Add to ORKGAll-optical electrophysiology offers accessibility and scalability in observing neuronal activity beyond what can feasibly be achieved with patch clamp techniques. However, imaging platforms like Optopatch suffer from excessive detection noise, photobleaching, and an inability to organically segment and isolate neurons of interest. These drawbacks preclude its use as a true substitute for direct electrophysiological measurement, but recent advances in deep neural network inference may enable computation to recover the difference in data quality. To date, few robust denoising algorithms have been designed and implemented for voltage imaging data, in part because the lack of ground truth imaging complicates the task of training such a model. ...
Mechanistic understanding of how the brain gives rise to complex behavioral and cognitive functions ...
Optical imaging of voltage indicators is a promising approach for detecting the activity of neuronal...
Mechanistic understanding of how the brain gives rise to complex behavioral and cognitive functions ...
Understanding neuronal physiology requires to record electrical activity in many small and remote co...
Here we report SUPPORT (Statistically Unbiased Prediction utilizing sPatiOtempoRal information in im...
The study of the electrophysiological properties of neurons has reached a new level thanks to recent...
Summary: Recent improvements in genetically encoded voltage indicators enabled optical imaging of ac...
Voltage imaging enables monitoring neural activity at sub-millisecond and sub-cellular scale, unlock...
Voltage imaging has the potential to revolutionise neuronal physiology, enabling high temporal and s...
Studying the propagation of action potentials across neuronal networks and how information is stored...
The understanding and treatment of brain disorders as well as the development of intelligent machine...
The central nervous system can process a tremendous amount of information, which is encoded in terms...
Voltage imaging of many neurons simultaneously at single-cell resolution is hampered by the difficul...
Voltage imaging of many neurons simultaneously at single-cell resolution is hampered by the difficul...
Understanding single-neuron computations and encoding performed by spike-generation mechanisms of co...
Mechanistic understanding of how the brain gives rise to complex behavioral and cognitive functions ...
Optical imaging of voltage indicators is a promising approach for detecting the activity of neuronal...
Mechanistic understanding of how the brain gives rise to complex behavioral and cognitive functions ...
Understanding neuronal physiology requires to record electrical activity in many small and remote co...
Here we report SUPPORT (Statistically Unbiased Prediction utilizing sPatiOtempoRal information in im...
The study of the electrophysiological properties of neurons has reached a new level thanks to recent...
Summary: Recent improvements in genetically encoded voltage indicators enabled optical imaging of ac...
Voltage imaging enables monitoring neural activity at sub-millisecond and sub-cellular scale, unlock...
Voltage imaging has the potential to revolutionise neuronal physiology, enabling high temporal and s...
Studying the propagation of action potentials across neuronal networks and how information is stored...
The understanding and treatment of brain disorders as well as the development of intelligent machine...
The central nervous system can process a tremendous amount of information, which is encoded in terms...
Voltage imaging of many neurons simultaneously at single-cell resolution is hampered by the difficul...
Voltage imaging of many neurons simultaneously at single-cell resolution is hampered by the difficul...
Understanding single-neuron computations and encoding performed by spike-generation mechanisms of co...
Mechanistic understanding of how the brain gives rise to complex behavioral and cognitive functions ...
Optical imaging of voltage indicators is a promising approach for detecting the activity of neuronal...
Mechanistic understanding of how the brain gives rise to complex behavioral and cognitive functions ...