Are There Age-Related Differences in the Ability to Learn Configural Responses?

PloS One
Rachel ClarkMichelle W Voss

Abstract

Age is often associated with a decline in cognitive abilities that are important for maintaining functional independence, such as learning new skills. Many forms of motor learning appear to be relatively well preserved with age, while learning tasks that involve associative binding tend to be negatively affected. The current study aimed to determine whether age differences exist on a configural response learning task, which includes aspects of motor learning and associative binding. Young (M = 24 years) and older adults (M = 66.5 years) completed a modified version of a configural learning task. Given the requirement of associative binding in the configural relationships between responses, we predicted older adults would show significantly less learning than young adults. Older adults demonstrated lower performance (slower reaction time and lower accuracy). However, contrary to our prediction, older adults showed similar rates of learning as indexed by a configural learning score compared to young adults. These results suggest that the ability to acquire knowledge incidentally about configural response relationships is largely unaffected by cognitive aging. The configural response learning task provides insight into the task de...Continue Reading

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References

Sep 1, 1989·Psychology and Aging·D V Howard, J H Howard
Sep 6, 1996·Science·B J KnowltonL R Squire
Jul 1, 1996·Memory & Cognition·B L Chalfonte, M K Johnson
Sep 1, 1963·Journal of Experimental Psychology·R SEIBEL
Jan 28, 2004·Neuropsychology·James H HowardChandan J Vaidya
Jan 12, 2005·Behavior Research Methods, Instruments, & Computers : a Journal of the Psychonomic Society, Inc·Meredith Minear, Denise C Park
May 18, 2005·Archives of Clinical Neuropsychology : the Official Journal of the National Academy of Neuropsychologists·Tom N Tombaugh
Jun 22, 2006·Experimental Brain Research·Nancy A DennisDarlene V Howard
Jul 15, 2006·The Neuroscientist : a Review Journal Bringing Neurobiology, Neurology and Psychiatry·Carol A Seger
Aug 11, 2006·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Deborah E HannulaNeal J Cohen
Oct 10, 2006·Brain Research Bulletin·Rachael D Seidler
Oct 20, 2006·Psychonomic Bulletin & Review·Marc W HowardArthur Wingfield
Jul 3, 2007·Behavioural Brain Research·Rachael D Seidler
Dec 19, 2007·Journal of Experimental Psychology. Human Perception and Performance·Eliot HazeltineRichard B Ivry
Jan 9, 2008·Psychology and Aging·Jennifer P ProvynMarc W Howard
Mar 26, 2008·Psychology and Aging·Susan R Old, Moshe Naveh-Benjamin
Apr 17, 2008·Behavior Research Methods·Natalie C Ebner
Feb 24, 2009·Neurobiology of Aging·Timothy A Salthouse
Feb 24, 2011·Journal of Experimental Psychology. Learning, Memory, and Cognition·Angela Kilb, Moshe Naveh-Benjamin
Dec 13, 2012·Journal of Experimental Psychology. General·Tim WifallEliot Hazeltine
Apr 26, 2013·Frontiers in Human Neuroscience·Bradley R KingJulien Doyon
Oct 1, 1995·Journal of Cognitive Neuroscience·S T GraftonR Ivry
Nov 14, 2013·Frontiers in Psychology·James H Howard, Darlene V Howard
Jan 24, 2014·Clinical EEG and Neuroscience·Vinciane GaillardArnaud Destrebecqz
Oct 1, 2008·Psychological Science in the Public Interest : a Journal of the American Psychological Society·Christopher HertzogUlman Lindenberger
Nov 30, 2014·Biomaterials Science·Anat WeizmanShulamit Levenberg

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Citations

Mar 18, 2017·Journal of Neuroengineering and Rehabilitation·Hyeshin Park, Nicolas Schweighofer

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SPSS
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