Layer-specific activation of sensory input and predictive feedback in the human primary somatosensory cortex

Yinghua Yu; Laurentius Huber; Jiajia Yang; David C. Jangraw; Daniel A. Handwerker; Peter J. Molfese; Gang Chen; Yoshimichi Ejima; Jinglong Wu; Peter A. Bandettini

doi:10.1126/sciadv.aav9053

Layer-specific activation of sensory input and predictive feedback in the human primary somatosensory cortex

Yinghua Yu, Laurentius Huber, Jiajia Yang, David C. Jangraw, Daniel A. Handwerker, Peter J. Molfese, Gang Chen, Yoshimichi Ejima, Jinglong Wu, Peter A. Bandettini

Research output: Contribution to journal › Article › peer-review

38 Citations (Scopus)

Abstract

When humans perceive a sensation, their brains integrate inputs from sensory receptors and process them based on their expectations. The mechanisms of this predictive coding in the human somatosensory system are not fully understood. We fill a basic gap in our understanding of the predictive processing of somatosensation by examining the layer-specific activity in sensory input and predictive feedback in the human primary somatosensory cortex (S1). We acquired submillimeter functional magnetic resonance imaging data at 7T (n = 10) during a task of perceived, predictable, and unpredictable touching sequences. We demonstrate that the sensory input from thalamic projects preferentially activates the middle layer, while the superficial and deep layers in S1 are more engaged for cortico-cortical predictive feedback input. These findings are pivotal to understanding the mechanisms of tactile prediction processing in the human somatosensory cortex.

Original language	English
Article number	eaav9053
Journal	Science Advances
Volume	5
Issue number	5
DOIs	https://doi.org/10.1126/sciadv.aav9053
Publication status	Published - May 15 2019

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title = "Layer-specific activation of sensory input and predictive feedback in the human primary somatosensory cortex",

abstract = "When humans perceive a sensation, their brains integrate inputs from sensory receptors and process them based on their expectations. The mechanisms of this predictive coding in the human somatosensory system are not fully understood. We fill a basic gap in our understanding of the predictive processing of somatosensation by examining the layer-specific activity in sensory input and predictive feedback in the human primary somatosensory cortex (S1). We acquired submillimeter functional magnetic resonance imaging data at 7T (n = 10) during a task of perceived, predictable, and unpredictable touching sequences. We demonstrate that the sensory input from thalamic projects preferentially activates the middle layer, while the superficial and deep layers in S1 are more engaged for cortico-cortical predictive feedback input. These findings are pivotal to understanding the mechanisms of tactile prediction processing in the human somatosensory cortex.",

author = "Yinghua Yu and Laurentius Huber and Jiajia Yang and Jangraw, {David C.} and Handwerker, {Daniel A.} and Molfese, {Peter J.} and Gang Chen and Yoshimichi Ejima and Jinglong Wu and Bandettini, {Peter A.}",

note = "Funding Information: We thank B. Poser and D. Ivanov for the 3D-EPI readout that was used in the VASO sequence used here. We thank A. “Harry” Hall, N. Topolski, Y. Chai, and K. Chung for administrative support of human volunteer scanning. We thank C. St{\"u}ber for sharing ex vivo data used in fig. S1. The research was conducted as part of the NIMH Intramural Research Program (no. ZIA-MH002783). We thank the NIH machine shop for help with 3D printing of the touching device. This work was supported by JSPS KAKENHI grant numbers JP17J40084, JP18K15339, JP18H05009, JP17K18855, and Japan-U.S. Science and Technology Cooperation Program (Brain Research). This work was supported by the Netherlands Organization for Scientific Research (NWO; Vidi grant 016.Veni.198.032). Publisher Copyright: Copyright {\textcopyright} 2019 The Authors.",

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doi = "10.1126/sciadv.aav9053",

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AU - Yu, Yinghua

AU - Huber, Laurentius

AU - Yang, Jiajia

AU - Jangraw, David C.

AU - Handwerker, Daniel A.

AU - Molfese, Peter J.

AU - Chen, Gang

AU - Ejima, Yoshimichi

AU - Wu, Jinglong

AU - Bandettini, Peter A.

N1 - Funding Information: We thank B. Poser and D. Ivanov for the 3D-EPI readout that was used in the VASO sequence used here. We thank A. “Harry” Hall, N. Topolski, Y. Chai, and K. Chung for administrative support of human volunteer scanning. We thank C. Stüber for sharing ex vivo data used in fig. S1. The research was conducted as part of the NIMH Intramural Research Program (no. ZIA-MH002783). We thank the NIH machine shop for help with 3D printing of the touching device. This work was supported by JSPS KAKENHI grant numbers JP17J40084, JP18K15339, JP18H05009, JP17K18855, and Japan-U.S. Science and Technology Cooperation Program (Brain Research). This work was supported by the Netherlands Organization for Scientific Research (NWO; Vidi grant 016.Veni.198.032). Publisher Copyright: Copyright © 2019 The Authors.

PY - 2019/5/15

Y1 - 2019/5/15

N2 - When humans perceive a sensation, their brains integrate inputs from sensory receptors and process them based on their expectations. The mechanisms of this predictive coding in the human somatosensory system are not fully understood. We fill a basic gap in our understanding of the predictive processing of somatosensation by examining the layer-specific activity in sensory input and predictive feedback in the human primary somatosensory cortex (S1). We acquired submillimeter functional magnetic resonance imaging data at 7T (n = 10) during a task of perceived, predictable, and unpredictable touching sequences. We demonstrate that the sensory input from thalamic projects preferentially activates the middle layer, while the superficial and deep layers in S1 are more engaged for cortico-cortical predictive feedback input. These findings are pivotal to understanding the mechanisms of tactile prediction processing in the human somatosensory cortex.

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Layer-specific activation of sensory input and predictive feedback in the human primary somatosensory cortex

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