Compact and low-power wireless headstage for electrocorticography recording of freely moving primates in a home cage
Taro Kaiju, Masato Inoue, Masayuki Hirata, Takafumi Suzuki

TL;DR
A new lightweight wireless device enables ECoG recordings from freely moving primates in home cages, improving neuroscience research.
Contribution
A compact, low-power 32-channel wireless ECoG headstage optimized for freely moving primates in home cage environments.
Findings
The headstage weighed 1.8 g and enabled 8.5 hours of continuous recording on a 100-mAh battery.
It successfully recorded ECoG data from a monkey performing a joystick task in its home cage.
The device enhances task design flexibility and data collection efficiency in primate neuroscience studies.
Abstract
Wireless electrocorticography (ECoG) recording from unrestrained nonhuman primates during behavioral tasks is a potent method for investigating higher-order brain functions over extended periods. However, conventional wireless neural recording devices have not been optimized for ECoG recording, and few devices have been tested on freely moving primates engaged in behavioral tasks within their home cages. We developed a compact, low-power, 32-channel wireless ECoG headstage specifically designed for neuroscience research. To evaluate its efficacy, we established a behavioral task setup within a home cage environment. The developed headstage weighed merely 1.8 g and had compact dimensions of 25 mm × 16 mm × 4 mm. It was efficiently powered by a 100-mAh battery (weighing 3 g), enabling continuous recording for 8.5 h. The device successfully recorded data from an unrestrained monkey…
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Taxonomy
TopicsAdvanced Memory and Neural Computing · Neural dynamics and brain function · Neuroscience and Neural Engineering
