Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes

Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes

This paper presents long-term stable multichannel recording of neural activity using novel intracortical floating probes implanted chronically in rat cortex. The novel flexible probe design approach allows recording of action potentials for at least 38 days after implantation. Furthermore the capabi...

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Bibliographic Details
Main Authors: Andreas Schander, Heiko Stemmann, Andreas K. Kreiter, Walter Lang
Format: Article
Language:English
Published: MDPI AG 2017-08-01
Series:Proceedings
Subjects:
neural probe
chronic recording
intracortical microstimulation
multichannel floating probes
PEDOT: PSS
polyimide
neural activity
cortex
Online Access:https://www.mdpi.com/2504-3900/1/4/511
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spelling doaj-6341f3ab1dd44a3783f788f39850508b2020-11-24T21:54:10ZengMDPI AGProceedings2504-39002017-08-011451110.3390/proceedings1040511proceedings1040511Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural ProbesAndreas Schander0Heiko Stemmann1Andreas K. Kreiter2Walter Lang3Institute for Microsensors, -Actuators and -Systems (IMSAS), University of Bremen, Bremen, GermanyInstitute for Brain Research, University of Bremen, Bremen, GermanyInstitute for Brain Research, University of Bremen, Bremen, GermanyInstitute for Microsensors, -Actuators and -Systems (IMSAS), University of Bremen, Bremen, GermanyThis paper presents long-term stable multichannel recording of neural activity using novel intracortical floating probes implanted chronically in rat cortex. The novel flexible probe design approach allows recording of action potentials for at least 38 days after implantation. Furthermore the capability of the PEDOT: PSS coated microelectrodes for electrical stimulation is characterized in vitro and in an acute in vivo experiment. The in vitro results show a charge injection capacity of 2 mC/cm2 and the in vivo results demonstrate reproducible response of the neural network to charge injection up to 1 mC/cm2. The optical inspection of the explanted neural probe reveals sufficient stability of the PEDOT: PSS microelectrode coating for the acute microstimulation experiment. These preliminary results indicate the capability for long-term stable microstimulation.https://www.mdpi.com/2504-3900/1/4/511neural probechronic recordingintracortical microstimulationmultichannel floating probesPEDOT: PSSpolyimideneural activitycortex
collection DOAJ
language English
format Article
sources DOAJ
author Andreas Schander
Heiko Stemmann
Andreas K. Kreiter
Walter Lang
spellingShingle Andreas Schander
Heiko Stemmann
Andreas K. Kreiter
Walter Lang
Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes
Proceedings
neural probe
chronic recording
intracortical microstimulation
multichannel floating probes
PEDOT: PSS
polyimide
neural activity
cortex
author_facet Andreas Schander
Heiko Stemmann
Andreas K. Kreiter
Walter Lang
author_sort Andreas Schander
title Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes
title_short Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes
title_full Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes
title_fullStr Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes
title_full_unstemmed Demonstration of Intracortical Chronic Recording and Acute Microstimulation Using Novel Floating Neural Probes
title_sort demonstration of intracortical chronic recording and acute microstimulation using novel floating neural probes
publisher MDPI AG
series Proceedings
issn 2504-3900
publishDate 2017-08-01
description This paper presents long-term stable multichannel recording of neural activity using novel intracortical floating probes implanted chronically in rat cortex. The novel flexible probe design approach allows recording of action potentials for at least 38 days after implantation. Furthermore the capability of the PEDOT: PSS coated microelectrodes for electrical stimulation is characterized in vitro and in an acute in vivo experiment. The in vitro results show a charge injection capacity of 2 mC/cm2 and the in vivo results demonstrate reproducible response of the neural network to charge injection up to 1 mC/cm2. The optical inspection of the explanted neural probe reveals sufficient stability of the PEDOT: PSS microelectrode coating for the acute microstimulation experiment. These preliminary results indicate the capability for long-term stable microstimulation.
topic neural probe
chronic recording
intracortical microstimulation
multichannel floating probes
PEDOT: PSS
polyimide
neural activity
cortex
url https://www.mdpi.com/2504-3900/1/4/511
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AT andreaskkreiter demonstrationofintracorticalchronicrecordingandacutemicrostimulationusingnovelfloatingneuralprobes
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