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Wireless Neurosensor for Full-Spectrum Electrophysiology Recordings during Free Behavior

Brain recordings in large animal models and humans typically rely on a tethered connection, which has restricted the spectrum of accessible experimental and clinical applications. To overcome this limitation, we have engineered a compact, lightweight, high data rate wireless neurosensor capable of r... Full description

Journal Title: Neuron 2014-12-17, Vol.84 (6), p.1170-1182
Main Author: Yin, Ming
Other Authors: Borton, David A , Komar, Jacob , Agha, Naubahar , Lu, Yao , Li, Hao , Laurens, Jean , Lang, Yiran , Li, Qin , Bull, Christopher , Larson, Lawrence , Rosler, David , Bezard, Erwan , Courtine, Grégoire , Nurmikko, Arto V
Format: Electronic Article Electronic Article
Language: English
Subjects:
Quelle: Alma/SFX Local Collection
Publisher: United States: Elsevier Inc
ID: ISSN: 0896-6273
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recordid: cdi_hal_primary_oai_HAL_hal_01214888v1
title: Wireless Neurosensor for Full-Spectrum Electrophysiology Recordings during Free Behavior
format: Article
creator:
  • Yin, Ming
  • Borton, David A
  • Komar, Jacob
  • Agha, Naubahar
  • Lu, Yao
  • Li, Hao
  • Laurens, Jean
  • Lang, Yiran
  • Li, Qin
  • Bull, Christopher
  • Larson, Lawrence
  • Rosler, David
  • Bezard, Erwan
  • Courtine, Grégoire
  • Nurmikko, Arto V
subjects:
  • Analysis
  • Animals
  • Antennas
  • Behavior
  • Brain research
  • Cerebral Cortex - physiology
  • Efficiency
  • Electrodes, Implanted
  • Electrophysiology - instrumentation
  • Electrophysiology - methods
  • Experiments
  • Life Sciences
  • Macaca mulatta
  • Male
  • Monkeys & apes
  • Nervous system diseases
  • Neurons - physiology
  • Neuroscience(all)
  • Neurosciences
  • Primates
  • Receivers & amplifiers
  • Sleep - physiology
  • Telemetry - instrumentation
  • Telemetry - methods
  • Wakefulness - physiology
  • Walking - physiology
  • Wireless communications
ispartof: Neuron, 2014-12-17, Vol.84 (6), p.1170-1182
description: Brain recordings in large animal models and humans typically rely on a tethered connection, which has restricted the spectrum of accessible experimental and clinical applications. To overcome this limitation, we have engineered a compact, lightweight, high data rate wireless neurosensor capable of recording the full spectrum of electrophysiological signals from the cortex of mobile subjects. The wireless communication system exploits a spatially distributed network of synchronized receivers that is scalable to hundreds of channels and vast environments. To demonstrate the versatility of our wireless neurosensor, we monitored cortical neuron populations in freely behaving nonhuman primates during natural locomotion and sleep-wake transitions in ecologically equivalent settings. The interface is electrically safe and compatible with the majority of existing neural probes, which may support previously inaccessible experimental and clinical research. •Compact, lightweight, low-power, head-mounted wireless neurosensor•High-fidelity broadband neural data in spatially unconstrained environment•Neural population recordings from freely behaving nonhuman primates Yin and Borton et al. have engineered a high data rate wireless neurosensing platform with spatial diversity antenna technology, which enabled reliable recordings of 96-channel broadband electrophysiological signals from the cortex of freely behaving nonhuman primates during natural locomotion and sleep-wake transitions.
language: eng
source: Alma/SFX Local Collection
identifier: ISSN: 0896-6273
fulltext: fulltext
issn:
  • 0896-6273
  • 1097-4199
url: Link


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descriptionBrain recordings in large animal models and humans typically rely on a tethered connection, which has restricted the spectrum of accessible experimental and clinical applications. To overcome this limitation, we have engineered a compact, lightweight, high data rate wireless neurosensor capable of recording the full spectrum of electrophysiological signals from the cortex of mobile subjects. The wireless communication system exploits a spatially distributed network of synchronized receivers that is scalable to hundreds of channels and vast environments. To demonstrate the versatility of our wireless neurosensor, we monitored cortical neuron populations in freely behaving nonhuman primates during natural locomotion and sleep-wake transitions in ecologically equivalent settings. The interface is electrically safe and compatible with the majority of existing neural probes, which may support previously inaccessible experimental and clinical research. •Compact, lightweight, low-power, head-mounted wireless neurosensor•High-fidelity broadband neural data in spatially unconstrained environment•Neural population recordings from freely behaving nonhuman primates Yin and Borton et al. have engineered a high data rate wireless neurosensing platform with spatial diversity antenna technology, which enabled reliable recordings of 96-channel broadband electrophysiological signals from the cortex of freely behaving nonhuman primates during natural locomotion and sleep-wake transitions.
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subjectAnalysis ; Animals ; Antennas ; Behavior ; Brain research ; Cerebral Cortex - physiology ; Efficiency ; Electrodes, Implanted ; Electrophysiology - instrumentation ; Electrophysiology - methods ; Experiments ; Life Sciences ; Macaca mulatta ; Male ; Monkeys & apes ; Nervous system diseases ; Neurons - physiology ; Neuroscience(all) ; Neurosciences ; Primates ; Receivers & amplifiers ; Sleep - physiology ; Telemetry - instrumentation ; Telemetry - methods ; Wakefulness - physiology ; Walking - physiology ; Wireless communications
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descriptionBrain recordings in large animal models and humans typically rely on a tethered connection, which has restricted the spectrum of accessible experimental and clinical applications. To overcome this limitation, we have engineered a compact, lightweight, high data rate wireless neurosensor capable of recording the full spectrum of electrophysiological signals from the cortex of mobile subjects. The wireless communication system exploits a spatially distributed network of synchronized receivers that is scalable to hundreds of channels and vast environments. To demonstrate the versatility of our wireless neurosensor, we monitored cortical neuron populations in freely behaving nonhuman primates during natural locomotion and sleep-wake transitions in ecologically equivalent settings. The interface is electrically safe and compatible with the majority of existing neural probes, which may support previously inaccessible experimental and clinical research. •Compact, lightweight, low-power, head-mounted wireless neurosensor•High-fidelity broadband neural data in spatially unconstrained environment•Neural population recordings from freely behaving nonhuman primates Yin and Borton et al. have engineered a high data rate wireless neurosensing platform with spatial diversity antenna technology, which enabled reliable recordings of 96-channel broadband electrophysiological signals from the cortex of freely behaving nonhuman primates during natural locomotion and sleep-wake transitions.
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abstractBrain recordings in large animal models and humans typically rely on a tethered connection, which has restricted the spectrum of accessible experimental and clinical applications. To overcome this limitation, we have engineered a compact, lightweight, high data rate wireless neurosensor capable of recording the full spectrum of electrophysiological signals from the cortex of mobile subjects. The wireless communication system exploits a spatially distributed network of synchronized receivers that is scalable to hundreds of channels and vast environments. To demonstrate the versatility of our wireless neurosensor, we monitored cortical neuron populations in freely behaving nonhuman primates during natural locomotion and sleep-wake transitions in ecologically equivalent settings. The interface is electrically safe and compatible with the majority of existing neural probes, which may support previously inaccessible experimental and clinical research. •Compact, lightweight, low-power, head-mounted wireless neurosensor•High-fidelity broadband neural data in spatially unconstrained environment•Neural population recordings from freely behaving nonhuman primates Yin and Borton et al. have engineered a high data rate wireless neurosensing platform with spatial diversity antenna technology, which enabled reliable recordings of 96-channel broadband electrophysiological signals from the cortex of freely behaving nonhuman primates during natural locomotion and sleep-wake transitions.
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