Intranasal Delivery of Human Olfactory Stem Cells in SCI Treatment

Authors

Muhammad Dawood Tarar, Wayne State UniversityFollow
Alexander Hayes, Wayne State UniversityFollow
Camera Dockery, Wayne State UniversityFollow
Alexander Weiss, Wayne State UniversityFollow
Marwa Elgirsg, Wayne State UniversityFollow
Medha Guduguntla, Wayne State UniversityFollow
Jean Peduzzi-Nelson, Wayne State UniversityFollow

Research Mentor Name

Jean Peduzzi-Nelson

Research Mentor Email Address

jpeduzzi@med.wayne.edu

Institution / Department

Wayne State University School of Medicine

Document Type

Research Abstract

Research Type

basicbio

Level of Research

no

Abstract

Background:

Olfactory stem cells hold great promise as a treatment for neural injury and disease. Two types of stem cells are known to be present in the olfactory mucosa – basal epithelial cells and mesenchymal cells in the lamina propria. Basal epithelial cells, under stimulation of mesenchymal cells, are known to differentiate into neurons^1,2. Among other immunomodulatory functions³, mesenchymal cells are also observed to differentiate into neurons. Improvement with olfactory stem cells is observed in various animal models, including head injury⁴, nerve repair^5,6, and Alzheimer’s disease⁷. The purpose of this research is to explore the degree to which human olfactory stem cell treatment following spinal cord injury facilitates functional improvement.

Methods:

Human olfactory stem cellls were obtained using a Covid testing brush and expanded in culture. The cells are sent out for pathogen testing before use. A laminectomy is performed on under isoflurane anesthesia on male adult Sprague Dawley rats. After a left T11 hemisection, the rats received stem cells or vehicle solution intranasally immediately after injury and 10 days after injury. Function is evaluated using Basso, Beattie, and Bresnahan (BBB) locomotor rating scale. BBB is a 21-point scale that assigns a score bases on the degree of movement in the hip, knee and ankle joint and foot position. Rats are also tested using an inclined plane to determine the highest angle that rats can maintain their position.

Results:

Results of functional tests are still pending. It is expected that results will be collected and ready at the time of presentation.

Conclusion:

Following the completion of functional testing, improvement in mobility and range of motion over time in stem cell recipient rats will be compared to vehicle solution recipients to assess the benefit of the treatment. Clinical translation will be facilitated in that stem cells can obtained and delivered in minimally invasive manner.

Disciplines

Medicine and Health Sciences | Neurology

Recommended Citation

Tarar, Muhammad Dawood; Hayes, Alexander; Dockery, Camera; Weiss, Alexander; Elgirsg, Marwa; Guduguntla, Medha; and Peduzzi-Nelson, Jean, "Intranasal Delivery of Human Olfactory Stem Cells in SCI Treatment" (2025). Medical Student Research Symposium. 405.
https://digitalcommons.wayne.edu/som_srs/405