Stall Catchers science
- Vessel movies in Stall Catchers are generated from state-of-the-art two and three-photon microscope images
- Stalls have been shown to occur in up to 2% of capillaries in AD-affected mice, resulting in 30% downstream reduction in brain blood flow – exactly the reduction observed in humans.
- Stalls could also be linked to ~30% reduced blood flow in the brain in AD patients
- Reversing stalls reduces AD symptoms in mice, including memory loss and mood changes
- One the ways stalls could drive AD is by reducing clearance of amyloid beta protein (Aβ) leading to accumulation of neurotoxic amyloid plaques
- Understanding the molecular mechanisms that drive stalls will help identify drugs that prevent or disrupt them without harming the organism
- Stall Catchers helps us look for the reasons behind stalls in the brains of mice, and test drugs that could prevent AD and/or reduce disease symptoms, at a much faster rate than in the lab
- Through Stall Catchers, we can test drugs that are already being used to treat other diseases, some of which could effectively reduce stalls, potentially enabling off-label use to treat Alzheimer’s
- With the help of citizen scientists, we could reduce the time to discover Alzheimer’s treatment targets from decades to just a few years
- Research made possible by Stall Catchers: https://blog.hcinst.org/tag/research/