Add to ORKGElectrical neurostimulation is effective in the treatment of neurological disorders, but associated recording artefacts generally limit its applications to open-loop stimuli. Real-time and continuous closed-loop control of brain activity can, however, be achieved by pairing concurrent electrical recordings and optogenetics. Here we show that closed-loop optogenetic stimulation with excitatory opsins enables the precise manipulation of neural dynamics in brain slices from transgenic mice and in anaesthetized non-human primates. The approach generates oscillations in quiescent tissue, enhances or suppresses endogenous patterns in active tissue and modulates seizure-like bursts elicited by the convulsant 4-aminopyridine. A nonlinear model of t...
Dynamic oscillatory coherence is believed to play a central role in flexible communication between b...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Optogenetic channels have greatly expanded neuroscience’s experimental capabilities, enabling precis...
Electrical neurostimulation is effective in the treatment of neurological disorders, but associated ...
Electrical neurostimulation is effective in the treatment of neurological disorders, but associated ...
The advent of optogenetic tools has had a profound impact on modern neuroscience research, revolutio...
Neuromodulation is an established treatment for numerous neurological conditions, but to expand the ...
Advances in optical manipulation and observation of neural activity have set the stage for widesprea...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Neuromodulation is an established treatment for numerous neurological conditions, but to expand the ...
Epilepsy is a neural network disorder that manifests when certain elements (neuron types, sub-networ...
Dynamic oscillatory coherence is believed to play a central role in flexible communication between b...
Selective perturbation of the activity of specific cell types in the brain tissue is essential in un...
Optogenetic techniques enable precise excitation and inhibition of firing in specified neuronal popu...
Dynamic oscillatory coherence is believed to play a central role in flexible communication between b...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Optogenetic channels have greatly expanded neuroscience’s experimental capabilities, enabling precis...
Electrical neurostimulation is effective in the treatment of neurological disorders, but associated ...
Electrical neurostimulation is effective in the treatment of neurological disorders, but associated ...
The advent of optogenetic tools has had a profound impact on modern neuroscience research, revolutio...
Neuromodulation is an established treatment for numerous neurological conditions, but to expand the ...
Advances in optical manipulation and observation of neural activity have set the stage for widesprea...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Neuromodulation is an established treatment for numerous neurological conditions, but to expand the ...
Epilepsy is a neural network disorder that manifests when certain elements (neuron types, sub-networ...
Dynamic oscillatory coherence is believed to play a central role in flexible communication between b...
Selective perturbation of the activity of specific cell types in the brain tissue is essential in un...
Optogenetic techniques enable precise excitation and inhibition of firing in specified neuronal popu...
Dynamic oscillatory coherence is believed to play a central role in flexible communication between b...
Epilepsy is a devastating disease, currently treated with medications, surgery or electrical stimula...
Optogenetic channels have greatly expanded neuroscience’s experimental capabilities, enabling precis...