We examined the effects of hyperglycemic hyperosmolality on blood-brain barrier (BBB) permeability during development. We hypothesized that the barrier becomes more resistant to hyperglycemic hyperosmolality during development, and the immature BBB is more resistant to glucose than to mannitol hyperosmolality. We quantified the BBB response to hyperosmolality with the blood-to-brain transfer constant (K(i)) in immature fetuses, premature, and newborn lambs. K(i) increased as a function of increases in osmolality. A segmented regression model described the relationship between K(i) and osmolality. At lower osmolalities, changes in K(i) were minimal but after a threshold, increases were linear. We examined responses of K(i) to hyperglycemic hyperosmolality by comparing the thresholds and slopes of the second regression segments. Lower thresholds and steeper slopes indicate greater vulnerability to hyperosmolality. Thresholds increased (P<0.05) during development in pons and superior colliculus. Thresholds were higher (P<0.05) during glucose than mannitol hyperosmolality in thalamus, superior colliculus, inferior colliculus and medulla of premature lambs, and in cerebrum and cerebellum of newborns. We conclude that BBB permeability increased as a function of changes in glucose osmolality, the barrier becomes more resistant to glucose hyperosmolality in two brain regions during development, and the barrier is more resistant to glucose than to mannitol hyperosmolality in some brain regions of premature and newborn lambs.
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| http://dx.doi.org/10.1038/jcbfm.2011.114 | DOI Listing |
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