Book contents
- Brain Fables
- Brain Fables
- Copyright page
- Dedication
- Contents
- Preface 1 – The Question
- Preface 2 – Enter Patient
- Acknowledgements
- Special Thanks from Benjamin Stecher
- Chapter 1 The Shaky Six and the “Second Reality”
- Chapter 2 Pieces of a Puzzle?
- Chapter 3 Disease “Redefinition”: A Tough Pill to Swallow
- Chapter 4 Disease Subtypes: The Promise and the Fallacy
- Chapter 5 Protein Paradox
- Chapter 6 The Fault in Our Models
- Chapter 7 Biomarkers: The Promise and the Fallacy
- Chapter 8 Lessons from Oncology
- Chapter 9 Symptomatic vs. Disease-Modifying Therapies
- Chapter 10 The Hypothesis That Refuses to Die
- Chapter 11 Our Living Dissonance
- Chapter 12 The Scientific and Lay Narratives
- Chapter 13 Challenges Viewed from Afar
- Chapter 14 The Moonshot: Population-Based Studies of Aging
- Chapter 15 Predictions for the 2020s and Beyond
- Epilogue
- Note Added at Press Time – Reviving LOF
- References
- Index
Note Added at Press Time – Reviving LOF
Published online by Cambridge University Press: 29 June 2020
- Brain Fables
- Brain Fables
- Copyright page
- Dedication
- Contents
- Preface 1 – The Question
- Preface 2 – Enter Patient
- Acknowledgements
- Special Thanks from Benjamin Stecher
- Chapter 1 The Shaky Six and the “Second Reality”
- Chapter 2 Pieces of a Puzzle?
- Chapter 3 Disease “Redefinition”: A Tough Pill to Swallow
- Chapter 4 Disease Subtypes: The Promise and the Fallacy
- Chapter 5 Protein Paradox
- Chapter 6 The Fault in Our Models
- Chapter 7 Biomarkers: The Promise and the Fallacy
- Chapter 8 Lessons from Oncology
- Chapter 9 Symptomatic vs. Disease-Modifying Therapies
- Chapter 10 The Hypothesis That Refuses to Die
- Chapter 11 Our Living Dissonance
- Chapter 12 The Scientific and Lay Narratives
- Chapter 13 Challenges Viewed from Afar
- Chapter 14 The Moonshot: Population-Based Studies of Aging
- Chapter 15 Predictions for the 2020s and Beyond
- Epilogue
- Note Added at Press Time – Reviving LOF
- References
- Index
Summary
As Brain Fables was going through the final stages of publishing we became aware of Dr. Kariem Ezzat’s work on the physics of amyloids. In his laboratory at the Karolinska Institute, in Stockholm, he and his team have been examining what happens to proteins as they transform from their soluble to insoluble state (that is, go from being dissolved in the liquids in and around cells to becoming solid objects). Their experiments showed that as the normally soluble protein encounters an abnormal surface, such as a nanoparticle or a virus, referred to as a “nucleating factor”, it is forced to aggregate, becoming solid or insoluble; and turns into an amyloid. Many proteins help preserve the integrity of neurons in a soluble state.
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- Information
- Brain FablesThe Hidden History of Neurodegenerative Diseases and a Blueprint to Conquer Them, pp. 150Publisher: Cambridge University PressPrint publication year: 2020