In this intriguing episode, Dr. Joseph Mazzulli, a 2022 Toffler Scholar, dives deep into the mechanisms of protein misfolding and amyloid formation, and their links to cell death in neurodegenerative diseases such as Parkinson's and Alzheimer's.
Utilizing cutting-edge induced pluripotent stem cell models, Dr. Mazzulli explores how these proteins transition from a soluble to an insoluble state, leading to disease.
Key Topics Covered:
Understanding Protein Misfolding: An exploration of how proteins like amyloid and tau transition to harmful states in the brain.
Innovative Research Techniques: Use of induced pluripotent stem cells (iPSCs) to model neurodegenerative diseases and test potential treatments.
Challenges in Neurodegenerative Research: The complexities of studying common and sporadic forms of diseases without clear genetic triggers.
Potential for Personalized Medicine: How iPSC technology could revolutionize treatment approaches through personalized medicine.
"The potential of induced pluripotent stem cells in disease modeling opens new doors for personalized medicine, transforming our approach to neurodegenerative diseases." - Joe Mazzulli
Stay engaged with the latest in brain science by subscribing to our podcast on your favorite streaming platform.
Visit our website for more resources and to join the conversation about advancing neurological research.
To learn more about the breakthroughs discussed in this episode and to support ongoing research, visit our website at tofflertrust.org.
Technical Podcast Support by Jon Keur at Wayfare Recording Co.