Progress in understanding brain–viscera interoceptive signaling is hindered by a dearth of
implantable devices suitable for probing both brain and peripheral organ neurophysiology …

Abstract This Protocol Extension describes the low-cost production of rapidly customizable
optical neural probes for in vivo optogenetics. We detail the use of a 3D printer to fabricate …

The use of optogenetic stimulation to evoke neuronal activity in targeted neural populations—
enabled by opsins with fast kinetics, high sensitivity and cell-type and subcellular specificity …

To understand the neural mechanisms of behavior, it is necessary to both monitor and
perturb the activity of ensembles of neurons with high specificity. While neural ensemble …

Optogenetics promises to manipulate the brain circuitry by exciting or inhibiting the same
neurons via different colors of light (ie, bidirectionality), and furthermore, to co-work with …

A bidirectional brain interface with both “write” and “read” functions can be an important tool
for fundamental studies and potential clinical treatments for neurological diseases. Herein, a …

To understand how brain functions arise from interconnected neural networks, it is
necessary to develop tools that can allow simultaneous manipulation and recording of …

OLED-on-CMOS probes for single-neuron optogenetics | Nature Electronics Skip to main
content Thank you for visiting nature.com. You are using a browser version with limited support …

In recent decades, microelectrodes have been widely used in neuroscience to understand
the mechanisms behind brain functions, as well as the relationship between neural activity …

Objective. Optogenetics allows the manipulation of neural circuits in vivo with high spatial
and temporal precision. However, combining this precision with control over a significant …