Blood–brain barrier damage and brain penetration of antiepileptic drugs: Role of serum proteins and brain edema
Open Access
- 3 April 2009
- Vol. 50 (4), 664-677
- https://doi.org/10.1111/j.1528-1167.2008.01989.x
Abstract
Purpose: Increased blood–brain barrier (BBB) permeability is radiologically detectable in regions affected by drug‐resistant epileptogenic lesions. Brain penetration of antiepileptic drugs (AEDs) may be affected by BBB damage. We studied the effects of BBB damage on brain distribution of hydrophilic [deoxy‐glucose (DOG) and sucrose] and lipophilic (phenytoin and diazepam) molecules. We tested the hypothesis that lipophilic and hydrophilic drug distribution is differentially affected by BBB damage. Methods: In vivo BBB disruption (BBBD) was performed in rats by intracarotid injection of hyperosmotic mannitol. Drugs (H3‐sucrose, 3H‐deoxy‐glucose, 14C‐phenytoin, and C14‐diazepam) or unlabeled phenytoin was measured and correlated to brain water content and protein extravasation. In vitro hippocampal slices were exposed to different osmolarities; drug penetration and water content were assessed by analytic and densitometric methods, respectively. Results: BBBD resulted in extravasation of serum protein and radiolabeled drugs, but was associated with no significant change in brain water. Large shifts in water content in brain slices in vitro caused a small effect on drug penetration. In both cases, total drug permeability increase was greater for lipophilic than hydrophilic compounds. BBBD reduced the amount of free phenytoin in the brain. Discussion: After BBBD, drug binding to protein is the main controller of total brain drug accumulation. Osmotic BBBD increased serum protein extravasation and reduced free phenytoin brain levels. These results underlie the importance of brain environment and BBB integrity in determining drug distribution to the brain. If confirmed in drug‐resistant models, these mechanisms could contribute to drug brain distribution in refractory epilepsies.Keywords
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