience. Here we unravel part of the mec...
During systems consolidation, memories are spontaneously replayed favoring information transfer from...
SummaryThe ability to associate some stimuli while differentiating between others is an essential ch...
The ability to associate some stimuli while differentiating between others is an essential character...
Learning, or more generally, plasticity may be studied using cultured neuronal networks on multi ele...
Learning, or more generally, plasticity may be studied using cultured networks of rat cortical neuro...
Learning, or more generally, plasticity may be studied using cultured networks of rat cortical neuro...
Our brain has the capacity to analyze a visual scene in a split second, to learn how to play an inst...
Collective rhythmic dynamics from neurons is vital for cognitive functions such as memory formation ...
Learning, or more generally, plasticity may be studied using cultured neuronal networks on multi ele...
Plasticity is usually classified into two distinct categories: Hebbian or homeostatic. Hebbian is dr...
Cellular level learning is vital to almost all brain function, and extensive homeostatic plasticity ...
The growth of civilization stems from our collective ability to encode, store and retrieve more fact...
The persistent and graded activity often observed in cortical circuits is sometimes seen as a signat...
Despite significant progress in our understanding of the brain at both microscopic and macroscopic s...
The mechanism behind memory is one of the mysteries in neuroscience. Here we unravel part of the mec...
During systems consolidation, memories are spontaneously replayed favoring information transfer from...
SummaryThe ability to associate some stimuli while differentiating between others is an essential ch...
The ability to associate some stimuli while differentiating between others is an essential character...
Learning, or more generally, plasticity may be studied using cultured neuronal networks on multi ele...
Learning, or more generally, plasticity may be studied using cultured networks of rat cortical neuro...
Learning, or more generally, plasticity may be studied using cultured networks of rat cortical neuro...
Our brain has the capacity to analyze a visual scene in a split second, to learn how to play an inst...
Collective rhythmic dynamics from neurons is vital for cognitive functions such as memory formation ...
Learning, or more generally, plasticity may be studied using cultured neuronal networks on multi ele...
Plasticity is usually classified into two distinct categories: Hebbian or homeostatic. Hebbian is dr...
Cellular level learning is vital to almost all brain function, and extensive homeostatic plasticity ...
The growth of civilization stems from our collective ability to encode, store and retrieve more fact...
The persistent and graded activity often observed in cortical circuits is sometimes seen as a signat...
Despite significant progress in our understanding of the brain at both microscopic and macroscopic s...