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Foreign Body Response to Intracortical Microelectrodes Is Not Altered with Dip-Coating of Polyethylene Glycol (PEG)

by Gaire, Janak , McDermott, Matthew D. , Park, Kinam , Currlin, Seth W. , Otto, Kevin J. , Lee, Heui C.

in Astrocytes / Biofouling / Biomedical engineering / Biomedical materials / Blood-brain barrier / chronic neural implant / Coatings / Cortex (somatosensory) / CX3CR1 protein / CX3CR1-GFP / Engineering / foreign body response (FBR) / Macrophages / Microelectrodes / Microglia / neuroprosthetics / Neuroscience / Polyethylene glycol / polyethylene glycol (PEG) / Silicon / Transplants & implants / Traumatic brain injury

2017

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Foreign Body Response to Intracortical Microelectrodes Is Not Altered with Dip-Coating of Polyethylene Glycol (PEG)

by Gaire, Janak , McDermott, Matthew D. , Park, Kinam , Currlin, Seth W. , Otto, Kevin J. , Lee, Heui C.

2017

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Foreign Body Response to Intracortical Microelectrodes Is Not Altered with Dip-Coating of Polyethylene Glycol (PEG)

by Gaire, Janak , McDermott, Matthew D. , Park, Kinam , Currlin, Seth W. , Otto, Kevin J. , Lee, Heui C.

2017

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Journal Article

Foreign Body Response to Intracortical Microelectrodes Is Not Altered with Dip-Coating of Polyethylene Glycol (PEG)

Gaire, Janak,

McDermott, Matthew D.,

Park, Kinam,

Currlin, Seth W.,

Otto, Kevin J.,

Lee, Heui C.

2017

Overview

Poly(ethylene glycol) (PEG) is a frequently used polymer for neural implants due to its biocompatible property. As a follow-up to our recent study that used PEG for stiffening flexible neural probes, we have evaluated the biological implications of using devices dip-coated with PEG for chronic neural implants. Mice (wild-type and CX3CR1-GFP) received bilateral implants within the sensorimotor cortex, one hemisphere with a PEG-coated probe and the other with a non-coated probe for 4 weeks. Quantitative analyses were performed using biomarkers for activated microglia/macrophages, astrocytes, blood-brain barrier leakage, and neuronal nuclei to determine the degree of foreign body response (FBR) resulting from the implanted microelectrodes. Despite its well-known acute anti-biofouling property, we observed that PEG-coated devices caused no significantly different FBR compared to non-coated controls at 4 weeks. A repetition using CX3CR1-GFP mice cohort showed similar results. Our histological findings suggest that there is no significant impact of acute delivery of PEG on the FBR in the long-term, and that temporary increase in the device footprint due to the coating of PEG also does not have a significant impact. Large variability seen within the same treatment group also implies that avoiding large superficial vasculature during implantation is not sufficient to minimize inter-animal variability.

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Publisher

Frontiers Research Foundation,Frontiers Media S.A

Subject

Astrocytes

/ Biofouling

/ Biomedical engineering

/ Biomedical materials

/ Blood-brain barrier

/ chronic neural implant

/ Coatings