Your search keyword '"Shaywitz, Sally E."' showing total 8 results

1. Error-related event-related potentials in children with attention-deficit hyperactivity disorder, oppositional defiant disorder, reading disorder, and math disorder

Author

Burgio-Murphy, Andrea, Klorman, Rafael, Shaywitz, Sally E., Fletcher, Jack M., Marchione, Karen E., Holahan, John, Stuebing, Karla K., Thatcher, Joan E., and Shaywitz, Bennett A.

Published

2007

2. Dyslexia (Specific Reading Disability)

Author

Shaywitz, Sally E. and Shaywitz, Bennett A.

Subjects

*LANGUAGE disorders, *DYSLEXIA, *READING disability, *MAGNETIC resonance imaging, *NEUROBIOLOGY, *JUVENILE diseases, *DISEASES in teenagers

Abstract

Converging evidence from a number of lines of investigation indicates that dyslexia represents a disorder within the language system and more specifically within a particular subcomponent of that system, phonological processing. Recent advances in imaging technology, particularly the development of functional magnetic resonance imaging, provide evidence of a neurobiological signature for dyslexia, specifically a disruption of two left hemisphere posterior brain systems, one parieto-temporal, the other occipito-temporal, with compensatory engagement of anterior systems around the inferior frontal gyrus and a posterior (right occipito-temporal) system. Furthermore, good evidence indicates a computational role for the left occipito-temporal system: the development of fluent (automatic) reading. The brain systems for reading are malleable and their disruption in dyslexic children may be remediated by provision of an evidence-based, effective reading intervention. In addition, functional magnetic resonance imaging studies of young adults with reading difficulties followed prospectively and longitudinally from age 5 through their mid twenties suggests that there may be two types of reading difficulties, one primarily on a genetic basis, the other, and far more common, reflecting environmental influences. These studies offer the promise for more precise identification and effective management of dyslexia in children, adolescents and adults. [Copyright &y& Elsevier]

Published

2005

3. Development of left occipitotemporal systems for skilled reading in children after a phonologically- based intervention

Author

Shaywitz, Bennett A., Shaywitz, Sally E., Blachman, Benita A., Pugh, Kenneth R., Fulbright, Robert K., Skudlarski, Pawel, Mencl, W. Einar, Constable, R. Todd, Holahan, John M., Marchione, Karen E., Fletcher, Jack M., Lyon, G. Reid, and Gore, John C.

Subjects

*BRAIN, *NEUROBIOLOGY, *READING disability, *MAGNETIC resonance imaging, *CHILD development, *LEARNING disabilities, *EDUCATION

Abstract

: BackgroundA range of neurobiological investigations shows a failure of left hemisphere posterior brain systems to function properly during reading in children and adults with reading disabilities. Such evidence of a disruption in the normal reading pathways provides a neurobiological target for reading interventions. In this study, we hypothesized that the provision of an evidence-based, phonologically mediated reading intervention would improve reading fluency and the development of the fast-paced occipitotemporal systems serving skilled reading.: MethodsFunctional magnetic resonance imaging was used to study the effects of a phonologically based reading intervention on brain organization and reading fluency in 77 children aged 6.1–9.4 years (49 with reading disability and 28 control subjects). Children comprised three experimental groups: experimental intervention (n = 37), community intervention (n = 12), and community control subjects (n = 28).: ResultsImmediately after the year-long intervention, children taught with the experimental intervention had made significant gains in reading fluency and demonstrated increased activation in left hemisphere regions, including the inferior frontal gyrus and the middle temporal gyrus; 1 year after the experimental intervention had ended these children were activating bilateral inferior frontal gyri and left superior temporal and occipitotemporal regions.: ConclusionsThese data indicate that the nature of the remedial educational intervention is critical to successful outcomes in children with reading disabilities and that the use of an evidence-based phonologic reading intervention facilitates the development of those fast-paced neural systems that underlie skilled reading. [Copyright &y& Elsevier]

Published

2004

4. Neural systems for compensation and persistence: young adult outcome of childhood reading disability

Author

Shaywitz, Sally E., Shaywitz, Bennett A., Fulbright, Robert K., Skudlarski, Pawel, Mencl, W. Einar, Constable, R. Todd, Pugh, Kenneth R., Holahan, John M., Marchione, Karen E., Fletcher, Jack M., Lyon, G. Reid, and Gore, John C.

Subjects

*READING disability, *COGNITION disorders in children, *READING ability testing, *NEUROLOGY, *PEOPLE with dyslexia

Abstract

: BackgroundThis study examined whether and how two groups of young adults who were poor readers as children (a relatively compensated group and a group with persistent reading difficulties) differed from nonimpaired readers and if there were any factors distinguishing the compensated from persistently poor readers that might account for their different outcomes.: MethodsUsing functional magnetic resonance imaging, we studied three groups of young adults, ages 18.5–22.5 years, as they read pseudowords and real words: 1) persistently poor readers (PPR; n = 24); 2) accuracy improved (compensated) readers (AIR; n = 19); and 3) nonimpaired readers (NI, n = 27).: ResultsCompensated readers, who are accurate but not fluent, demonstrate a relative underactivation in posterior neural systems for reading located in left parietotemporal and occipitotemporal regions. Persistently poor readers, who are both not fluent and less accurate, activate posterior reading systems but engage them differently from nonimpaired readers, appearing to rely more on memory-based rather than analytic word identification strategies.: ConclusionsThese findings of divergent neural outcomes as young adults are both new and unexpected and suggest a neural basis for reading outcomes of compensation and persistence in adults with childhood dyslexia. [Copyright &y& Elsevier]

Published

2003

5. Disruption of posterior brain systems for reading in children with developmental dyslexia

Author

Shaywitz, Bennett A., Shaywitz, Sally E., Pugh, Kenneth R., Mencl, W. Einar, Fulbright, Robert K., Skudlarski, Pawel, Constable, R. Todd, Marchione, Karen E., Fletcher, Jack M., Lyon, G. Reid, and Gore, John C.

Subjects

*DYSLEXIA, *PEOPLE with dyslexia, *MAGNETIC resonance imaging

Abstract

Background: Converging evidence indicates a functional disruption in the neural systems for reading in adults with dyslexia. We examined brain activation patterns in dyslexic and nonimpaired children during pseudoword and real-word reading tasks that required phonologic analysis (i.e., tapped the problems experienced by dyslexic children in sounding out words).Methods: We used functional magnetic resonance imaging (fMRI) to study 144 right-handed children, 70 dyslexic readers, and 74 nonimpaired readers as they read pseudowords and real words.Results: Children with dyslexia demonstrated a disruption in neural systems for reading involving posterior brain regions, including parietotemporal sites and sites in the occipitotemporal area. Reading skill was positively correlated with the magnitude of activation in the left occipitotemporal region. Activation in the left and right inferior frontal gyri was greater in older compared with younger dyslexic children.Conclusions: These findings provide neurobiological evidence of an underlying disruption in the neural systems for reading in children with dyslexia and indicate that it is evident at a young age. The locus of the disruption places childhood dyslexia within the same neurobiological framework as dyslexia, and acquired alexia, occurring in adults. [ABSTRACT FROM AUTHOR]

Published

2002

6. Achievement Gap in Reading Is Present as Early as First Grade and Persists through Adolescence.

Author

Ferrer, Emilio, Shaywitz, Bennett A., Holahan, John M., Marchione, Karen E., Michaels, Reissa, and Shaywitz, Sally E.

Abstract

Objectives: To determine if differences between dyslexic and typical readers in their reading scores and verbal IQ are evident as early as first grade and whether the trajectory of these differences increases or decreases from childhood to adolescence.Study Design: The subjects were the 414 participants comprising the Connecticut Longitudinal Study, a sample survey cohort, assessed yearly from 1st to 12th grade on measures of reading and IQ. Statistical analysis employed longitudinal models based on growth curves and multiple groups.Results: As early as first grade, compared with typical readers, dyslexic readers had lower reading scores and verbal IQ, and their trajectories over time never converge with those of typical readers. These data demonstrate that such differences are not so much a function of increasing disparities over time but instead because of differences already present in first grade between typical and dyslexic readers.Conclusions: The achievement gap between typical and dyslexic readers is evident as early as first grade, and this gap persists into adolescence. These findings provide strong evidence and impetus for early identification of and intervention for young children at risk for dyslexia. Implementing effective reading programs as early as kindergarten or even preschool offers the potential to close the achievement gap. [ABSTRACT FROM AUTHOR]

Published

2015

7. Effects of event probability and sequence on children with attention-deficit/hyperactivity, reading, and math disorder.

Author

Klorman, Rafael, Thatcher, Joan E., Shaywitz, Sally E., Fletcher, Jack M., Marchione, Karen E., Holahan, John M., Stuebing, Karla K., and Shaywitz, Bennett A.

Subjects

*CHILDREN with attention-deficit hyperactivity disorder, *READING disability, *MATH anxiety

Abstract

: BackgroundWe investigated the impact of stimulus probability and sequence on performance and event-related potentials of 310 children classified into 12 combinations of attention-deficit/hyperactivity disorder (Not–attention-deficit/hyperactivity disorder, Inattentive and Combined subtypes) with presence/absence of reading disorder and math disorder.: MethodsSubjects pressed buttons to displays of the letters O and X, which were presented with probabilities of either .17/.83 or .50/.50. Greater response selection was required in the .17/.83 condition.: ResultsStimulus probability had comparable effects on all diagnostic groups. The extent of mismatch between a stimulus and preceding events elicited less systematic increases in errors, P3b latency, and P3b amplitude among both attention-deficit/hyperactivity disorder subtypes than controls. Mismatch with preceding trials more greatly reduced math disorder and reading disorder + math disorder children’s speed in the Rare task and accuracy in both conditions. Math disorder and reading disorder + math disorder subjects also registered less the effects of alternations of the infrequent O on N2 amplitude and on P3b latency.: ConclusionsMath disorder and reading disorder + math disorder youngsters’ lower sensitivity to sequence irregularity in their event-related potentials along with greater disruption of performance suggest working memory deficits that adversely affected response selection. Comorbidity of attention-deficit/hyperactivity disorder and reading disorder did not affect the results. [ABSTRACT FROM AUTHOR]

Published

2002

8. Disruption of Functional Networks in Dyslexia: A Whole-Brain, Data-Driven Analysis of Connectivity.

Author

Finn, Emily S., Xilin Shen, Holahan, John M., Scheinost, Dustin, Lacadie, Cheryl, Papademetris, Xenophon, Shaywitz, Sally E., Shaywitz, Bennett A., and Constable, R. Todd

Subjects

*DYSLEXIA, *BRAIN imaging, *FUNCTIONAL magnetic resonance imaging, *VISUAL pathways, *VISUAL perception, *ATTENTION

Abstract

Background Functional connectivity analyses of functional magnetic resonance imaging data are a powerful tool for characterizing brain networks and how they are disrupted in neural disorders. However, many such analyses examine only one or a small number of a priori seed regions. Studies that consider the whole brain frequently rely on anatomic atlases to define network nodes, which might result in mixing distinct activation timecourses within a single node. Here, we improve upon previous methods by using a data-driven brain parcellation to compare connectivity profiles of dyslexic (DYS) versus nonimpaired (NI) readers in the first whole-brain functional connectivity analysis of dyslexia. Methods Whole-brain connectivity was assessed in children ( n = 75; 43 NI, 32 DYS) and adult ( n = 104; 64 NI, 40 DYS) readers. Results Compared to NI readers, DYS readers showed divergent connectivity within the visual pathway and between visual association areas and prefrontal attention areas; increased right-hemisphere connectivity; reduced connectivity in the visual word-form area (part of the left fusiform gyrus specialized for printed words); and persistent connectivity to anterior language regions around the inferior frontal gyrus. Conclusions Together, findings suggest that NI readers are better able to integrate visual information and modulate their attention to visual stimuli, allowing them to recognize words on the basis of their visual properties, whereas DYS readers recruit altered reading circuits and rely on laborious phonology-based "sounding out" strategies into adulthood. These results deepen our understanding of the neural basis of dyslexia and highlight the importance of synchrony between diverse brain regions for successful reading. [ABSTRACT FROM AUTHOR]

Published

2014