Advanced Platform Technology Center,
Rehabilitation Research and Development,
Advanced Platform Technology Center, Rehabilitation Research and Development
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Integrin specificity and enhanced cellular activities associated with surfaces presenting a recombinant fibronectin fragment compared to RGD supports.
Biomaterials Nov, 2006 | Pubmed ID: 16846640
Preparation of homogeneous dispersions of tunicate cellulose whiskers in organic solvents.
Biomacromolecules Apr, 2007 | Pubmed ID: 17343361
Stimuli-responsive polymer nanocomposites inspired by the sea cucumber dermis.
Science (New York, N.Y.) Mar, 2008 | Pubmed ID: 18323449
A versatile approach for the processing of polymer nanocomposites with self-assembled nanofibre templates.
Nature nanotechnology Dec, 2007 | Pubmed ID: 18654428
Polymer nanocomposites with nanowhiskers isolated from microcrystalline cellulose.
Biomacromolecules Apr, 2009 | Pubmed ID: 19256493
Stimuli-responsive mechanically adaptive polymer nanocomposites.
ACS applied materials & interfaces Jan, 2010 | Pubmed ID: 20305827
Polymer brushes and self-assembled monolayers: Versatile platforms to control cell adhesion to biomaterials (Review).
Biointerphases Jun, 2009 | Pubmed ID: 20408714
Reduction of autofluorescence at the microelectrode-cortical tissue interface improves antibody detection.
Journal of neuroscience methods Jan, 2012 | Pubmed ID: 21978484
Stab injury and device implantation within the brain results in inversely multiphasic neuroinflammatory and neurodegenerative responses.
Journal of neural engineering Aug, 2012 | Pubmed ID: 22832283
An organotypic spinal cord slice culture model to quantify neurodegeneration.
Journal of neuroscience methods Nov, 2012 | Pubmed ID: 22975474
Bioinspired Water-Enhanced Mechanical Gradient Nanocomposite Films That Mimic the Architecture and Properties of the Squid Beak.
Journal of the American Chemical Society Mar, 2013 | Pubmed ID: 23530595
The effect of resveratrol on neurodegeneration and blood brain barrier stability surrounding intracortical microelectrodes.
Biomaterials Sep, 2013 | Pubmed ID: 23791503
Curcumin-releasing mechanically adaptive intracortical implants improve the proximal neuronal density and blood-brain barrier stability.
Acta biomaterialia May, 2014 | Pubmed ID: 24468582
A comparison of neuroinflammation to implanted microelectrodes in rat and mouse models.
Biomaterials Jul, 2014 | Pubmed ID: 24755527
The Effect of Residual Endotoxin Contamination on the Neuroinflammatory Response to Sterilized Intracortical Microelectrodes.
Journal of materials chemistry. B May, 2014 | Pubmed ID: 24778808
The roles of blood-derived macrophages and resident microglia in the neuroinflammatory response to implanted Intracortical microelectrodes.
Biomaterials Sep, 2014 | Pubmed ID: 24973296
Mechanically-compliant intracortical implants reduce the neuroinflammatory response.
Journal of neural engineering Oct, 2014 | Pubmed ID: 25125443
Development of Superoxide Dismutase Mimetic Surfaces to Reduce Accumulation of Reactive Oxygen Species for Neural Interfacing Applications.
Journal of materials chemistry. B Apr, 2014 | Pubmed ID: 25132966
Progress towards biocompatible intracortical microelectrodes for neural interfacing applications.
Journal of neural engineering Feb, 2015 | Pubmed ID: 25460808
Compliant intracortical implants reduce strains and strain rates in brain tissue in vivo.
Journal of neural engineering Jun, 2015 | Pubmed ID: 25834105
Implications of chronic daily anti-oxidant administration on the inflammatory response to intracortical microelectrodes.
Journal of neural engineering Aug, 2015 | Pubmed ID: 26015427
Influence of resveratrol release on the tissue response to mechanically adaptive cortical implants.
Acta biomaterialia Jan, 2016 | Pubmed ID: 26553391
Engineering and commercialization of human-device interfaces, from bone to brain.
Biomaterials Jul, 2016 | Pubmed ID: 27108404
High-throughput in vitro assay to evaluate the cytotoxicity of liberated platinum compounds for stimulating neural electrodes.
Journal of neuroscience methods Nov, 2016 | Pubmed ID: 27485087
Status Epilepticus due to Intraperitoneal Injection of Vehicle Containing Propylene Glycol in Sprague Dawley Rats.
Veterinary medicine international , 2017 | Pubmed ID: 28785508
Microelectrode implantation in motor cortex causes fine motor deficit: Implications on potential considerations to Brain Computer Interfacing and Human Augmentation.
Scientific reports Nov, 2017 | Pubmed ID: 29127346
Potential for thermal damage to the blood-brain barrier during craniotomy: implications for intracortical recording microelectrodes.
Journal of neural engineering Jun, 2018 | Pubmed ID: 29205169
Inhibition of the cluster of differentiation 14 innate immunity pathway with IAXO-101 improves chronic microelectrode performance.
Journal of neural engineering Apr, 2018 | Pubmed ID: 29219114
A Mosquito Inspired Strategy to Implant Microprobes into the Brain.
Scientific reports Jan, 2018 | Pubmed ID: 29317748
Targeting CD14 on blood derived cells improves intracortical microelectrode performance.
Biomaterials May, 2018 | Pubmed ID: 29471127
Implantation of Neural Probes in the Brain Elicits Oxidative Stress.
Frontiers in bioengineering and biotechnology , 2018 | Pubmed ID: 29487848
Evaluation of an in vivo model for ventricular shunt infection: a pilot study using a novel antimicrobial-loaded polymer.
Journal of neurosurgery 08, 2018 | Pubmed ID: 30074457
The Role of Toll-Like Receptor 2 and 4 Innate Immunity Pathways in Intracortical Microelectrode-Induced Neuroinflammation.
Frontiers in bioengineering and biotechnology , 2018 | Pubmed ID: 30159311
Characterization of the Neuroinflammatory Response to Thiol-ene Shape Memory Polymer Coated Intracortical Microelectrodes.
Micromachines Sep, 2018 | Pubmed ID: 30424419
Understanding the Effects of Both CD14-Mediated Innate Immunity and Device/Tissue Mechanical Mismatch in the Neuroinflammatory Response to Intracortical Microelectrodes.
Frontiers in neuroscience , 2018 | Pubmed ID: 30429766
A graphical user interface to assess the neuroinflammatory response to intracortical microelectrodes.
Journal of neuroscience methods 04, 2019 | Pubmed ID: 30664915
Neuron-like neural probes.
Nature materials 05, 2019 | Pubmed ID: 30804508
Understanding the Role of Innate Immunity in the Response to Intracortical Microelectrodes.
Critical reviews in biomedical engineering , 2018 | Pubmed ID: 30806249
Anti-inflammatory Approaches to Mitigate the Neuroinflammatory Response to Brain-Dwelling Intracortical Microelectrodes.
Journal of immunological sciences , 2018 | Pubmed ID: 30854523
Differential expression of genes involved in the acute innate immune response to intracortical microelectrodes.
Acta biomaterialia 01, 2020 | Pubmed ID: 31733330
Sonic Hedgehog is expressed by hilar mossy cells and regulates cellular survival and neurogenesis in the adult hippocampus.
Scientific reports 11, 2019 | Pubmed ID: 31758070
Toward Standardization of Electrophysiology and Computational Tissue Strain in Rodent Intracortical Microelectrode Models.
Frontiers in bioengineering and biotechnology , 2020 | Pubmed ID: 32457888
Mechanically adaptive implants fabricated with poly(2-hydroxyethyl methacrylate)-based negative photoresists.
Journal of materials chemistry. B 08, 2020 | Pubmed ID: 32555874
Editorial: Bridging the Gap in Neuroelectronic Interfaces.
Frontiers in neuroscience , 2020 | Pubmed ID: 32581667
Second Harmonic Generation Imaging of Collagen in Chronically Implantable Electrodes in Brain Tissue.
Frontiers in neuroscience , 2020 | Pubmed ID: 32733179
Investigating the Association between Motor Function, Neuroinflammation, and Recording Metrics in the Performance of Intracortical Microelectrode Implanted in Motor Cortex.
Micromachines Sep, 2020 | Pubmed ID: 32899336
Intracortical Microelectrode Array Unit Yield under Chronic Conditions: A Comparative Evaluation.
Micromachines Aug, 2021 | Pubmed ID: 34442594
Investigation of the Feasibility of Ventricular Delivery of Resveratrol to the Microelectrode Tissue Interface.
Micromachines Nov, 2021 | Pubmed ID: 34945296
Characterization of Active Electrode Yield for Intracortical Arrays: Awake versus Anesthesia.
Micromachines Mar, 2022 | Pubmed ID: 35334770
Reducing the "Stress": Antioxidative Therapeutic and Material Approaches May Prevent Intracortical Microelectrode Failure.
ACS macro letters Mar, 2015 | Pubmed ID: 35596335
Neuroinflammatory Gene Expression Analysis Reveals Pathways of Interest as Potential Targets to Improve the Recording Performance of Intracortical Microelectrodes.
Cells Jul, 2022 | Pubmed ID: 35954192
Allison E. Hess1,
Kelsey A. Potter1,2,
Dustin J. Tyler1,2,
Christian A. Zorman1,3,
Jeffrey R. Capadona1,2
1Advanced Platform Technology Center, Rehabilitation Research and Development, Louis Stokes Cleveland Department of Veterans Affairs Medical Center,
2Department of Biomedical Engineering, Case Western Reserve University,
3Department of Electrical Engineering and Computer Science, Case Western Reserve University
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