Description
Module 1: Engineering neural models and materials Chapter 1. Scaffolds for promoting neural repair (David Nisbet, Australian National University) Chapter 2. Composites for nerve regeneration (Narayan Bhattarai, NC A&T) Chapter 3. Configurable models of the blood-brain barrier (Monica Moya, Lawrence Livermore) Chapter 4. Engineering nerve conduits Chapter 5. Flexible electronics for stem cell differentiation (Jonathan Claussen, Iowa State) Module 2: Probing biological underpinnings of neurological function and disease Chapter 6. Nanosensors for brain chemistry (Markita Landry, UC Berkeley) Chapter 7. Nanomaterials for imaging the brain ECS (Laurent Cognet, University of Bordeaux) Chapter 8. Microfluidics for analysis of neuronal development (Martha Gillette, Univ Illinois Urbana-Champagne) Chapter 9. Multiple particle tracking measurements of extracellular matrix dysregulation (Elizabeth Nance, University of Washington) Module 3: Designing therapeutic and diagnostic interventions for neurological disease Chapter 10. Bioresponsive nanomaterials for treatment of CNS disease (Ester Kwon, UCSD) Chapter 11. Redox regulation for controlling cell fate (Kyle Lampe, UVA) Chapter 12. Polymersome delivery of CRISPR-based therapies (Jessica Larsen, Clemson) Chapter 13. Multifunctional polymers for targeted delivery (Suzie Pun, UW) Chapter 14. Theranostic nanomaterials for brain injury (Forrest Kievit, University of Nebraska-Lincoln)
