Projects per year
Personal profile
Personal profile
Philip J. Horner, Ph.D., received a Ph.D. in physiology from Ohio State University in 1995. He did post-doctoral training with Dr. Fred H. Gage and became a staff scientist in the Lab of Genetics at the Salk Institute in 1998. In 2001, Dr. Horner joined the faculty of the Department of Neurological Surgery at the University of Washington in Seattle. He directed a laboratory at the UW South Lake Union Campus and was a member of the Institute for Stem Cell and Regenerative Medicine. In 2015, Dr. Horner became the Scientific Director of the Center for Neuroregenerative Medicine and the Co-Director, Center for Regenerative and Restorative Neurosurgery at the Houston Methodist Research Institute in Houston Texas. Dr. Horner’s research focuses on the role of glial and neural progenitor cells in the regeneration of the injured and aging nervous system.
Research interests
The Horner lab is focused on the interaction between glial and neural cells following central nervous system challenge and specifically: 1) mechanisms of adult stem cell‐derived lesion remodeling/repair and 2) role of gliogenesis and gliosis in neural degeneration. Over the past decades, researchers have observed that the human brain and spinal cord retain a population of stem cells with the capacity to replace neurons and glia. However, during normal aging and following trauma or disease, the brain and spinal cord stem cells fail to replace needed circuitry. The Horner lab has been developing approaches to modify and amplify the fate of neural stem cells to increase cellular repair after spinal cord and brain injury. Together with electrical stimulation, the lab has shown that regeneration of neural circuitry offers hope for repair nervous system. Together with clinical research partners at Houston Methodist and our global partners, the Horner lab seeks to move from bench to bedside by engineering new neural circuits in people with chronic paralysis in order to restore hand function. Neural regeneration strategies are also being applied to stroke, head injury, glaucoma and motor/cognitive decline associated with aging.
Education/Academic qualification
Neurobiology, Postdoctoral Fellowship, The Salk Institute for Biological Studies
Award Date: Jun 30 2001
Physiology, PhD, Ohio State University
Award Date: Jun 30 1995
Physiology, MS, Ohio State University
Award Date: Jun 30 1992
Biochemistry & Molecular Biology, BS, University of Nevada, Reno
Award Date: Jun 30 1988
External positions
Professor of Physiology in Neurological Surgery, Weill Cornell Medical College
Jul 2016 → …
Research Area Keywords
- Neurosciences
- Regenerative Medicine
Free-text keywords
- Myelin
- Spinal cord
- Neural stem cells
- Optogenetics
- Multiple sclerosis
- Neural trauma
- Stroke
- Regeneration
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Collaborations and top research areas from the last five years
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Augmenting Rehabilitation Outcomes and Functional Neuroplasticity Using Epidural Stimulation of Cervical Spinal Cord
Sayenko, D. (PI), Faraji, A. (Key Personnel) & Horner, P. J. (Key Personnel)
8/6/24 → …
Project: Clinical Trial
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Training in Neural Control of organ Degeneration and Regeneration (NeuralCODR)
Horner, P. J. (PI)
7/1/24 → 6/30/27
Project: Federal Funding Agencies
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Harnessing neuroplasticity of postural sensorimotor networks using non-invasive spinal neuromodulation to maximize functional recovery after spinal cord injury
Sayenko, D. (PI), Barber, S. (Key Personnel), Faraji, A. (Key Personnel), Horner, P. J. (Key Personnel), Kaldis, T. (Key Personnel) & Mathur, S. (Key Personnel)
10/27/23 → …
Project: Clinical Trial
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Spinal Neuromodulation to Promote Physiologic and Molecular Plasticity in the Injured Spinal Cord
Horner, P. J. (PI)
9/20/23 → 8/31/28
Project: Federal Funding Agencies
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Training in Neural Control of organ Degeneration and Regeneration (NeuralCODR)
Horner, P. J. (PI)
7/1/22 → 6/30/27
Project: Federal Funding Agencies
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A novel minimally invasive and versatile kyphoplasty balloon-based model of porcine spinal cord injury
Barber, S. M., Wolfe, T., Steele, A. G., Hoffman, K., Hogan, M. K., Frazier, A., Tang, X., Sayenko, D. G. & Horner, P. J., 2024, In: Frontiers in Neurology. 15, p. 1422357 1422357.Research output: Contribution to journal › Article › peer-review
Open Access -
Electrokinetic convection-enhanced delivery for infusion into the brain from a hydrogel reservoir
Cruz-Garza, J. G., Bhenderu, L. S., Taghlabi, K. M., Frazee, K. P., Guerrero, J. R., Hogan, M. K., Humes, F., Rostomily, R. C., Horner, P. J. & Faraji, A. H., Jul 17 2024, In: Communications Biology. 7, 1, 869.Research output: Contribution to journal › Article › peer-review
Open Access -
iDISCO Tissue Clearing Whole-Brain and Light Sheet Microscopy for High-Throughput Imaging in a Mouse Model of Traumatic Brain Injury
Flinn, H., Cruz-Pineda, L., Montier, L., Horner, P. J. & Villapol, S., 2024, Methods in Molecular Biology. Humana Press, Vol. 2761. p. 589-597 9 p. (Methods in molecular biology (Clifton, N.J.)).Research output: Chapter in Book/Report/Conference proceeding › Chapter
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Mapping lumbar efferent and afferent spinal circuitries via paddle array in a porcine model
Steele, A. G., Taccola, G., Frazier, A. M., Manzella, M., Hogan, M., Horner, P. J., Faraji, A. H. & Sayenko, D. G., May 2024, In: Journal of Neuroscience Methods. 405, p. 110104 110104.Research output: Contribution to journal › Article › peer-review
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Assessment of spinal cord injury using ultrasound elastography in a rabbit model in vivo
Tang, S., Weiner, B., Taraballi, F., Haase, C., Stetco, E., Mehta, S. M., Shajudeen, P., Hogan, M., De Rosa, E., Horner, P. J., Grande-Allen, K. J., Shi, Z., Karmonik, C., Tasciotti, E. & Righetti, R., Sep 15 2023, In: Scientific Reports. 13, 1, p. 15323 15323.Research output: Contribution to journal › Article › peer-review
Open Access1 Scopus citations