In vivo diffusion analysis with quantum dots and dextrans predicts the width of brain extracellular space
New York University · National Institutes of Health
Abstract
Diffusion within the extracellular space (ECS) of the brain is necessary for chemical signaling and for neurons and glia to access nutrients and therapeutics; however, the width of the ECS in living tissue remains unknown. We used integrative optical imaging to show that dextrans and water-soluble quantum dots with Stokes-Einstein diameters as large as 35 nm diffuse within the ECS of adult rat neocortex in vivo. Modeling the ECS as fluid-filled "pores" predicts a normal width of 38-64 nm, at least 2-fold greater than estimates from EM of fixed tissue. ECS width falls below 10 nm after terminal ischemia, a likely explanation for the small ECS visualized in electron micrographs. Our results will improve modeling…
Citation impact
- FWCI
- 17.27
- Percentile
- 100%
- References
- 63
Authors
2Topics & keywords
- Extracellular
- Neocortex
- Biophysics
- In vivo
- Diffusion
- Chemistry
- Liposome
- Budding