Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI
To better characterize the neural correlates of the full spectrum of reading ability, this fMRI study examined how variations in reading ability correlate with task-based brain activity during reading among a large community sample of adolescents (N = 234). In addition, complimentary approaches taki...
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| Format: | Article |
| Language: | English |
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Elsevier
2019-06-01
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| Series: | Developmental Cognitive Neuroscience |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S1878929318302378 |
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doaj-73fd4589e2514d209d51d54e24ddbb912020-11-25T02:12:00ZengElsevierDevelopmental Cognitive Neuroscience1878-92932019-06-0137Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRIKai Wang0Daniel R. Leopold1Marie T. Banich2Andrew E. Reineberg3Erik G. Willcutt4Laurie E. Cutting5Stephanie N. Del Tufo6Lee A. Thompson7John Opfer8Frank J. Kanayet9Zhong-Lin Lu10Stephen A. Petrill11University of Colorado Boulder, United States; Corresponding author at: Institute of Cognitive Science, University of Colorado Boulder, Room 182B, 1777 Exposition Dr., Boulder, CO, 80301, United States.University of Colorado Boulder, United StatesUniversity of Colorado Boulder, United StatesUniversity of Colorado Boulder, United StatesUniversity of Colorado Boulder, United StatesVanderbilt University, United StatesVanderbilt University, United StatesCase Western Reserve University, United StatesThe Ohio State University, United StatesThe Ohio State University, United StatesThe Ohio State University, United StatesThe Ohio State University, United StatesTo better characterize the neural correlates of the full spectrum of reading ability, this fMRI study examined how variations in reading ability correlate with task-based brain activity during reading among a large community sample of adolescents (N = 234). In addition, complimentary approaches taking advantage of empirical as well as independent meta-analytic information were employed to isolate neural substrates of domain-general executive processes that are predictive of reading ability. Age-related differences in brain activity were also examined. Better reading was associated with increased activation in left anterior and inferior temporal regions and parts of orbitofrontal cortex, along with reduced activation in the thalamus and left frontal eye field (FEF). Converging evidence suggests that FEF activity corresponds to executive processes during reading. In contrast, activity in temporal regions is likely to reflect cognitive processes specific to reading. Older adolescents also demonstrated increased activation in an orbitofrontal region that overlaps with the aforementioned age-independent, reading-related regions, along with reduced activity in parietal and occipital regions. These results suggest that comparedto poor readers, proficient readers benefit from efficient reading-specific processes and require less executive effort, implemented via the FEF, during a reading comprehension task. Keywords: Executive Function, Reading, Frontal eye field, fMRI, Individual differenceshttp://www.sciencedirect.com/science/article/pii/S1878929318302378 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Kai Wang Daniel R. Leopold Marie T. Banich Andrew E. Reineberg Erik G. Willcutt Laurie E. Cutting Stephanie N. Del Tufo Lee A. Thompson John Opfer Frank J. Kanayet Zhong-Lin Lu Stephen A. Petrill |
| spellingShingle |
Kai Wang Daniel R. Leopold Marie T. Banich Andrew E. Reineberg Erik G. Willcutt Laurie E. Cutting Stephanie N. Del Tufo Lee A. Thompson John Opfer Frank J. Kanayet Zhong-Lin Lu Stephen A. Petrill Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI Developmental Cognitive Neuroscience |
| author_facet |
Kai Wang Daniel R. Leopold Marie T. Banich Andrew E. Reineberg Erik G. Willcutt Laurie E. Cutting Stephanie N. Del Tufo Lee A. Thompson John Opfer Frank J. Kanayet Zhong-Lin Lu Stephen A. Petrill |
| author_sort |
Kai Wang |
| title |
Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI |
| title_short |
Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI |
| title_full |
Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI |
| title_fullStr |
Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI |
| title_full_unstemmed |
Characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fMRI |
| title_sort |
characterizing and decomposing the neural correlates of individual differences in reading ability among adolescents with task-based fmri |
| publisher |
Elsevier |
| series |
Developmental Cognitive Neuroscience |
| issn |
1878-9293 |
| publishDate |
2019-06-01 |
| description |
To better characterize the neural correlates of the full spectrum of reading ability, this fMRI study examined how variations in reading ability correlate with task-based brain activity during reading among a large community sample of adolescents (N = 234). In addition, complimentary approaches taking advantage of empirical as well as independent meta-analytic information were employed to isolate neural substrates of domain-general executive processes that are predictive of reading ability. Age-related differences in brain activity were also examined. Better reading was associated with increased activation in left anterior and inferior temporal regions and parts of orbitofrontal cortex, along with reduced activation in the thalamus and left frontal eye field (FEF). Converging evidence suggests that FEF activity corresponds to executive processes during reading. In contrast, activity in temporal regions is likely to reflect cognitive processes specific to reading. Older adolescents also demonstrated increased activation in an orbitofrontal region that overlaps with the aforementioned age-independent, reading-related regions, along with reduced activity in parietal and occipital regions. These results suggest that comparedto poor readers, proficient readers benefit from efficient reading-specific processes and require less executive effort, implemented via the FEF, during a reading comprehension task. Keywords: Executive Function, Reading, Frontal eye field, fMRI, Individual differences |
| url |
http://www.sciencedirect.com/science/article/pii/S1878929318302378 |
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