Simultaneous electrical stimulation and recording are used to gain insights into the function of neuronal circuitry. However, artifacts produced by the electrical stimulation pulses prevent the recording of neural responses during, and a short period after, the stimulation duration. In this work, we describe a mixed-signal recording topology with template subtraction for removing the artifact during the stimulation pulse. Emulated artifacts generated from a lumped electrical circuit model and experimental artifacts in cardiac cell cultures are used to evaluate the topology. The simulations show that delays between the emulated artifact and its estimated compensation template represent the largest error source of the analog template subtract...
The analysis of stimulus evoked potentials recorded using high resolution chips are very useful in u...
We describe an electroencephalographic (EEG) device and protocol that allows recording of electrophy...
<p>First column: templates of spiking neurons. Second to fourth columns: responses of one (<b>A</b>)...
Bidirectional neural interfaces record electrical activity in neurons and modulate their signaling b...
BackgroundThe Medtronic "Percept" is the first FDA-approved deep brain stimulation (DBS) device with...
Simultaneous electrical stimulation and recording using multi-electrode arrays can provide a valuabl...
AbstractBackgroundEffective connectivity can be explored using direct electrical stimulations in pat...
Stimulus artifacts inhibit reliable acquisition of biological evoked potentials for several millisec...
Bi-directional brain-computer interfaces (BCIs) require simultaneous stimulation and recording to ac...
An increased interest in the investigation of the inner workings of the brain, together with recent ...
Cochlear implant (CI) stimulation artifacts are currently removed from electrically evoked steady-st...
Objective: Local field potential (LFP) recordings from deep brain stimulation (DBS) electrodes are o...
Modern multielectrode array (MEA) systems can record the neuronal activity from thousands of electro...
Closed-loop and responsive neuromodulation systems improve open-loop neurostimulation by responding ...
Technological advancements in analog and digital systems have enabled new approaches to study networ...
The analysis of stimulus evoked potentials recorded using high resolution chips are very useful in u...
We describe an electroencephalographic (EEG) device and protocol that allows recording of electrophy...
<p>First column: templates of spiking neurons. Second to fourth columns: responses of one (<b>A</b>)...
Bidirectional neural interfaces record electrical activity in neurons and modulate their signaling b...
BackgroundThe Medtronic "Percept" is the first FDA-approved deep brain stimulation (DBS) device with...
Simultaneous electrical stimulation and recording using multi-electrode arrays can provide a valuabl...
AbstractBackgroundEffective connectivity can be explored using direct electrical stimulations in pat...
Stimulus artifacts inhibit reliable acquisition of biological evoked potentials for several millisec...
Bi-directional brain-computer interfaces (BCIs) require simultaneous stimulation and recording to ac...
An increased interest in the investigation of the inner workings of the brain, together with recent ...
Cochlear implant (CI) stimulation artifacts are currently removed from electrically evoked steady-st...
Objective: Local field potential (LFP) recordings from deep brain stimulation (DBS) electrodes are o...
Modern multielectrode array (MEA) systems can record the neuronal activity from thousands of electro...
Closed-loop and responsive neuromodulation systems improve open-loop neurostimulation by responding ...
Technological advancements in analog and digital systems have enabled new approaches to study networ...
The analysis of stimulus evoked potentials recorded using high resolution chips are very useful in u...
We describe an electroencephalographic (EEG) device and protocol that allows recording of electrophy...
<p>First column: templates of spiking neurons. Second to fourth columns: responses of one (<b>A</b>)...