Understanding how Wnt signaling helps guide nerve growth and repair
Characterizing Wnt Signaling Pathways in Axon Guidance
This study is looking at how certain signals in the body help nerve cells grow and connect properly, which could lead to new ways to help people recover from spinal cord injuries and other nerve-related conditions.
Quick facts
| Grant type | R37 grant |
|---|---|
| Study type | NIH-funded research |
| Funding institution | University of California, San Diego NIH-funded |
| Lab location | 1 site (La Jolla, United States) |
| Project ID | NIH-11193679 on NIH RePORTER |
What this research studies
This research investigates the role of Wnt signaling pathways in guiding the growth of axons, which are crucial for forming neural circuits. It aims to uncover how these pathways influence the direction of axon growth and their potential in promoting recovery after spinal cord injuries. By exploring the interactions between different signaling pathways, the research seeks to enhance our understanding of nerve regeneration and repair mechanisms. Patients may benefit from insights that could lead to new treatments for neurodegenerative diseases and spinal cord injuries.
Who could benefit from this research
Good fit: Ideal candidates for this research are adults with spinal cord injuries or neurodegenerative conditions affecting nerve function.
Not a fit: Patients with non-neurological conditions or those who are not adults may not receive benefits from this research.
Why it matters
Potential benefit: If successful, this research could lead to innovative therapies that improve nerve regeneration and recovery from spinal cord injuries.
How similar studies have performed: Previous research has shown promising results in understanding axon guidance and regeneration, making this approach a continuation of established findings.
Where this research is happening
La Jolla, United States
- University of California, San Diego — La Jolla, United States (Active)
Researchers
- Principal investigator: Zou, Yimin — University of California, San Diego
- Study coordinator: Zou, Yimin
About this research
- This is an active NIH-funded research project — typically early-stage science, not a clinical trial accepting patient enrollment.
- Some NIH-funded labs run parallel clinical studies or seek volunteers for related work. To check, contact the principal investigator or institution listed above.
- For full project details, budget, and progress reports, visit the official NIH RePORTER page below.