Assessment of Blood-Brain Barrier Permeability Using Miniaturized Fluorescence Microscopy in Freely Moving Rats.

We report here the method of visualization of brain microcirculation and assessment of blood-brain barrier (BBB) permeability changes using the miniature integrated fluorescence microscope (i.e., miniscope) technology in awake, freely moving rats. The imaging cannula is implanted in the brain area of interest of anesthetized adult rats. After recovery and habituation, sodium fluorescein, a low-molecular-weight tracer, is injected i.v. Fluorescence intensity in the vicinity of microvessels, as an indicator of BBB permeability, is then recorded in vivo via the miniscope for extended periods of time. The method can be used to assess the changes in BBB permeability produced by pharmacologic agents; in this case, the drug of interest is administered after sodium fluorescein. An increase in the sodium fluorescein extravasation in brain microcirculation demonstrates an increase in BBB permeability. The method described here allows a high-resolution visualization of real-time changes in BBB permeability in awake, freely moving rats.