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The cerebellar deep nuclei: a patch for rate codes?

Gilbert, Mike and Rasmussen, Anders LU orcid (2025) In Frontiers in Neural Circuits 19.
Abstract
Neural firing rates are thought to represent values which code information. There are drawbacks with using biophysical events to represent numbers. (1) Rate code (like any sequence) is inherently slow to read. (2) At short intervals, the code becomes unintelligible biophysical noise. (3) Transmission times. The vital contribution of the cerebellum to skilled execution and coordination of movements requires precision timing. We present a theory supported by modeling that the output cell group of the cerebellar network is a practical solution to timing problems. In this role, it converts irregularly-patterned firing of Purkinje cells into an effectively instantaneous rate received by output cells, transforms the rate into linear analog... (More)
Neural firing rates are thought to represent values which code information. There are drawbacks with using biophysical events to represent numbers. (1) Rate code (like any sequence) is inherently slow to read. (2) At short intervals, the code becomes unintelligible biophysical noise. (3) Transmission times. The vital contribution of the cerebellum to skilled execution and coordination of movements requires precision timing. We present a theory supported by modeling that the output cell group of the cerebellar network is a practical solution to timing problems. In this role, it converts irregularly-patterned firing of Purkinje cells into an effectively instantaneous rate received by output cells, transforms the rate into linear analog modulation of output cell firing, synchronizes firing between output cells, and compensates for lag caused by extracerebellar transmission times. The cerebellum is widely connected to the midbrain and the cerebral cortex and involved in cognitive functions. Modular network wiring suggests that the cerebellum may perform the same computation on input from all sources regardless of where it is from. If so, and the deep cerebellar nuclei make the same contribution to the role of the cerebellum in other functions, an understanding of motor function would also provide insight into the substrate of cognitive functions. (Less)
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publication status
published
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in
Frontiers in Neural Circuits
volume
19
article number
1548123
publisher
Frontiers Media S. A.
external identifiers
  • pmid:40265048
  • scopus:105003721583
ISSN
1662-5110
DOI
10.3389/fncir.2025.1548123
language
English
LU publication?
yes
id
7e486c8d-acb2-4816-9da6-8f9f8063a399
date added to LUP
2025-04-24 19:52:50
date last changed
2025-05-20 04:02:37
@article{7e486c8d-acb2-4816-9da6-8f9f8063a399,
  abstract     = {{Neural firing rates are thought to represent values which code information. There are drawbacks with using biophysical events to represent numbers. (1) Rate code (like any sequence) is inherently slow to read. (2) At short intervals, the code becomes unintelligible biophysical noise. (3) Transmission times. The vital contribution of the cerebellum to skilled execution and coordination of movements requires precision timing. We present a theory supported by modeling that the output cell group of the cerebellar network is a practical solution to timing problems. In this role, it converts irregularly-patterned firing of Purkinje cells into an effectively instantaneous rate received by output cells, transforms the rate into linear analog modulation of output cell firing, synchronizes firing between output cells, and compensates for lag caused by extracerebellar transmission times. The cerebellum is widely connected to the midbrain and the cerebral cortex and involved in cognitive functions. Modular network wiring suggests that the cerebellum may perform the same computation on input from all sources regardless of where it is from. If so, and the deep cerebellar nuclei make the same contribution to the role of the cerebellum in other functions, an understanding of motor function would also provide insight into the substrate of cognitive functions.}},
  author       = {{Gilbert, Mike and Rasmussen, Anders}},
  issn         = {{1662-5110}},
  language     = {{eng}},
  publisher    = {{Frontiers Media S. A.}},
  series       = {{Frontiers in Neural Circuits}},
  title        = {{The cerebellar deep nuclei: a patch for rate codes?}},
  url          = {{http://dx.doi.org/10.3389/fncir.2025.1548123}},
  doi          = {{10.3389/fncir.2025.1548123}},
  volume       = {{19}},
  year         = {{2025}},
}