View clinical trials related to Dyslexia.
Filter by:The current project will carry out a large-scale, randomized controlled trial (RCT) to examine the effectiveness of a home-administered technology-based treatment for reading disability (GraphoLearn) in a diagnostically diverse children with reading disability (ages 6.0-10.00). To accomplish this rapidly and with minimal cost, the experimenters will leverage the Healthy Brain Network [HBN], an ongoing study of mental health and learning disorders in children ages 5.0-21.0 whose family have one or more concerns about behavior and/or learning (target n = 10,000; current enrollment = 3000+). The HBN includes comprehensive psychiatric, cognitive, electroencephalogram [EEG] and multimodal magnetic resonance imaging [MRI] characterizations for all participants, providing the present work rich data to build from. The present work will recruit 450 children (ages 6.0-10.0) with reading difficulty from the HBN. In order to evaluate GraphoLearn effectiveness the experimenters will compare reading (and related language skills) before and after a 12-week GraphoLearn reading intervention relative to an active (math) control. The experimenters also assess the stability of the reading gains by including a 12 week retention period ( with pre and post retention assessment). The experimenters hypothesize that they will observe significant gains in reading (and related language) skills relative to the math control conditions, but that these gains will be variable and predicted by participant and environment level factors (predictive models are explored under Aim 2). This evaluation will involve a 3 to 4 visit between groups longitudinal study with cross over elements to evaluate GraphoLearn in struggling readers ages 6-10 using and pre-post behavioral and EEG assessment.
Poly-unsaturated fatty acids (PUFAs) represent a component of lipids that covers a relevant role in human diet and biological functions such as provision of energy, functionality of cell membranes and tissue metabolism. Fatty acids carbon chains can be saturated (with no presence of double bonds) or unsaturated (with one or more double bonds). PUFAs fall into the unsaturated group, and they can be divided into two classes: omega-3 (n-3) and omega-6 (n-6) fatty acids (FAs). PUFAs are relevant components of cellular membranes, phospholipids, and precursors of eicosanoids, which influence neuronal development and functioning, docosahexaenoic acid (DHA) and arachidonic acid (AA) in fact are involved in cell growth, neural signaling, and gene expression. The main natural dietary source for Eicosapentaenoic acid (EPA) and DHA is fish oil. It has also been shown how the Magnocellular system, which includes the retinal ganglion cells, the lateral geniculate nucleus (for the visual system, while the medial geniculate nucleus would be involved for the auditory system) of the thalamus, the posterior parietal cortex, various areas visual of the cortex and part of the cerebellum, is sensitive to the contribution of fatty acids through nutrition. A deficit related to the Magnocellular system, specialized in the processing of stimuli with high temporal frequencies and low spatial frequencies, in both the visual and auditory modalities, has been proposed as one of the causes of Developmental Dyslexia (DD). According to this hypothesis, an alteration at the magnocellular level would affect reading by hampering temporal processing of the visual signal and would reduce the quality of the phonological representations due to imperfect acoustic analysis of the incoming phonemes. It is therefore possible to hypothesize that supplementation of PUFA in dyslexic children would improve the functions of the M-system and thus create better conditions to the remediation of reading difficulties, especially through remediation programs specifically tapping visual attention and rapid processing of visual stimuli. The remediation program currently used at Scientific Institute (IRCCS) Medea, "Tachidino", based on tachistoscopic, hemisphere-specific stimulation and on training of selective visual-spatial attention, has exactly these characteristics. Hence, the present study aims to test the efficacy of PUFA supplementation before and during treatment with Tachidino.
To evaluate, in primary care, the sensitivity of Heterophory-Vertical-Labile (HV-Labile) in ambulatory screening for Specific Learning Disabilities (SLD) and Developmental Coordination Disorder (DCD). in children aged 8 to 12 years.
Despite decades of research on reading disabilities, little is known about improving reading in the middle grades (i.e., grades 3-6) and advancements have been hindered by the narrow focus on reading problems alone without acknowledgement of non-academic factors shown to affect learning (e.g., child self-regulation). This proposal employs a highly innovative approach aimed at improving intervention outcomes through the integration of evidence-based practices for addressing reading, as well as self-regulation/socioemotional skills, difficulties known to occur in a substantial percentage of struggling readers and to negatively influence academic performance. This project represents translational research that directly informs the practice community (schools, clinicians, teachers, parents), by identifying novel instructional practices that can be aggregated to more effectively influence student outcomes and reduce disparities in academic and socioemotional domains.
Subjects are recruited for a pre-kindergarten education program focusing on early literacy skills. Primary outcomes are improvement in letter knowledge and changes in brain response to text.
Exploiting recent methodological advancements, several neuroimaging studies suggested that multisensory integration emerges from a dynamic interplay of distributed regions operating in large-scale networks. Nonetheless, the cortical structures and neuronal networks underlying the development of multisensory perception and plasticity, throughout the life span, have not yet been studied in detail. A special case of multisensory training is musical training, which utilizes stimulus' structural complexity, as well as the emotional drive that music is generating to the subjects, in order to induce augmented neuroplastic effects. Retaining the extensive neuroplastic characteristics of music training, MUSICPLAST will develop, investigate and deliver a computer provided multisensory training protocol that aims to induce neuroplastic changes in frontotemporal cortical areas. More specifically, the goal of the proposed project is threefold: (a) The in-depth understanding and modeling of the developmental trajectory of the cortical networks underlying multisensory perception, (b) the modeling of the developmental trajectory of the cortical networks underlying multisensory plasticity throughout the life span of healthy subjects; and (c) the translation of this model in a computer provided multisensory training intervention protocol, which will cause beneficial neuroplastic changes in pathological populations. Electroencephalographic, behavioral and neuropsychological measurements, and advanced data analysis procedures, pre- and post the training application are going to be employed in order to evaluate the resulting neuroplasticity holistically. The proposed protocol will also be translated into an applied intervention for 2 groups of pathological population, for which there are strong evidence that a multisensory cognitive training based on music may provide beneficial neuroplastic changes: elderlies suffering from mild cognitive Impairment and adolescents with dyslexia. The project is performed in the Laboratory of Medical Physics of the Aristotle University of Thessaloniki. It takes advantage of the extensive background of the laboratory in music and neuroscience, in multisensory perception and in applications that translate basic neuroscientific knowledge into computer based interventions for young adults and elderlies, building up a solid neuroscientific ground on which multidisciplinary characteristics of the project stand.
Despite the fact that a substantial number of school age children struggle with both reading and math acquisition, the brain mechanisms of the overlapping aspects of reading and math skills, thought in part to be linked via executive functions (EF), have not been unpacked. This project will use a longitudinal design, following children from Kindergarten through 1st grade, to understand how the brain networks associated with reading, math, and EF interact to predict academic outcomes and, in those who struggle academically, intervention response.
This study investigates the efficacy of a reading comprehension intervention for English learners in Grades 6 and 7 with reading difficulties. Building on previous intervention studies conducted with students in Grades 4 through 8 over the past 10 years, the investigators utilize a longitudinal, double-cohort design utilizing a randomized control trial assigning students to supplemental reading intervention (RISE) or a no intervention "business as usual" (BAU) comparison condition (i.e., Cohort 1 - Years 1 and 2; 205 students in treatment and 205 in control condition; Cohort 2 - Years 3 and 4; 205 students in treatment and 205 in control condition; total 410 in each condition). Students in each cohort will be treated for 2 years (i.e., 6th and 7th grades or 7th and 8th grades). The primary outcome is reading comprehension. The investigators hypothesize that participants receiving the RISE intervention will outperform those receiving BAU instruction across reading-related elements, including word reading, fluency, and comprehension at end of year two of treatment.
The current literature on academic skill difficulties, whether considered as part of the continuum of ability or as a specific learning disability (LD), indicates that these problems often coexist with conduct problems and juvenile delinquency, and are risk factors for initial law-breaking behavior and for its persistence. However, less is understood about how this relationship develops. It is these broad questions that this project seeks to address. First, what is the causal pathway? Does LD cause delinquency, delinquency cause LD, or are both caused by something else? And can big data analytics applied to statewide datasets of information about juvenile justice (JJ) involvement help to answer this question? Second, as it is known that learning to read and do math (and thus becoming more employable) increases the likelihood of desistance (i.e., not committing any more illegal acts), what are the necessary parts of an intervention designed to teach these skills? And what role might technology play in such an intervention? To answer these questions, we will implement a study that includes two components, (a) a big data component and (b) an intervention component. For (a), we will work with a large historical dataset from the Harris County Juvenile Probation Department. For (b), we will work, in total, with 192 (48 per year) delinquent youth with severe LD in residential placement. These individuals, in a nonconcurrent multiple baseline design, will be offered an educational therapy designed to address severe reading problems in juvenile detainees using a novel mixed media intervention in which the person-to-person intensive 1:1 component is completed while youth are in residential settings (24 sessions, delivered in 90 minute settings 3 times a week) and a "gamified" educational smartphone learning tool follow-up completed upon release (with appropriate network fidelity monitoring and participant reinforcement). The person-to-person component is developed specifically for juvenile offenders with severe LD, combining two well-established and highly-regarded intervention programs designed to systematically build students' repertoire of grapheme-phoneme correspondence rules as well as develop comprehensive reading skills, from beginning reading to proficiency.
The purpose of the study is to evaluate the effectiveness of the combination of Rhythmic Reading Training (RRT), a computer-assisted intervention method that combines sublexical reading exercises with rhythm processing, and transcranial direct current stimulation (tDCS) on reading abilities of a group of Italian undergraduate students with dyslexia. Two experimental conditions (active vs. sham) will be compared. Finally, the effects of the intervention on other cognitive functions involved in the process of reading (i.e., rapid automatized naming, verbal working memory, rhythm perception abilities) will be measured.