Age-related reduction in motor adaptation: brain structural correlates and the role of explicit memory

Cam-CAN

doi:10.1016/j.neurobiolaging.2020.02.016

Age-related reduction in motor adaptation: brain structural correlates and the role of explicit memory

Cam-CAN

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

40 Scopus citations

Abstract

The adaption of movement to changes in the environment varies across life span. Recent evidence has linked motor adaptation and its reduction with age to differences in “explicit” learning processes. We examine differences in brain structure and cognition underlying motor adaptation in a population-based cohort (n = 322, aged 18–89 years) using a visuomotor learning task and structural magnetic resonance imaging. Reduced motor adaptation with age was associated with reduced volume in striatum, prefrontal, and sensorimotor cortical regions, but not cerebellum. Medial temporal lobe volume, including the hippocampus, became a stronger determinant of motor adaptation with age. Consistent with the role of the medial temporal lobes, declarative long-term memory showed a similar interaction, whereby memory was more positively correlated with motor adaptation with increasing age. By contrast, visual short-term memory was related to motor adaptation, independently of age. These results support the hypothesis that cerebellar learning is largely unaffected in old age, and the reduction in motor adaptation with age is driven by a decline in explicit memory systems.

Original language	English
Pages (from-to)	13-23
Number of pages	11
Journal	Neurobiology of Aging
Volume	90
DOIs	https://doi.org/10.1016/j.neurobiolaging.2020.02.016
State	Published - Jun 2020
Externally published	Yes

Funding

Funders	Funder number
James S. McDonnell Foundation 21st Century Science Initiative
National Institute for Health Research
Horizon 2020
Human Frontier Science Program
UK Research and Innovation
Biotechnology and Biological Sciences Research Council	BB/H008217/1
Not added	160048
British American Psychological Foundation	PF160048
Wellcome Trust	103838, 097803
Medical Research Council	SUAG/032 RG91365
Horizon 2020 Framework Programme	732592
Royal Society	SUAG/010 RG91365

Keywords

Ageing
Cerebellum
Explicit memory
Medial temporal lobe
Motor control
Sensorimotor adaptation

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10.1016/j.neurobiolaging.2020.02.016

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title = "Age-related reduction in motor adaptation: brain structural correlates and the role of explicit memory",

abstract = "The adaption of movement to changes in the environment varies across life span. Recent evidence has linked motor adaptation and its reduction with age to differences in “explicit” learning processes. We examine differences in brain structure and cognition underlying motor adaptation in a population-based cohort (n = 322, aged 18–89 years) using a visuomotor learning task and structural magnetic resonance imaging. Reduced motor adaptation with age was associated with reduced volume in striatum, prefrontal, and sensorimotor cortical regions, but not cerebellum. Medial temporal lobe volume, including the hippocampus, became a stronger determinant of motor adaptation with age. Consistent with the role of the medial temporal lobes, declarative long-term memory showed a similar interaction, whereby memory was more positively correlated with motor adaptation with increasing age. By contrast, visual short-term memory was related to motor adaptation, independently of age. These results support the hypothesis that cerebellar learning is largely unaffected in old age, and the reduction in motor adaptation with age is driven by a decline in explicit memory systems.",

keywords = "Ageing, Cerebellum, Explicit memory, Medial temporal lobe, Motor control, Sensorimotor adaptation",

author = "Cam-CAN and Noham Wolpe and Ingram, {James N.} and Tsvetanov, {Kamen A.} and Henson, {Richard N.} and Wolpert, {Daniel M.} and Tyler, {Lorraine K.} and Carol Brayne and Bullmore, {Edward T.} and Calder, {Andrew C.} and Rhodri Cusack and Tim Dalgleish and John Duncan and Matthews, {Fiona E.} and Marslen-Wilson, {William D.} and Shafto, {Meredith A.} and Karen Campbell and Teresa Cheung and Simon Davis and Linda Geerligs and Rogier Kievit 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 Erzin{\c c}lioglu 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 and Melissa Fair",

year = "2020",

month = jun,

doi = "10.1016/j.neurobiolaging.2020.02.016",

language = "אנגלית",

volume = "90",

pages = "13--23",

journal = "Neurobiology of Aging",

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AU - Ingram, James N.

AU - Tsvetanov, Kamen A.

AU - Henson, Richard N.

AU - Wolpert, Daniel M.

AU - Tyler, Lorraine K.

AU - Brayne, Carol

AU - Bullmore, Edward T.

AU - Calder, Andrew C.

AU - Cusack, Rhodri

AU - Dalgleish, Tim

AU - Duncan, John

AU - Matthews, Fiona E.

AU - Marslen-Wilson, William D.

AU - Shafto, Meredith A.

AU - Campbell, Karen

AU - Cheung, Teresa

AU - Davis, Simon

AU - Geerligs, Linda

AU - Kievit, Rogier

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 - Erzinçlioglu, 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

AU - Fair, Melissa

PY - 2020/6

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N2 - The adaption of movement to changes in the environment varies across life span. Recent evidence has linked motor adaptation and its reduction with age to differences in “explicit” learning processes. We examine differences in brain structure and cognition underlying motor adaptation in a population-based cohort (n = 322, aged 18–89 years) using a visuomotor learning task and structural magnetic resonance imaging. Reduced motor adaptation with age was associated with reduced volume in striatum, prefrontal, and sensorimotor cortical regions, but not cerebellum. Medial temporal lobe volume, including the hippocampus, became a stronger determinant of motor adaptation with age. Consistent with the role of the medial temporal lobes, declarative long-term memory showed a similar interaction, whereby memory was more positively correlated with motor adaptation with increasing age. By contrast, visual short-term memory was related to motor adaptation, independently of age. These results support the hypothesis that cerebellar learning is largely unaffected in old age, and the reduction in motor adaptation with age is driven by a decline in explicit memory systems.

AB - The adaption of movement to changes in the environment varies across life span. Recent evidence has linked motor adaptation and its reduction with age to differences in “explicit” learning processes. We examine differences in brain structure and cognition underlying motor adaptation in a population-based cohort (n = 322, aged 18–89 years) using a visuomotor learning task and structural magnetic resonance imaging. Reduced motor adaptation with age was associated with reduced volume in striatum, prefrontal, and sensorimotor cortical regions, but not cerebellum. Medial temporal lobe volume, including the hippocampus, became a stronger determinant of motor adaptation with age. Consistent with the role of the medial temporal lobes, declarative long-term memory showed a similar interaction, whereby memory was more positively correlated with motor adaptation with increasing age. By contrast, visual short-term memory was related to motor adaptation, independently of age. These results support the hypothesis that cerebellar learning is largely unaffected in old age, and the reduction in motor adaptation with age is driven by a decline in explicit memory systems.

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KW - Cerebellum

KW - Explicit memory

KW - Medial temporal lobe

KW - Motor control

KW - Sensorimotor adaptation

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JF - Neurobiology of Aging

ER -

Age-related reduction in motor adaptation: brain structural correlates and the role of explicit memory

Abstract

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Keywords

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