Positive association between blood brain barrier disruption and osmotically-induced demyelination

Rapid correction of chronic hyponatremia can cause osmotic brain demyelination in animals and humans. Why demyelination develops is unknown, but blood brain-barrier disruption might expose oligodendrocytes to substances normally excluded from the brain. To rest this hypothesis, chronic hyponatremia was induced and corrected using a new. reproducible rot model for producing osmotic brain demyelination. Blood brain barrier integrity was assessed by NMR imaging at either 3, 16 or 24 h during the first day of correction. Demyelination was determined histopathologically 5-6 days later. Of 96 rots studied demyelination developed 5-6 days later in 37 rots, 89% of whom showed barrier disruption In the 59 rots who did not develop demyelination, 45 (76%) had no barrier disruption. Thus, blood-brain barrier disruption during the first 24 h of correction was associated with a 70% risk of developing demyelination. By contrast the risk of developing subsequent demyelination was only 8% when the barrier was intact This strong association between barrier disruption and subsequent demyelination provides new insights into the role of blood brain barrier function in demyelinative disorders such as the osmotic demyelination syndrome and by extension to other demyelinative disorders such as multiple sclerosis.