Translational Neuroimmunology: Charles L. Howe

Novel tools for neuroimmunological research
Primary mouse cortical neurons grown in polymeric microfluidic isolation devices permit the separation and independent manipulation of pure axons (right side). The neuron cell bodies (left side; nuclei in blue) extend long axons (green) through physical channels (center) that prohibit entry of cells. The axons enter a distal chamber that allows the lab to analyze axon physiology and pathophysiology. Axons frequently grow several millimeters long in this platform.

Projects

Charles L. Howe, Ph.D. and his colleagues in the Translational Neuroimmunology lab study therapies to protect and repair the central nervous system. The lab aims to better understand mechanisms underlying conditions including epilepsy and multiple sclerosis with the aim of developing novel neuroimmunological treatments.

Learn more about the lab's projects:

Mechanisms of Axon Injury in Multiple Sclerosis
Stem Cell Transplant Strategies in Multiple Sclerosis
Neuroinflammatory Trafficking During Acute Viral Infection of the Brain
Development of Novel Neuroprotective Strategies
Mechanisms of Inflammation-Mediated Neural Circuit Disruption and Dysregulation
The Neuroinflammatory Basis of Epilepsy

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ART-20455388

Translational Neuroimmunology: Charles L. Howe

Novel tools for neuroimmunological research

Projects

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