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- Wofford Biomaterial Mediated Reprogramming of Monocytes Via Microparticle Phagocytosis for Sustain Modulation of Macrophage Phenotype
- Bundled Three dimensional Human Axon Tracts Derived from Cerebral Organoids
- stretch growth of motor axons in custom mechanobioreactors to generate long projecting axonal constructs
- Emerging Regenerative Medicine and Tissue Engineering Strategies for Parkinsons Disease
- Injectable and Conductive Granular Hydrogels for 3D Printing and Electroactive Tissue Support
- Non Thermal Plasma Accelerates Astrocye Regrowth and Neurite Regeneration Following Physical Trauma In Vitro
- Bioactive Neuroelectronic Interfaces
- Acute Drivers of Neuroinflammation in Traumatic Brain Injury
- Scaffolds for Brain Tissue Reconstruction
- Modulation of Macrophage Phenotype via Phagocytosis of Drug Loaded Microparticles
- Scaffolds for Bridging Sciatic Nerve Gaps
- Challenges and Demand for Modeling Disorders of Consciousness following Traumatic Brain Injury
- Biomimetic Extracellular Matrix Coatings Improve the Chronic Biocompatibility of Microfabricated Subdural Microelectrode Arrays
- Microfabricated Intracortical Extracellular Matrix Microelectrodes for Improving Neural Interfaces
- Assessing Functional Connectivity Across Three Dimensional Tissue Engineered Axonal Tracts Using Calcium Fluorescence Imaging
- Tissue Engineered Rostral Migratory Stream for Directed Neuronal Replacement
- Modeling Traumatic Brain Injury In Vitro
- Three Dimensional BioPrinted Scaffold Free Nerve Constructs with Human Gingiva Derived Mesenchymal Stem Cells
- Tissue Engineered Nigrostriatal Pathway for Treatment of Parkinsons Disease
- Mechanial Disruption of the Blood Brain Barrier Following Experimental Concussion
- Neural Crest Stem-Like Cells Non-Genetically Induced from Huam Gingiva Derived Mesenchymal Stem Cells
- Three Dimensional Tissue Engineered Aligned Astrocyte Networks to Recapitulate Development MEchanisms
- Engineered Axonal Tracts as Living Electrodes for Synaptic Based Modulation of Neural Circuitry
- Concussion Induces Hippocampal Circuitry Disruption in Swine
- Anatomically Inspired Three Dimensional Micro Tissue Engineered Neural Networks for Nervous System Reconstruction Modulation and Modeling
- Rapid Neuroinflammatory Response Localized to Injured Neurons After Diffuse Traumatic Brain Injury in Swine
- To Reverse or Not to Reverse?
- Transplantable Living Scaffolds Comprised of Micro Tissue Engineered Aligned Astrocyte Networks to Facilitate Central Nervous System Regeneration
- The Evolution of Neuroprosthetic Interfaces
- Mechanical Elongation of Astrocyte Processes to Create Living Scaffolds for Nervous System Regeneration
- A Porcine Model of Traumatic Brain Injury Via Head Rotational Acceleration Injury Models of Central Nervous System
- Biomechanical Basis of Traumatic Brain Injury
- Extracellular Matrix Derived Tissues for Neurological Applications Extracellular Matrix Derived Medical Implants
- Neural Substrate Expansion for the Restoration of Brain Function
- Advanced Biomaterial Strategies to Transplant Preformed Micro Tissue Engineered Neural Networks into the Brain
- SNTF Immunostaining Reveals Previously Undetected Axonal Pathology In Traumatic Brain Injury
- Rebuilding Brain Circuitry with Living Micro Tissue Engineered Neural Networks
- Restoring Nervous System Structure and Function Using Tissue Engineered Living Scafolds
- 3-D Image Processing Techniques for Rapid Automated Segmentation of Neuronal Somata with Dense Neurite Outgrowth
- Living Scaffolds for Neuroregeneration
- Dynamic Evaluation of a Digital Wireless Intracranial Pressure Sensor for the Assessment of Traumatic Brain Injury in a Swine Model
- Bionic Connections Living Bridges to Connect Bionic Limbs to Nervous System
- Micro Tissue Engineered Constructs with Living Axons for Targeted Tract Reconstruction
- A Dynamic Study of Wireless Intracranial Pressure Monitoring of Rotational Head Injury in Swine Model
- Trauma Induced Plasmalemma Disruptions in 3-D Neural Cultures are Dependent on Strain Modality and Rate
- Effects of Freezing Profile Parameters on the Survival of Cryopreserved Rat Embryonic Neural Cells
- Transformative Research in Neural Engineering
- Neural Tissue Engineering and Biohybridized Microsystems for Neurobiological Investigation in Vitro
- In Vitro Models for Biomechanical Studies of Neural Tissues
- State of the art and future challenges in neural engineering neural interfaces
- State of the Art and future challenges in neural engineering strategies for nervous system repair
- Biomedical Engineering strategies for peripheral nerve repair
- Color Changing Photonic Crystals Detect Blast Exposure
- Synapse to neuro ratio is inversely related to neuronal density in mature neuronal cultures
- Three Dimensional Neuronal Cultures
- Plasma Membrane Damage as a Marker of Neruonal Injury
- A microperfused incubator for tissue mimetic 3-d cultures
- Long-Term Survival and Integration of Transplanted Engineered Nervous Tissue Constructs Promotes Peripheral Nerve Regeneration
- SU-8 2000 rendered cytocompatible for neuronal bioMEMS applications
- Developing a tissue-engineered neural-electrical relay using encapsulated neuronal constructs on conducting polymer fibers
- A novel neuro prosthetic interface with the peripheral nervous system using artificially engineered axonal tracts
- 3-d neural constructs a novel platform for neurophysiological investigation
- In Vitro Neural Injury Model for Optimization of Tissue Engineered Constructs
- Strain Rate Dependent Induction of Reactive Astrogliosis and Cell Death in 3-D Neuronal Astrocytic Co-Cultures
- CNS Injury Biomechanics and Experimental Models
- Microfluidic Engineered High Cell Density 3-D Neural Cultures
- Collagen-Dependent Neurtie Outgrowth and Response to Dynamic Deformation in 3-D Neuronal Cultures
- High Rate Shear Insult Delivered to Cortical Neurons Produces Heterogeneous Membrane Permeability Alterations
- Neuronal Response to High Rate Shear Deformation
- High Cell Density 3-D Neural Co-Cultures
- High Rate Shear Strain of 3-D Neural Cell Cultures
- Cullen Lab & UNCF STEM Scholars Internship
- Tissue Engineering and Biomaterial Strategies to Elicit Endogenous Neuronal Replacement in the Brain
- Innervation: the Missing Link for Biofabricated Tissues and Organs
- Tissue Engineered Axon Tracts Serve as Living Scaffolds to Accelerate Axonal Regeneration and Functional Recovery Following Peripheral Nerve Injury in Rats
- Engineered Microtissue as an Anatomically-Inspired Model of Parkinson’s Disease
- Tyrosine-derived polycarbonate nerve guidance tubes elicit proregenerative extracellular matrix deposition when used to bridge segmental nerve defects in swine
- Tissue Engineered Bands of Bungner for Accelerated Motor and Sensory Axonal Outgrowth
- Development of Optically-Controlled "Living Electrodes" with Long-Projecting Axon Tracts for a Synaptic Brain-Machine Interface
- Implantation of Engineered Axon Tracts to Bridge Spinal Cord Injury Beyond the Glial Scar in Rats
- Laboratory Assessment of a Headband-Mounted Sensor for Measurement of Head Impact Rotational Kinematics
- Diverse Changes in Microglial Morphology and Axonal Pathology During the Course of One Year After Mild Traumatic Brain Injury in Pigs
- Reproducibility and Characterization of Head Kinematics During a Large Animal Acceleration Model of Traumatic Brain Injury
- Biopreservation of Living Tissue Engineered Nerve Grafts
- Relationships Between Injury Kinematics, Neurological Recovery, and Pathology Following Concussion
- Harnessing 3D Collagen Hydrogel-Directed Conversion of Human Gingiva-Derived Mesenchymal Stem Cells into SCP-like Cells to Generate Functionalized Nerve Conduits
- Neuroimmune Interactions and Immunoengineering Strategies in Peripheral Nerve Repair
- Restoring Lost Nigrostriatal Fibers in Parkinson’s Disease Based on Clinically-Inspired Design Criteria
- Implantation of a Nerve Protector Embedded with Human GMSC Derived Schwann-like Cells Accelerates Regeneration of Crush Injured Rat Sciatic Nerves
- Non-Linear Device-Head Coupling and Temporal Delays in Large Animal Acceleration Models of Traumatic Brain Injury
- Unique Astrocyte Cytoskeletal and Nuclear Morphology in a Three-Dimensional Tissue-Engineered Rostral Migratory Stream
- Emerging Approaches for Regenerative Rehabilitation Following Traumatic Brain Injury
- Bioengineering applications for hearing restoration: emerging biologically inspired and biointegrated designs
- Axonal Tract Reconstruction Using a Tissue Engineered Nigrostriatal Pathway in a Rat Model of Parkinson’s Disease
- Tissue-engineered grafts exploit axon-facilitated axon regeneration and pathway protection to enable recovery after 5-cm nerve defects in pigs
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