Add to ORKGHomeostatic scaling of synaptic strengths is essential for maintenance of network ‘‘gain’’, but also poses a risk of losing the distinctions among relative synaptic weights, which are possibly cellular correlates of memory storage. Multiplicative scaling of all synapses has been proposed as a mechanism that would preserve the relative weights among them, because they would all be proportionately adjusted. It is crucial for this hypothesis that all synapses be affected identically, but whether or not this actually occurs is difficult to determine directly. Mathematical tests for multiplicative synaptic scaling are presently carried out on distributions of miniature synaptic current amplitudes, but the accuracy of the test procedure has not b...
<p>(A) Synaptic input current as a function of the number of columns. Shown are the averaged values ...
Chronic changes in the level of neuronal activity (over a period of days) trigger compensatory chang...
<p>(<b>A</b>) Cumulative distribution of synaptic sizes all belonging to a single neuron, before (bl...
<div><p>Homeostatic scaling of synaptic strengths is essential for maintenance of network “gain”, bu...
Neurons can respond to decreased network activity with a homeostatic increase in the amplitudes of m...
Synaptic plasticity, the ability of neurons to modulate their inputs in response to changing stimuli...
The idea that the nervous system maintains a set point of network activity and homeostatically retur...
Abstract:- In this paper we study the mathematical foundations of the phenomenon of multiplicative s...
Mechanisms of homeostatic plasticity promote compensatory changes of cellular excitability in respon...
Homeostatic plasticity can globally scale the strength of all synapses on a neuron, but whether a si...
SummaryHomeostatic synaptic scaling adjusts a neuron's excitatory synaptic strengths up or down to c...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
textAbstract The synaptic input received by neurons in cortical circuits is in constant flux. From b...
Homeostatic synaptic scaling is a form of synaptic plasticity that adjusts the strength of all of a ...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
<p>(A) Synaptic input current as a function of the number of columns. Shown are the averaged values ...
Chronic changes in the level of neuronal activity (over a period of days) trigger compensatory chang...
<p>(<b>A</b>) Cumulative distribution of synaptic sizes all belonging to a single neuron, before (bl...
<div><p>Homeostatic scaling of synaptic strengths is essential for maintenance of network “gain”, bu...
Neurons can respond to decreased network activity with a homeostatic increase in the amplitudes of m...
Synaptic plasticity, the ability of neurons to modulate their inputs in response to changing stimuli...
The idea that the nervous system maintains a set point of network activity and homeostatically retur...
Abstract:- In this paper we study the mathematical foundations of the phenomenon of multiplicative s...
Mechanisms of homeostatic plasticity promote compensatory changes of cellular excitability in respon...
Homeostatic plasticity can globally scale the strength of all synapses on a neuron, but whether a si...
SummaryHomeostatic synaptic scaling adjusts a neuron's excitatory synaptic strengths up or down to c...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
textAbstract The synaptic input received by neurons in cortical circuits is in constant flux. From b...
Homeostatic synaptic scaling is a form of synaptic plasticity that adjusts the strength of all of a ...
The ability of neurons and circuits to maintain their excitability and activity levels within the ap...
<p>(A) Synaptic input current as a function of the number of columns. Shown are the averaged values ...
Chronic changes in the level of neuronal activity (over a period of days) trigger compensatory chang...
<p>(<b>A</b>) Cumulative distribution of synaptic sizes all belonging to a single neuron, before (bl...