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Frontiers in Human Neuroscience
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August 24, 2016
Improving Dorsal Stream Function in Dyslexics by Training Figure/Ground Motion Discrimination Improves Attention, Reading Fluency, and Working Memory
Teri Lawton
Restorative Neurology and Neuroscience
|
February 12, 2019
Dynamic cognitive remediation for a Traumatic Brain Injury (TBI) significantly improves attention, working memory, processing speed, and reading fluency
Teri Lawton, Ming-Xiong Huang
Frontiers in Human Neuroscience
|
December 13, 2018
Corrigendum: Training on Movement Figure-Ground Discrimination Remediates Low-Level Visual Timing Deficits in the Dorsal Stream, Improving High-Level Cognitive Functioning, Including Attention, Reading Fluency, and Working Memory
Teri Lawton, John Shelley-Tremblay
Frontiers in Human Neuroscience
|
May 31, 2017
Training on Movement Figure-Ground Discrimination Remediates Low-Level Visual Timing Deficits in the Dorsal Stream, Improving High-Level Cognitive Functioning, Including Attention, Reading Fluency, and Working Memory
Teri Lawton, John Shelley-Tremblay
Medical Sciences (Basel, Switzerland)
|
July 23, 2025
Interprofessional Approaches to the Treatment of Mild Traumatic Brain Injury: A Literature Review and Conceptual Framework Informed by 94 Professional Interviews
John F Shelley-Tremblay, Teri Lawton
Frontiers in Neurology
|
October 11, 2023
Case report: Neural timing deficits prevalent in developmental disorders, aging, and concussions remediated rapidly by movement discrimination exercises
Teri Lawton, John Shelley-Tremblay, Ming-Xiong Huang
Frontiers in Human Neuroscience
|
December 25, 2025
Retraining dorsal visual pathways improves cognitive skills and executive control networks following mild traumatic brain injury
Teri Lawton, John Shelley-Tremblay, Roland R Lee, et al.
Journal of Clinical Medicine
|
April 12, 2025
Retraining Dorsal Visual Pathways Improves Cognitive Skills After a Mild Traumatic Brain Injury
Teri Lawton, John Shelley-Tremblay, Roland R Lee, et al.
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of 1
Search research articles
Search
Showing results (1-10 of 8) with videos related to
Sort By:
Page
of 1
Frontiers in Human Neuroscience
|
August 24, 2016
Improving Dorsal Stream Function in Dyslexics by Training Figure/Ground Motion Discrimination Improves Attention, Reading Fluency, and Working Memory
Teri Lawton
Restorative Neurology and Neuroscience
|
February 12, 2019
Dynamic cognitive remediation for a Traumatic Brain Injury (TBI) significantly improves attention, working memory, processing speed, and reading fluency
Teri Lawton, Ming-Xiong Huang
Frontiers in Human Neuroscience
|
December 13, 2018
Corrigendum: Training on Movement Figure-Ground Discrimination Remediates Low-Level Visual Timing Deficits in the Dorsal Stream, Improving High-Level Cognitive Functioning, Including Attention, Reading Fluency, and Working Memory
Teri Lawton, John Shelley-Tremblay
Frontiers in Human Neuroscience
|
May 31, 2017
Training on Movement Figure-Ground Discrimination Remediates Low-Level Visual Timing Deficits in the Dorsal Stream, Improving High-Level Cognitive Functioning, Including Attention, Reading Fluency, and Working Memory
Teri Lawton, John Shelley-Tremblay
Medical Sciences (Basel, Switzerland)
|
July 23, 2025
Interprofessional Approaches to the Treatment of Mild Traumatic Brain Injury: A Literature Review and Conceptual Framework Informed by 94 Professional Interviews
John F Shelley-Tremblay, Teri Lawton
Frontiers in Neurology
|
October 11, 2023
Case report: Neural timing deficits prevalent in developmental disorders, aging, and concussions remediated rapidly by movement discrimination exercises
Teri Lawton, John Shelley-Tremblay, Ming-Xiong Huang
Frontiers in Human Neuroscience
|
December 25, 2025
Retraining dorsal visual pathways improves cognitive skills and executive control networks following mild traumatic brain injury
Teri Lawton, John Shelley-Tremblay, Roland R Lee, et al.
Journal of Clinical Medicine
|
April 12, 2025
Retraining Dorsal Visual Pathways Improves Cognitive Skills After a Mild Traumatic Brain Injury
Teri Lawton, John Shelley-Tremblay, Roland R Lee, et al.
Page
of 1