Ageing increases reliance on sensorimotor prediction through structural and functional differences in frontostriatal circuits

Cam-CAN consortium

doi:10.1038/ncomms13034

Ageing increases reliance on sensorimotor prediction through structural and functional differences in frontostriatal circuits

Cam-CAN consortium

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

85 Scopus citations

Abstract

The control of voluntary movement changes markedly with age. A critical component of motor control is the integration of sensory information with predictions of the consequences of action, arising from internal models of movement. This leads to sensorimotor attenuation - a reduction in the perceived intensity of sensations from self-generated compared with external actions. Here we show that sensorimotor attenuation occurs in 98% of adults in a population-based cohort (n=325; 18-88 years; the Cambridge Centre for Ageing and Neuroscience). Importantly, attenuation increases with age, in proportion to reduced sensory sensitivity. This effect is associated with differences in the structure and functional connectivity of the pre-supplementary motor area (pre-SMA), assessed with magnetic resonance imaging. The results suggest that ageing alters the balance between the sensorium and predictive models, mediated by the pre-SMA and its connectivity in frontostriatal circuits. This shift may contribute to the motor and cognitive changes observed with age.

Original language	English
Article number	13034
Journal	Nature Communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms13034
State	Published - 3 Oct 2016
Externally published	Yes

Funding

Funders	Funder number
UK Research and Innovation
Medical Research Council	MC_U105597119, MC_UP_1401/1, MC_U105579215
Wellcome Trust	103838, 097803
Biotechnology and Biological Sciences Research Council	BB/H008217/1

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10.1038/ncomms13034

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@article{0dc87cc3d5f74a499dc8193c6654bf60,

title = "Ageing increases reliance on sensorimotor prediction through structural and functional differences in frontostriatal circuits",

abstract = "The control of voluntary movement changes markedly with age. A critical component of motor control is the integration of sensory information with predictions of the consequences of action, arising from internal models of movement. This leads to sensorimotor attenuation - a reduction in the perceived intensity of sensations from self-generated compared with external actions. Here we show that sensorimotor attenuation occurs in 98% of adults in a population-based cohort (n=325; 18-88 years; the Cambridge Centre for Ageing and Neuroscience). Importantly, attenuation increases with age, in proportion to reduced sensory sensitivity. This effect is associated with differences in the structure and functional connectivity of the pre-supplementary motor area (pre-SMA), assessed with magnetic resonance imaging. The results suggest that ageing alters the balance between the sensorium and predictive models, mediated by the pre-SMA and its connectivity in frontostriatal circuits. This shift may contribute to the motor and cognitive changes observed with age.",

author = "{Cam-CAN consortium} and Noham Wolpe and Ingram, {James N.} and Tsvetanov, {Kamen A.} and Linda Geerligs and Kievit, {Rogier A.} and Henson, {Richard N.} and Wolpert, {Daniel M.} and Rowe, {James B.} and Tyler, {Lorraine K.} and Carol Brayne and Edward Bullmore and Andrew Calder and Rhodri Cusack and Tim Dalgleish and John Duncan and Matthews, {Fiona E.} and William Marslen-Wilson and Shafto, {Meredith A.} and Karen Campbell and Teresa Cheung and Simon Davis and Anna McCarrey and Abdur Mustafa and Darren Price and David Samu and Taylor, {Jason R.} and Matthias Treder and {van Belle}, Janna and Nitin Williams and Lauren Bates and Tina Emery and Sharon Erzinclioglu and Andrew Gadie and Sofia Gerbase and Stanimira Georgieva and Claire Hanley and Beth Parkin and David Troy and Tibor Auer and Marta Correia and Lu Gao and Emma Green and Rafael Henriques and Jodie Allen and Gillian Amery and Liana Amunts and Anne Barcroft and Amanda Castle and Cheryl Dias and Jonathan Dowrick",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2016.",

year = "2016",

month = oct,

day = "3",

doi = "10.1038/ncomms13034",

language = "אנגלית",

volume = "7",

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AU - Cam-CAN consortium

AU - Wolpe, Noham

AU - Ingram, James N.

AU - Tsvetanov, Kamen A.

AU - Geerligs, Linda

AU - Kievit, Rogier A.

AU - Henson, Richard N.

AU - Wolpert, Daniel M.

AU - Rowe, James B.

AU - Tyler, Lorraine K.

AU - Brayne, Carol

AU - Bullmore, Edward

AU - Calder, Andrew

AU - Cusack, Rhodri

AU - Dalgleish, Tim

AU - Duncan, John

AU - Matthews, Fiona E.

AU - Marslen-Wilson, William

AU - Shafto, Meredith A.

AU - Campbell, Karen

AU - Cheung, Teresa

AU - Davis, Simon

AU - McCarrey, Anna

AU - Mustafa, Abdur

AU - Price, Darren

AU - Samu, David

AU - Taylor, Jason R.

AU - Treder, Matthias

AU - van Belle, Janna

AU - Williams, Nitin

AU - Bates, Lauren

AU - Emery, Tina

AU - Erzinclioglu, Sharon

AU - Gadie, Andrew

AU - Gerbase, Sofia

AU - Georgieva, Stanimira

AU - Hanley, Claire

AU - Parkin, Beth

AU - Troy, David

AU - Auer, Tibor

AU - Correia, Marta

AU - Gao, Lu

AU - Green, Emma

AU - Henriques, Rafael

AU - Allen, Jodie

AU - Amery, Gillian

AU - Amunts, Liana

AU - Barcroft, Anne

AU - Castle, Amanda

AU - Dias, Cheryl

AU - Dowrick, Jonathan

PY - 2016/10/3

Y1 - 2016/10/3

N2 - The control of voluntary movement changes markedly with age. A critical component of motor control is the integration of sensory information with predictions of the consequences of action, arising from internal models of movement. This leads to sensorimotor attenuation - a reduction in the perceived intensity of sensations from self-generated compared with external actions. Here we show that sensorimotor attenuation occurs in 98% of adults in a population-based cohort (n=325; 18-88 years; the Cambridge Centre for Ageing and Neuroscience). Importantly, attenuation increases with age, in proportion to reduced sensory sensitivity. This effect is associated with differences in the structure and functional connectivity of the pre-supplementary motor area (pre-SMA), assessed with magnetic resonance imaging. The results suggest that ageing alters the balance between the sensorium and predictive models, mediated by the pre-SMA and its connectivity in frontostriatal circuits. This shift may contribute to the motor and cognitive changes observed with age.

AB - The control of voluntary movement changes markedly with age. A critical component of motor control is the integration of sensory information with predictions of the consequences of action, arising from internal models of movement. This leads to sensorimotor attenuation - a reduction in the perceived intensity of sensations from self-generated compared with external actions. Here we show that sensorimotor attenuation occurs in 98% of adults in a population-based cohort (n=325; 18-88 years; the Cambridge Centre for Ageing and Neuroscience). Importantly, attenuation increases with age, in proportion to reduced sensory sensitivity. This effect is associated with differences in the structure and functional connectivity of the pre-supplementary motor area (pre-SMA), assessed with magnetic resonance imaging. The results suggest that ageing alters the balance between the sensorium and predictive models, mediated by the pre-SMA and its connectivity in frontostriatal circuits. This shift may contribute to the motor and cognitive changes observed with age.

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DO - 10.1038/ncomms13034

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AN - SCOPUS:84990049996

SN - 2041-1723

VL - 7

JO - Nature Communications

JF - Nature Communications

M1 - 13034

ER -

Ageing increases reliance on sensorimotor prediction through structural and functional differences in frontostriatal circuits

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