International audienceDuring early development, waves of activity propagate across the retina and play a key role in the proper wiring of the early visual system. During a particular phase of the retina development (stage II) these waves are triggered by a transient network of neurons, called Starburst Amacrine Cells (SACs), showing a bursting activity which disappears upon further maturation. The underlying mechanisms of the spontaneous bursting and the transient excitability of immature SACs are not completely clear yet. While several models have attempted to reproduce retinal waves, none of them is able to mimic the rhythmic autonomous bursting of individual SACs and reveal how these cells change their intrinsic properties during develop...
A novel, biophysically realistic model for early-stage, acetylcholine-mediated retinal waves is pres...
International audienceIn the early retina, spontaneous collective network activity emerges as propag...
Spontaneous activity is a hallmark of developing neural systems. In the retina, spontaneous activity...
International audienceDuring early development, waves of activity propagate across the retina and pl...
25 pages, 15 figures, submittedInternational audienceDuring early development, waves of activity pro...
International audienceRetinal waves are spontaneous bursts of activity propagating in the developpin...
The intricate patterning and complex circuitry of the nervous system beg the question of how such pr...
The development of neural circuits is perhaps one of the most fascinating phenomena of nature. Neura...
International audienceRetinal waves are bursts of activity occurring spontaneously in the developing...
International audienceRetinal waves are bursts of activity occurring spontaneously in the developing...
International audienceRetinal waves are bursts of activity occurring spontaneously in the developing...
International audienceRetinal waves are spontaneous bursting activity propagating in the developping...
International audienceRetinal waves are spontaneous bursting activity propagating in the developping...
A neural model is described of how spontaneous retinal waves are formed in infant mammals, and how t...
A novel, biophysically realistic model for early-stage, acetylcholine-mediated retinal waves is pres...
International audienceIn the early retina, spontaneous collective network activity emerges as propag...
Spontaneous activity is a hallmark of developing neural systems. In the retina, spontaneous activity...
International audienceDuring early development, waves of activity propagate across the retina and pl...
25 pages, 15 figures, submittedInternational audienceDuring early development, waves of activity pro...
International audienceRetinal waves are spontaneous bursts of activity propagating in the developpin...
The intricate patterning and complex circuitry of the nervous system beg the question of how such pr...
The development of neural circuits is perhaps one of the most fascinating phenomena of nature. Neura...
International audienceRetinal waves are bursts of activity occurring spontaneously in the developing...
International audienceRetinal waves are bursts of activity occurring spontaneously in the developing...
International audienceRetinal waves are bursts of activity occurring spontaneously in the developing...
International audienceRetinal waves are spontaneous bursting activity propagating in the developping...
International audienceRetinal waves are spontaneous bursting activity propagating in the developping...
A neural model is described of how spontaneous retinal waves are formed in infant mammals, and how t...
A novel, biophysically realistic model for early-stage, acetylcholine-mediated retinal waves is pres...
International audienceIn the early retina, spontaneous collective network activity emerges as propag...
Spontaneous activity is a hallmark of developing neural systems. In the retina, spontaneous activity...