| Abstract: | Abstract— The marked cerebellar hypoplasia found in the homozygous (jj) Gunn rat with hereditary unconjugated hyperbilirubinaemia may provide an explanation of bilirubin neurotoxicity in vivo. In the jj Gunn rat. Purkinje cells were nearly selectively affected in the cerebellar cortex, and the cerebellar weight showed no increase after 10 days of age. The development-dependency of the cerebellar lesion was supported by the observation that the cerebellar lobuli which developed earlier were less affected. Brain bilirubin in the developing jj Gunn rat was determined by a spectrophotometric method, and was found to be extremely low (1–3 μg). The level of brain bilirubin decreased after birth, and showed little correlation with the level of bilirubin free of albumin which correlated clearly with total serum bilirubin level even in the neonate. These findings suggest that there is an affinity of brain tissue for bilirubin associated with the blood-brain barrier to bilirubin. No significant difference was found between the levels of bilirubin in the cerebellum and those of other brain regions in jj Gunn rat. These results seem to imply that the development-dependency of cerebellar hypoplasia in the jj rat may be due to the characteristic nature of rat cerebellar development, i.e. the postnatal neurogenesis. and not to changes in brain bilirubin levels. In the jj Gunn rat. cerebellar cell proliferation appears to be in some way affected by bilirubin during cerebellar development. |
