A quantitative analysis of cerebellar anatomy in birds

doi:10.1007/s00429-021-02352-2

. 2021 Nov;226(8):2561-2583.

doi: 10.1007/s00429-021-02352-2. Epub 2021 Aug 6.

A quantitative analysis of cerebellar anatomy in birds

Felipe Cunha¹, Cristian Gutiérrez-Ibáñez², Kelsey Racicot³, Douglas R Wylie², Andrew N Iwaniuk³

Affiliations

¹ Department of Neuroscience, University of Lethbridge, 4401 University Dr. W, Science & Academic Building, SA8150, Lethbridge, AB, T1K 6T5, Canada. felipebrcunha@gmail.com.
² Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada.
³ Department of Neuroscience, University of Lethbridge, 4401 University Dr. W, Science & Academic Building, SA8150, Lethbridge, AB, T1K 6T5, Canada.

PMID: 34357439
DOI: 10.1007/s00429-021-02352-2

A quantitative analysis of cerebellar anatomy in birds

Felipe Cunha et al. Brain Struct Funct. 2021 Nov.

. 2021 Nov;226(8):2561-2583.

doi: 10.1007/s00429-021-02352-2. Epub 2021 Aug 6.

Authors

Felipe Cunha¹, Cristian Gutiérrez-Ibáñez², Kelsey Racicot³, Douglas R Wylie², Andrew N Iwaniuk³

Affiliations

¹ Department of Neuroscience, University of Lethbridge, 4401 University Dr. W, Science & Academic Building, SA8150, Lethbridge, AB, T1K 6T5, Canada. felipebrcunha@gmail.com.
² Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada.
³ Department of Neuroscience, University of Lethbridge, 4401 University Dr. W, Science & Academic Building, SA8150, Lethbridge, AB, T1K 6T5, Canada.

PMID: 34357439
DOI: 10.1007/s00429-021-02352-2

Abstract

The cerebellum is largely conserved in its circuitry, but varies greatly in size and shape across species. The extent to which differences in cerebellar morphology is driven by changes in neuron numbers, neuron sizes or both, remains largely unknown. To determine how species variation in cerebellum size and shape is reflective of neuron sizes and numbers requires the development of a suitable comparative data set and one that can effectively separate different neuronal populations. Here, we generated the largest comparative dataset to date on neuron numbers, sizes, and volumes of cortical layers and surface area of the cerebellum across 54 bird species. Across different cerebellar sizes, the cortical layers maintained relatively constant proportions to one another and variation in cerebellum size was largely due to neuron numbers rather than neuron sizes. However, the rate at which neuron numbers increased with cerebellum size varied across Purkinje cells, granule cells, and cerebellar nuclei neurons. We also examined the relationship among neuron numbers, cerebellar surface area and cerebellar folding. Our estimate of cerebellar folding, the midsagittal foliation index, was a poor predictor of surface area and number of Purkinje cells, but surface area was the best predictor of Purkinje cell numbers. Overall, this represents the first comprehensive, quantitative analysis of cerebellar anatomy in a comparative context of any vertebrate. The extent to which these relationships occur in other vertebrates requires a similar approach and would determine whether the same scaling principles apply throughout the evolution of the cerebellum.

Keywords: Brain allometry; Brain evolution; Cerebellum; Neuroanatomy.

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References

1. Andersen BB, Korbo L, Pakkenberg B (1992) A quantitative study of the human cerebellum with unbiased stereological techniques. J Comparative Neurol 326(4):549–560 - DOI
1. Apps R, Hawkes R (2009) Cerebellar cortical organization: a one-map hypothesis. Nat Rev Neurosci 10(9):670–681 - PubMed - DOI - PMC
1. Apps R, Hawkes R, Aoki S, Bengtsson F, Brown AM, Chen G, Ebner TJ, Isope P, Jörntell H, Lackey EP (2018) Cerebellar modules and their role as operational cerebellar processing units. Cerebellum 17(5):654–682 - PubMed - PMC - DOI
1. Arends J, Zeigler HP (1991) Organization of the cerebellum in the pigeon (Columba livia): II. Projections of the cerebellar nuclei. J Comparative Neurol 306(2):245–272 - DOI
1. Boire D, Baron G (1994) Allometric comparison of brain and main brain subdivisions in birds. J Brain Res 35(1):49–66

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Andrew Iwaniuk/Canada Foundation for Innovation

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[1] Andersen BB, Korbo L, Pakkenberg B (1992) A quantitative study of the human cerebellum with unbiased stereological techniques. J Comparative Neurol 326(4):549–560 - DOI

[2] Andersen BB, Korbo L, Pakkenberg B (1992) A quantitative study of the human cerebellum with unbiased stereological techniques. J Comparative Neurol 326(4):549–560 - DOI

[3] Apps R, Hawkes R (2009) Cerebellar cortical organization: a one-map hypothesis. Nat Rev Neurosci 10(9):670–681 - PubMed - DOI - PMC

[4] Apps R, Hawkes R (2009) Cerebellar cortical organization: a one-map hypothesis. Nat Rev Neurosci 10(9):670–681 - PubMed - DOI - PMC

[5] Apps R, Hawkes R, Aoki S, Bengtsson F, Brown AM, Chen G, Ebner TJ, Isope P, Jörntell H, Lackey EP (2018) Cerebellar modules and their role as operational cerebellar processing units. Cerebellum 17(5):654–682 - PubMed - PMC - DOI

[6] Apps R, Hawkes R, Aoki S, Bengtsson F, Brown AM, Chen G, Ebner TJ, Isope P, Jörntell H, Lackey EP (2018) Cerebellar modules and their role as operational cerebellar processing units. Cerebellum 17(5):654–682 - PubMed - PMC - DOI

[7] Arends J, Zeigler HP (1991) Organization of the cerebellum in the pigeon (Columba livia): II. Projections of the cerebellar nuclei. J Comparative Neurol 306(2):245–272 - DOI

[8] Arends J, Zeigler HP (1991) Organization of the cerebellum in the pigeon (Columba livia): II. Projections of the cerebellar nuclei. J Comparative Neurol 306(2):245–272 - DOI

[9] Boire D, Baron G (1994) Allometric comparison of brain and main brain subdivisions in birds. J Brain Res 35(1):49–66

[10] Boire D, Baron G (1994) Allometric comparison of brain and main brain subdivisions in birds. J Brain Res 35(1):49–66

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A quantitative analysis of cerebellar anatomy in birds

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A quantitative analysis of cerebellar anatomy in birds

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