Implicit motor learning deficits in dyslexic adults

Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that dyslexics’ various literacy, sensory and motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in mot...

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Published inNeuropsychologia Vol. 44; no. 5; pp. 795 - 798
Main Authors Stoodley, Catherine J., Harrison, Edward P.D., Stein, John F.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 2006
Elsevier Science
Subjects
Adult
Analysis of Variance
Biological and medical sciences
Brain
Case-Control Studies
Cerebellum
Developmental dyslexia
Disorders of higher nervous function. Focal brain diseases. Central vestibular syndrome and deafness. Brain stem syndromes
Dyslexia
Dyslexia - complications
Dyslexia - physiopathology
Female
Humans
Learning Disabilities
Learning Disorders - etiology
Male
Medical sciences
Nervous system (semeiology, syndromes)
Neurology
Perceptual Motor Skills
Psychomotor Performance - physiology
Reaction Time - physiology
Response Time
Serial reaction time task
Developmental dyslexia
Cerebellum
Serial reaction time task
Human
Nervous system diseases
Reading disorder
Cognition
Motor learning
Language disorder
Communication disorder
Acquisition process
Learning disability
Serial reaction time
Adult
Dyslexia
Implicit learning
Neurological disorder
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Abstract Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that dyslexics’ various literacy, sensory and motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in motor learning, we measured serial reaction time performance in 40 adults (21 controls, 19 dyslexics). Dyslexic subjects performed comparably to controls during the randomly-ordered reaction time blocks, indicating that the dyslexics were as able as controls to make appropriate stimulus-response associations. However, the dyslexics failed to show the reaction time reduction that the control group showed during the repeated sequences ( p = 0.018) and there was a significant group by condition effect when comparing the last two blocks of the sequence condition with the first two blocks of the final random condition ( p = 0.008). Furthermore, there was a significant difference between good and poor readers on the degree of learning during the task ( p = 0.015). This suggests that some dyslexics may suffer from an implicit motor learning deficit, which could generalize to non-motor learning.
AbstractList Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that dyslexics' various literacy, sensory and motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in motor learning, we measured serial reaction time performance in 40 adults (21 controls, 19 dyslexics). Dyslexic subjects performed comparably to controls during the randomly-ordered reaction time blocks, indicating that the dyslexics were as able as controls to make appropriate stimulus-response associations. However, the dyslexics failed to show the reaction time reduction that the control group showed during the repeated sequences (p = 0.018) and there was a significant group by condition effect when comparing the last two blocks of the sequence condition with the first two blocks of the final random condition (p = 0.008). Furthermore, there was a significant difference between good and poor readers on the degree of learning during the task (p = 0.015). This suggests that some dyslexics may suffer from an implicit motor learning deficit, which could generalize to non-motor learning.Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that dyslexics' various literacy, sensory and motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in motor learning, we measured serial reaction time performance in 40 adults (21 controls, 19 dyslexics). Dyslexic subjects performed comparably to controls during the randomly-ordered reaction time blocks, indicating that the dyslexics were as able as controls to make appropriate stimulus-response associations. However, the dyslexics failed to show the reaction time reduction that the control group showed during the repeated sequences (p = 0.018) and there was a significant group by condition effect when comparing the last two blocks of the sequence condition with the first two blocks of the final random condition (p = 0.008). Furthermore, there was a significant difference between good and poor readers on the degree of learning during the task (p = 0.015). This suggests that some dyslexics may suffer from an implicit motor learning deficit, which could generalize to non-motor learning.
Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that dyslexics’ various literacy, sensory and motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in motor learning, we measured serial reaction time performance in 40 adults (21 controls, 19 dyslexics). Dyslexic subjects performed comparably to controls during the randomly-ordered reaction time blocks, indicating that the dyslexics were as able as controls to make appropriate stimulus-response associations. However, the dyslexics failed to show the reaction time reduction that the control group showed during the repeated sequences ( p = 0.018) and there was a significant group by condition effect when comparing the last two blocks of the sequence condition with the first two blocks of the final random condition ( p = 0.008). Furthermore, there was a significant difference between good and poor readers on the degree of learning during the task ( p = 0.015). This suggests that some dyslexics may suffer from an implicit motor learning deficit, which could generalize to non-motor learning.
Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that dyslexics' various literacy, sensory and motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in motor learning, we measured serial reaction time performance in 40 adults (21 controls, 19 dyslexics). Dyslexic subjects performed comparably to controls during the randomly-ordered reaction time blocks, indicating that the dyslexics were as able as controls to make appropriate stimulus-response associations. However, the dyslexics failed to show the reaction time reduction that the control group showed during the repeated sequences (p = 0.018) and there was a significant group by condition effect when comparing the last two blocks of the sequence condition with the first two blocks of the final random condition (p = 0.008). Furthermore, there was a significant difference between good and poor readers on the degree of learning during the task (p = 0.015). This suggests that some dyslexics may suffer from an implicit motor learning deficit, which could generalize to non-motor learning.
Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence & education. It has been suggested that dyslexics' various literacy, sensory & motor difficulties may be related to impaired cerebellar function. As the cerebellum is involved in motor learning, we measured serial reaction time performance in 40 adults (21 controls, 19 dyslexics). Dyslexic subjects performed comparably to controls during the randomly-ordered reaction time blocks, indicating that the dyslexics were as able as controls to make appropriate stimulus-response associations. However, the dyslexics failed to show the reaction time reduction that the control group showed during the repeated sequences (p = 0.018) & there was a significant group by condition effect when comparing the last two blocks of the sequence condition with the first two blocks of the final random condition (p = 0.008). Furthermore, there was a significant difference between good & poor readers on the degree of learning during the task (p = 0.015). This suggests that some dyslexics may suffer from an implicit motor learning deficit, which could generalize to non-motor learning. Tables, References. [Copyright 2005 Elsevier Ltd.]
Author Harrison, Edward P.D.
Stein, John F.
Stoodley, Catherine J.
Author_xml – sequence: 1
  givenname: Catherine J.
  surname: Stoodley
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  fullname: Harrison, Edward P.D.
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  surname: Stein
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Issue 5
Keywords Developmental dyslexia
Cerebellum
Serial reaction time task
Human
Nervous system diseases
Reading disorder
Cognition
Motor learning
Language disorder
Communication disorder
Acquisition process
Learning disability
Serial reaction time
Adult
Dyslexia
Implicit learning
Neurological disorder
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Snippet Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence and education. It has been suggested that...
Children with developmental dyslexia fail to develop age-appropriate reading skills despite adequate intelligence & education. It has been suggested that...
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SubjectTerms Adult
Analysis of Variance
Biological and medical sciences
Brain
Case-Control Studies
Cerebellum
Developmental dyslexia
Disorders of higher nervous function. Focal brain diseases. Central vestibular syndrome and deafness. Brain stem syndromes
Dyslexia
Dyslexia - complications
Dyslexia - physiopathology
Female
Humans
Learning Disabilities
Learning Disorders - etiology
Male
Medical sciences
Nervous system (semeiology, syndromes)
Neurology
Perceptual Motor Skills
Psychomotor Performance - physiology
Reaction Time - physiology
Response Time
Serial reaction time task
Title Implicit motor learning deficits in dyslexic adults
URI https://dx.doi.org/10.1016/j.neuropsychologia.2005.07.009
https://www.ncbi.nlm.nih.gov/pubmed/16125207
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