Time course and sequence of pathological changes in the cerebellum of microsphere-embolized rats.

@article{Sekiguchi2005TimeCA,
  title={Time course and sequence of pathological changes in the cerebellum of microsphere-embolized rats.},
  author={Masaki Sekiguchi and Keiko Takagi and Norio Takagi and Ichiro Date and Satoshi Takeo and Osamu Tanaka and Ippei Yamato and Show Kobashikawa and Kojun Torigoe and Richard S. Nowakowski},
  journal={Experimental neurology},
  year={2005},
  volume={191 2},
  pages={266-75}
}
Ischemia is a major cause of damage to the central nervous system as a consequence of stroke or trauma. Here, we analyzed with high temporal resolution the time course of pathological changes in the neurons (granule and Purkinje cells) and glia (Bergmann and astroglia cells) in the cerebellar cortex and white matter. The period studied ranged from 30 min to 7 days after a microsphere-induced embolism used as a model of stroke and multi-infarct dementia. Some pathological changes in the neurons… CONTINUE READING

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Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Ischemia is a major cause of damage to the central nervous system as a consequence of stroke or trauma .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
Here , we analyzed with high temporal resolution the time course of pathological changes in the neurons ( granule and Purkinje cells ) and glia ( Bergmann and astroglia cells ) in the cerebellar cortex and white matter .
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