The macaque ventral intraparietal area has expanded into three homologue human parietal areas

Foster C, Sheng W-A, Heed T, Ben Hamed S (2022)
Progress in Neurobiology 209: 102185.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Foster, CeliaUniBi ; Sheng, Wei-An; Heed, TobiasUniBi ; Ben Hamed, Suliann
Abstract / Bemerkung
The macaque ventral intraparietal area (VIP) in the fundus of the intraparietal sulcus has been implicated in a diverse range of sensorimotor and cognitive functions such as motion processing, multisensory integration, processing of head peripersonal space, defensive behavior, and numerosity coding. Here, we exhaustively review macaque VIP function, cytoarchitectonics, and anatomical connectivity and integrate it with human studies that have attempted to identify a potential human VIP homologue. We show that human VIP research has consistently identified three, rather than one, bilateral parietal areas that each appear to subsume some, but not all, of the macaque area's functionality. Available evidence suggests that this human "VIP complex" has evolved as an expansion of the macaque area, but that some precursory specialization within macaque VIP has been previously overlooked. The three human areas are dominated, roughly, by coding the head or self in the environment, visual heading direction, and the peripersonal environment around the head, respectively. A unifying functional principle may be best described as prediction in space and time, linking VIP to state estimation as a key parietal sensorimotor function. VIP's expansive differentiation of head and self-related processing may have been key in the emergence of human bodily self-consciousness.
Erscheinungsjahr
2022
Zeitschriftentitel
Progress in Neurobiology
Band
209
Art.-Nr.
102185
ISSN
0301-0082
eISSN
1873-5118
Page URI
https://pub.uni-bielefeld.de/record/2959526

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Foster C, Sheng W-A, Heed T, Ben Hamed S. The macaque ventral intraparietal area has expanded into three homologue human parietal areas. Progress in Neurobiology. 2022;209: 102185.
Foster, C., Sheng, W. - A., Heed, T., & Ben Hamed, S. (2022). The macaque ventral intraparietal area has expanded into three homologue human parietal areas. Progress in Neurobiology, 209, 102185. https://doi.org/10.1016/j.pneurobio.2021.102185
Foster, Celia, Sheng, Wei-An, Heed, Tobias, and Ben Hamed, Suliann. 2022. “The macaque ventral intraparietal area has expanded into three homologue human parietal areas”. Progress in Neurobiology 209: 102185.
Foster, C., Sheng, W. - A., Heed, T., and Ben Hamed, S. (2022). The macaque ventral intraparietal area has expanded into three homologue human parietal areas. Progress in Neurobiology 209:102185.
Foster, C., et al., 2022. The macaque ventral intraparietal area has expanded into three homologue human parietal areas. Progress in Neurobiology, 209: 102185.
C. Foster, et al., “The macaque ventral intraparietal area has expanded into three homologue human parietal areas”, Progress in Neurobiology, vol. 209, 2022, : 102185.
Foster, C., Sheng, W.-A., Heed, T., Ben Hamed, S.: The macaque ventral intraparietal area has expanded into three homologue human parietal areas. Progress in Neurobiology. 209, : 102185 (2022).
Foster, Celia, Sheng, Wei-An, Heed, Tobias, and Ben Hamed, Suliann. “The macaque ventral intraparietal area has expanded into three homologue human parietal areas”. Progress in Neurobiology 209 (2022): 102185.

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