Abstract
The two major cortices of the brain - the cerebral and cerebellar cortex - are massively connected through intercalated nuclei (pontine, cerebellar and thalamic nuclei). We suggest that the two cortices co-operate by generating precise temporal patterns in the cerebral cortex that are detected in the cerebellar cortex as temporal patterns assembled spatially in the mossy fibers. We will begin by showing that the tidal-wave mechanism works in the cerebellar cortex as a read-out mechanism for such spatio-temporal patterns due to the synchronous activity they generate in the parallel fiber system which drives the Purkinje cells - the output neurons of the cerebellar cortex - to fire action potentials. We will review the anatomy of the mossy fibers and show that within a "beam", or "row" of cerebellar cortex the mossy fibers in principle could embed a vast number of tidal-wave generating sequences. Based on anatomical data we will argue that the cerebellar mossy fiber-granule cell-Purkinje cell system can potentially detect and - through learning - select from an enormous number of spatio-temporal patterns.
Original language | English (US) |
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Pages (from-to) | 591-600 |
Number of pages | 10 |
Journal | Journal of Physiology Paris |
Volume | 97 |
Issue number | 4-6 |
DOIs | |
State | Published - Jul 2003 |
Externally published | Yes |
Keywords
- Granule cells
- Information storage
- Model
- Mossy fibers
- Spatio-temporal patterns
- Timing