Melatonin improves quality and longevity of chronic neural recording

The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring, and neuronal loss. Melatonin (MT) has shown remarkable neuroprotective and neurorestorative effects in treating central nervous system (CNS) in...

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Published inBiomaterials Vol. 180; pp. 225 - 239
Main Authors Golabchi, Asiyeh, Wu, Bingchen, Li, Xia, Carlisle, Diane L., Kozai, Takashi D.Y., Friedlander, Robert M., Cui, Xinyan Tracy
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.10.2018
Subjects
Animals
Antioxidant
Antioxidants - metabolism
apoptosis
Apoptosis - drug effects
caspase-1
cytochrome c
electrodes
Gliosis - drug therapy
Gliosis - metabolism
histology
Inflammation - drug therapy
Inflammation - metabolism
Inflammatory gliosis
intraperitoneal injection
longevity
Male
Melatonin
Melatonin - pharmacology
Melatonin - therapeutic use
Mice
Mice, Inbred C57BL
Microelectrode arrays
Microelectrodes
mitochondria
neuroglia
neurons
neuroprotective effect
Oxidative stress
Oxidative Stress - drug effects
Single-unit recording
viability
visual cortex
Inflammatory gliosis
Oxidative stress
Melatonin
Antioxidant
Single-unit recording
Microelectrode arrays
Online AccessGet full text
ISSN0142-9612
1878-5905
1878-5905
DOI10.1016/j.biomaterials.2018.07.026

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Abstract The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring, and neuronal loss. Melatonin (MT) has shown remarkable neuroprotective and neurorestorative effects in treating central nervous system (CNS) injuries and degeneration by inhibiting caspase-1, -3, and -9 activation and mitochondrial cytochrome c release, as well as reducing oxidative stress and neuroinflammation. This study examined the effect of MT administration on the quality and longevity of neural recording from an implanted microelectrode in the visual cortex of mice for 16 weeks. MT (30 mg/kg) was administered via daily intraperitoneal injection for acute (3 days before and 14 days post-implantation) and chronic (3 days before and 16 weeks post-implantation) exposures. During the first 4 weeks, both MT groups showed significantly higher single-unit (SU) yield, signal-to-noise ratio (SNR), and amplitude compared to the vehicle control group. However, after 4 weeks of implantation, the SU yield of the acute treatment group dropped to the same level as the control group, while the chronic treatment group maintained significantly higher SU yield compared to both acute (week 5–16) and control (week 0–16) mice. Histological studies revealed a significant increase in neuronal viability and decrease in neuronal apoptosis around the implanted electrode at week 16 in the chronic group in comparison to control and acute subjects, which is correlated with reduced oxidative stress and increased number of pro-regeneration arginase-1 positive microglia cells. These results demonstrate the potent effect of MT treatment in maintaining a high-quality electrode-tissue interface and suggest that MT promotes neuroprotection possibly through its anti-apoptotic, anti-inflammatory, and anti-oxidative properties.
AbstractList The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring, and neuronal loss. Melatonin (MT) has shown remarkable neuroprotective and neurorestorative effects in treating central nervous system (CNS) injuries and degeneration by inhibiting caspase−1, −3 and −9 activation and mitochondrial cytochrome c release, as well as reducing oxidative stress and neuroinflammation. This study examined the effect of MT administration on the quality and longevity of neural recording from implanted microelectrode in the visual cortex of mice for 16 weeks. MT (30 mg/kg) was administered via daily intraperitoneal injection for acute (3 days before and 14 days post implantation) and chronic (3 days before and 16 weeks post implantation) exposures. During the first 4 weeks, both MT groups showed significantly higher single-unit (SU) yield, signal-to-noise ratio (SNR), and amplitude compared to the vehicle control group. However, after 4 weeks of implantation, the SU yield of the acute treatment group dropped to the same level as control group, while the chronic treatment group maintained significantly higher SU yield compared to both acute (week 5–16) and control (week 0–16) mice. Histological studies revealed a significant increase in neuronal viability and decrease in neuronal apoptosis around implanted electrode at week 16 in the chronic group in comparison to control and acute subjects, which is correlated with reduced oxidative stress and increased number of pro-regeneration arginase-1 positive microglia cells. These results demonstrate the potent effect of MT treatment in maintaining a high quality electrode-tissue interface and suggest that MT promotes neuroprotection possibly through its anti-apoptotic, anti-inflammatory and anti-oxidative properties. This study demonstrated the potent effect of melatonin treatment in inhibiting persistent inflammation and neuronal loss, as well as maintaining high quality neural recording in chronic microelectrode brain implantation.
The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring, and neuronal loss. Melatonin (MT) has shown remarkable neuroprotective and neurorestorative effects in treating central nervous system (CNS) injuries and degeneration by inhibiting caspase-1, -3, and -9 activation and mitochondrial cytochrome c release, as well as reducing oxidative stress and neuroinflammation. This study examined the effect of MT administration on the quality and longevity of neural recording from an implanted microelectrode in the visual cortex of mice for 16 weeks. MT (30 mg/kg) was administered via daily intraperitoneal injection for acute (3 days before and 14 days post-implantation) and chronic (3 days before and 16 weeks post-implantation) exposures. During the first 4 weeks, both MT groups showed significantly higher single-unit (SU) yield, signal-to-noise ratio (SNR), and amplitude compared to the vehicle control group. However, after 4 weeks of implantation, the SU yield of the acute treatment group dropped to the same level as the control group, while the chronic treatment group maintained significantly higher SU yield compared to both acute (week 5–16) and control (week 0–16) mice. Histological studies revealed a significant increase in neuronal viability and decrease in neuronal apoptosis around the implanted electrode at week 16 in the chronic group in comparison to control and acute subjects, which is correlated with reduced oxidative stress and increased number of pro-regeneration arginase-1 positive microglia cells. These results demonstrate the potent effect of MT treatment in maintaining a high-quality electrode-tissue interface and suggest that MT promotes neuroprotection possibly through its anti-apoptotic, anti-inflammatory, and anti-oxidative properties.
The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring, and neuronal loss. Melatonin (MT) has shown remarkable neuroprotective and neurorestorative effects in treating central nervous system (CNS) injuries and degeneration by inhibiting caspase-1, -3, and -9 activation and mitochondrial cytochrome c release, as well as reducing oxidative stress and neuroinflammation. This study examined the effect of MT administration on the quality and longevity of neural recording from an implanted microelectrode in the visual cortex of mice for 16 weeks. MT (30 mg/kg) was administered via daily intraperitoneal injection for acute (3 days before and 14 days post-implantation) and chronic (3 days before and 16 weeks post-implantation) exposures. During the first 4 weeks, both MT groups showed significantly higher single-unit (SU) yield, signal-to-noise ratio (SNR), and amplitude compared to the vehicle control group. However, after 4 weeks of implantation, the SU yield of the acute treatment group dropped to the same level as the control group, while the chronic treatment group maintained significantly higher SU yield compared to both acute (week 5-16) and control (week 0-16) mice. Histological studies revealed a significant increase in neuronal viability and decrease in neuronal apoptosis around the implanted electrode at week 16 in the chronic group in comparison to control and acute subjects, which is correlated with reduced oxidative stress and increased number of pro-regeneration arginase-1 positive microglia cells. These results demonstrate the potent effect of MT treatment in maintaining a high-quality electrode-tissue interface and suggest that MT promotes neuroprotection possibly through its anti-apoptotic, anti-inflammatory, and anti-oxidative properties.The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring, and neuronal loss. Melatonin (MT) has shown remarkable neuroprotective and neurorestorative effects in treating central nervous system (CNS) injuries and degeneration by inhibiting caspase-1, -3, and -9 activation and mitochondrial cytochrome c release, as well as reducing oxidative stress and neuroinflammation. This study examined the effect of MT administration on the quality and longevity of neural recording from an implanted microelectrode in the visual cortex of mice for 16 weeks. MT (30 mg/kg) was administered via daily intraperitoneal injection for acute (3 days before and 14 days post-implantation) and chronic (3 days before and 16 weeks post-implantation) exposures. During the first 4 weeks, both MT groups showed significantly higher single-unit (SU) yield, signal-to-noise ratio (SNR), and amplitude compared to the vehicle control group. However, after 4 weeks of implantation, the SU yield of the acute treatment group dropped to the same level as the control group, while the chronic treatment group maintained significantly higher SU yield compared to both acute (week 5-16) and control (week 0-16) mice. Histological studies revealed a significant increase in neuronal viability and decrease in neuronal apoptosis around the implanted electrode at week 16 in the chronic group in comparison to control and acute subjects, which is correlated with reduced oxidative stress and increased number of pro-regeneration arginase-1 positive microglia cells. These results demonstrate the potent effect of MT treatment in maintaining a high-quality electrode-tissue interface and suggest that MT promotes neuroprotection possibly through its anti-apoptotic, anti-inflammatory, and anti-oxidative properties.
Author Carlisle, Diane L.
Kozai, Takashi D.Y.
Friedlander, Robert M.
Golabchi, Asiyeh
Wu, Bingchen
Li, Xia
Cui, Xinyan Tracy
AuthorAffiliation 2 Center for Neural Basis of Cognition
4 Neuroapoptosis Laboratory, Department of Neurological Surgery, University of Pittsburgh School of Medicine
5 Neurotechnology Division of the University of Pittsburgh Brain Institute
3 McGowan Institute for Regenerative Medicine, University of Pittsburgh
1 Department of Bioengineering, University of Pittsburgh
AuthorAffiliation_xml – name: 5 Neurotechnology Division of the University of Pittsburgh Brain Institute
– name: 3 McGowan Institute for Regenerative Medicine, University of Pittsburgh
– name: 2 Center for Neural Basis of Cognition
– name: 4 Neuroapoptosis Laboratory, Department of Neurological Surgery, University of Pittsburgh School of Medicine
– name: 1 Department of Bioengineering, University of Pittsburgh
Author_xml – sequence: 1
  givenname: Asiyeh
  surname: Golabchi
  fullname: Golabchi, Asiyeh
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  givenname: Xinyan Tracy
  surname: Cui
  fullname: Cui, Xinyan Tracy
  email: xic11@pitt.edu
  organization: Department of Bioengineering, University of Pittsburgh, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30053658$$D View this record in MEDLINE/PubMed
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ID FETCH-LOGICAL-c579t-735691b8612b4ac4d9dd358ff99d23173440fd680c223224ff9f2a8ca766089a3
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ISSN 0142-9612
1878-5905
IngestDate Sun Oct 26 03:49:09 EDT 2025
Tue Sep 30 16:55:46 EDT 2025
Thu Oct 02 05:24:28 EDT 2025
Thu Oct 02 06:45:02 EDT 2025
Mon Jul 21 06:07:21 EDT 2025
Thu Oct 02 04:27:16 EDT 2025
Thu Apr 24 23:04:28 EDT 2025
Fri Feb 23 02:49:13 EST 2024
Tue Oct 14 19:30:04 EDT 2025
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Keywords Inflammatory gliosis
Oxidative stress
Melatonin
Antioxidant
Single-unit recording
Microelectrode arrays
Language English
License Copyright © 2018 Elsevier Ltd. All rights reserved.
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content type line 23
Author contributions: A.G. carried out the experiments and analyzed the data. B.W. helped with daily MT injection. X.L. worked on histological tissue preparation. A.G. wrote the manuscript with input from all authors. T.K. and X.T.C. supervised data collection and analysis. D.C. and R.F. provided expertise on MT’s biological mechanisms. X.T.C. and R.F. conceived the original idea. X.T.C. supervised the project.
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Snippet The chronic performance of implantable neural electrodes is hindered by inflammatory brain tissue responses, including microglia activation, glial scarring,...
SourceID unpaywall
pubmedcentral
proquest
pubmed
crossref
elsevier
SourceType Open Access Repository
Aggregation Database
Index Database
Enrichment Source
Publisher
StartPage 225
SubjectTerms Animals
Antioxidant
Antioxidants - metabolism
apoptosis
Apoptosis - drug effects
caspase-1
cytochrome c
electrodes
Gliosis - drug therapy
Gliosis - metabolism
histology
Inflammation - drug therapy
Inflammation - metabolism
Inflammatory gliosis
intraperitoneal injection
longevity
Male
Melatonin
Melatonin - pharmacology
Melatonin - therapeutic use
Mice
Mice, Inbred C57BL
Microelectrode arrays
Microelectrodes
mitochondria
neuroglia
neurons
neuroprotective effect
Oxidative stress
Oxidative Stress - drug effects
Single-unit recording
viability
visual cortex
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Title Melatonin improves quality and longevity of chronic neural recording
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https://dx.doi.org/10.1016/j.biomaterials.2018.07.026
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