During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute within and among subcircuits. This process should emerge in plastic neural networks evolving under behavioral feedback and should involve changes distributed across multiple synaptic sites. In eyeblink classical conditioning (EBCC), the cerebellum learns to predict the precise timing between two stimuli, hence EBCC represents an elementary yet meaningful paradigm to investigate the cerebellar network functioning. We have simulated EBCC mechanisms by reconstructing a realistic cerebellar microcircuit model and embedding multiple plasticity rules imitating those revealed experimentally. The model was tuned to fit experimental EBCC human data, estima...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The data are related to the following article: 1. Antonietti A., Casellato C., D'Angelo E. and Pe...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The data are related to the following article: 1. Antonietti A., Casellato C., D'Angelo E. and Pe...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
During natural learning, synaptic plasticity is thought to evolve dynamically and redistribute withi...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The cerebellum plays a critical role in sensorimotor control. However, how the specific circuits and...
The data are related to the following article: 1. Antonietti A., Casellato C., D'Angelo E. and Pe...