Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications

Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications

Inflammatory encapsulation of implanted cortical-neuro-probes [the foreign body response (FBR)] severely limits their use in basic brain research and in clinical applications. A better understanding of the inflammatory FBR is needed to effectively mitigate these critical limitations. Combining the u...

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Bibliographic Details
Main Authors: Aviv Sharon, Maciej M. Jankowski, Nava Shmoel, Hadas Erez, Micha E. Spira
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-03-01
Series:Frontiers in Neuroscience
Subjects:
bioelectronics
neuro-implant
microglia
PLX5622
CSF1R
foreign body response
Online Access:https://www.frontiersin.org/articles/10.3389/fnins.2021.646914/full
id doaj-9918803fa21b49fc8add619f0ed354dd
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Aviv Sharon
Aviv Sharon
Maciej M. Jankowski
Maciej M. Jankowski
Maciej M. Jankowski
Nava Shmoel
Nava Shmoel
Nava Shmoel
Hadas Erez
Hadas Erez
Hadas Erez
Micha E. Spira
Micha E. Spira
Micha E. Spira
spellingShingle Aviv Sharon
Aviv Sharon
Maciej M. Jankowski
Maciej M. Jankowski
Maciej M. Jankowski
Nava Shmoel
Nava Shmoel
Nava Shmoel
Hadas Erez
Hadas Erez
Hadas Erez
Micha E. Spira
Micha E. Spira
Micha E. Spira
Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications
Frontiers in Neuroscience
bioelectronics
neuro-implant
microglia
PLX5622
CSF1R
foreign body response
author_facet Aviv Sharon
Aviv Sharon
Maciej M. Jankowski
Maciej M. Jankowski
Maciej M. Jankowski
Nava Shmoel
Nava Shmoel
Nava Shmoel
Hadas Erez
Hadas Erez
Hadas Erez
Micha E. Spira
Micha E. Spira
Micha E. Spira
author_sort Aviv Sharon
title Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications
title_short Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications
title_full Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications
title_fullStr Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications
title_full_unstemmed Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its Implications
title_sort inflammatory foreign body response induced by neuro-implants in rat cortices depleted of resident microglia by a csf1r inhibitor and its implications
publisher Frontiers Media S.A.
series Frontiers in Neuroscience
issn 1662-453X
publishDate 2021-03-01
description Inflammatory encapsulation of implanted cortical-neuro-probes [the foreign body response (FBR)] severely limits their use in basic brain research and in clinical applications. A better understanding of the inflammatory FBR is needed to effectively mitigate these critical limitations. Combining the use of the brain permeant colony stimulating factor 1 receptor inhibitor PLX5622 and a perforated polyimide-based multielectrode array platform (PPMP) that can be sectioned along with the surrounding tissue, we examined the contribution of microglia to the formation of inflammatory FBR. To that end, we imaged the inflammatory processes induced by PPMP implantations after eliminating 89–94% of the cortical microglia by PLX5622 treatment. The observations showed that: (I) inflammatory encapsulation of implanted PPMPs proceeds by astrocytes in microglia-free cortices. The activated astrocytes adhered to the PPMP’s surfaces. This suggests that the roles of microglia in the FBR might be redundant. (II) PPMP implantation into control or continuously PLX5622-treated rats triggered a localized surge of microglia mitosis. The daughter cells that formed a “cloud” of short-lived (T1/2 ≤ 14 days) microglia around and in contact with the implant surfaces were PLX5622 insensitive. (III) Neuron degeneration by PPMP implantation and the ensuing recovery in time, space, and density progressed in a similar manner in the cortices following 89–94% depletion of microglia. This implies that microglia do not serve a protective role with respect to the neurons. (IV) Although the overall cell composition and dimensions of the encapsulating scar in PLX5622-treated rats differed from the controls, the recorded field potential (FP) qualities and yield were undistinguishable. This is accounted for by assuming that the FP amplitudes in the control and PLX5622-treated rats were related to the seal resistance formed at the interface between the adhering microglia and/or astrocytes and the PPMP platform rather than across the scar tissue. These observations suggest that the prevention of both astrocytes and microglia adhesion to the electrodes is required to improve FP recording quality and yield.
topic bioelectronics
neuro-implant
microglia
PLX5622
CSF1R
foreign body response
url https://www.frontiersin.org/articles/10.3389/fnins.2021.646914/full
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spelling doaj-9918803fa21b49fc8add619f0ed354dd2021-03-26T04:53:48ZengFrontiers Media S.A.Frontiers in Neuroscience1662-453X2021-03-011510.3389/fnins.2021.646914646914Inflammatory Foreign Body Response Induced by Neuro-Implants in Rat Cortices Depleted of Resident Microglia by a CSF1R Inhibitor and Its ImplicationsAviv Sharon0Aviv Sharon1Maciej M. Jankowski2Maciej M. Jankowski3Maciej M. Jankowski4Nava Shmoel5Nava Shmoel6Nava Shmoel7Hadas Erez8Hadas Erez9Hadas Erez10Micha E. Spira11Micha E. Spira12Micha E. Spira13Department of Neurobiology, The Alexander Silberman Institute of Life Science, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Charles E. Smith Family and Prof. Joel Elkes Laboratory for Collaborative Research in Psychobiology, The Hebrew University of Jerusalem, Jerusalem, IsraelDepartment of Neurobiology, The Alexander Silberman Institute of Life Science, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Charles E. Smith Family and Prof. Joel Elkes Laboratory for Collaborative Research in Psychobiology, The Hebrew University of Jerusalem, Jerusalem, IsraelEdmond and Lily Safra Center for Brain Sciences, The Hebrew University of Jerusalem, Jerusalem, IsraelDepartment of Neurobiology, The Alexander Silberman Institute of Life Science, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Charles E. Smith Family and Prof. Joel Elkes Laboratory for Collaborative Research in Psychobiology, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Harvey M. Kruger Family Center for Nanoscience, The Hebrew University of Jerusalem, Jerusalem, IsraelDepartment of Neurobiology, The Alexander Silberman Institute of Life Science, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Charles E. Smith Family and Prof. Joel Elkes Laboratory for Collaborative Research in Psychobiology, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Harvey M. Kruger Family Center for Nanoscience, The Hebrew University of Jerusalem, Jerusalem, IsraelDepartment of Neurobiology, The Alexander Silberman Institute of Life Science, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Charles E. Smith Family and Prof. Joel Elkes Laboratory for Collaborative Research in Psychobiology, The Hebrew University of Jerusalem, Jerusalem, IsraelThe Harvey M. Kruger Family Center for Nanoscience, The Hebrew University of Jerusalem, Jerusalem, IsraelInflammatory encapsulation of implanted cortical-neuro-probes [the foreign body response (FBR)] severely limits their use in basic brain research and in clinical applications. A better understanding of the inflammatory FBR is needed to effectively mitigate these critical limitations. Combining the use of the brain permeant colony stimulating factor 1 receptor inhibitor PLX5622 and a perforated polyimide-based multielectrode array platform (PPMP) that can be sectioned along with the surrounding tissue, we examined the contribution of microglia to the formation of inflammatory FBR. To that end, we imaged the inflammatory processes induced by PPMP implantations after eliminating 89–94% of the cortical microglia by PLX5622 treatment. The observations showed that: (I) inflammatory encapsulation of implanted PPMPs proceeds by astrocytes in microglia-free cortices. The activated astrocytes adhered to the PPMP’s surfaces. This suggests that the roles of microglia in the FBR might be redundant. (II) PPMP implantation into control or continuously PLX5622-treated rats triggered a localized surge of microglia mitosis. The daughter cells that formed a “cloud” of short-lived (T1/2 ≤ 14 days) microglia around and in contact with the implant surfaces were PLX5622 insensitive. (III) Neuron degeneration by PPMP implantation and the ensuing recovery in time, space, and density progressed in a similar manner in the cortices following 89–94% depletion of microglia. This implies that microglia do not serve a protective role with respect to the neurons. (IV) Although the overall cell composition and dimensions of the encapsulating scar in PLX5622-treated rats differed from the controls, the recorded field potential (FP) qualities and yield were undistinguishable. This is accounted for by assuming that the FP amplitudes in the control and PLX5622-treated rats were related to the seal resistance formed at the interface between the adhering microglia and/or astrocytes and the PPMP platform rather than across the scar tissue. These observations suggest that the prevention of both astrocytes and microglia adhesion to the electrodes is required to improve FP recording quality and yield.https://www.frontiersin.org/articles/10.3389/fnins.2021.646914/fullbioelectronicsneuro-implantmicrogliaPLX5622CSF1Rforeign body response

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