This research investigates how misfolded Islet Amyloid Polypeptide (IAPP), a protein associated with Type 2 diabetes, affects blood clot formation. Laboratory experiments showed that misfolded IAPP creates unusually dense and resilient clots. These findings may help explain elevated cardiovascular risk in diabetes and identify new targets for preventing heart attacks and strokes.

This research develops a method to deliver EGCG, a green tea compound known to break apart Alzheimer's-related protein tangles, into the brain. By chemically attaching EGCG to a carrier that can cross the brain's protective barrier, the project aims to create a potential therapeutic strategy for slowing memory loss and disease progression.

Prion diseases like CJD are extremely hard to detect early because harmful prions resemble normal brain proteins. This research introduces a new “flashbody” detection tool that binds only disease-causing prions, providing rapid, accurate, equipment-free diagnosis. Early lab results and patient-screening trials are promising, with potential applications to Alzheimer’s and other dementias.