View clinical trials related to Dyslexia, Developmental.
Filter by:An important question in education is how to help young children who struggle to learn to read despite being well-taught in their regular classrooms. Many of the children with low reading ability also come from disadvantaged backgrounds. There is not a lot of evidence on how to support children with low reading ability become better readers. This is especially true when children still have low reading ability despite experiencing attempts to teach them in both their regular whole class and then in small groups. As a result, in this study we will explore the best ways of training teachers to use programs that we have developed to support reading for these children who have not responded well to earlier teaching (this is one of the tough jobs in our project title). These programs have several new elements. One element is teaching morphology. Morphology means shared word meanings such as the shared meanings between words like sign, design, signal, and signature. Another element is called set-for-variability. This means teaching children to have mental flexibility in using relationships between letters and sounds to read English. We will run our study to see whether including these new elements leads to children with low reading ability improving their reading. By doing this we will help children teachers and families and also contribute to a science of reading. To achieve these goals, we will carry out two phases of study. In phase 1, we will randomly allocate 50 schools to one condition where we will teach morphology and 50 schools to the other condition where we will teach set-for-variability. In all schools we will also encourage teachers to teach children to use the relationships between letters and sounds to read words. This is called phonics. Doing such work and still having impact in a large number of schools is a major challenge. This is the second of the tough jobs referred to in our project title. In each school we will come in and train teachers of grade 1 and 2 children how to use our programs, and focusing on the children who have low reading ability. In the second part of the study, we will work with a smaller set of children in Grade 3 who still have low reading ability despite our earlier work. In this latter case the groups of children may be both smaller in number and the teaching may go on for longer to have an effect.
The purpose of the proposed study is to use transcranial magnetic stimulation (TMS) to evaluate a neurobiological model of spoken word learning in older youth. Specifically, it is hypothesized that: (1) inhibition of the left dorsal stream will impact subsequent learning, processing, and retention of phonologically similar pseudowords; (2) the impact of dorsal stream inhibition on word learning will be associated with baseline levels of variability in neural activity, indicative of underlying differences in cortical excitability.
Investigators compare effects of 6-month music versus circus group interventions on language development in infants and toddlers with or without familial risk for dyslexia (anticipated total N=200). Effects of intervention timing, dyslexia risk and genetics, and social-emotional factors on the intervention outcomes are investigated.
Developmental dyslexia (DD) is the most common learning disorder. Multiple cognitive and sensory domains contribute to the etiology of DD and develop before reading acquisition. Atypical brain functional responses and structural features have been found in the reading developing circuitry. Treatments addressing visual-spatial attention and motion perception (Visual Attention Training; VAT) are among the most effective interventions in Italian children with DD. The VAT seems to improve the efficiency of the visual attention system and the magnocellular (M) pathway which is crucial for learning to read. Evidence for impaired M function in subjects with DD in the visual striate and extra-striate cortex have been reported. How these treatments affect the brain functionality is still not clear. Since DD has a neurobiological basis, it is important to deeply investigate atypical functional responses and structural features in reading-related areas, and to understand how treatments operate at the neuronal level. A growing number of studies investigates structural and functional measures in neurodevelopmental disorders by using high-resolution MRI at high field (3T and 7T). Similarly, several studies examine the effects of different types of reading training upon brain activity. Better understanding of the relationship between structural/functional abnormalities and DD could disentangle the causes of reading difficulties and helps in developing effective treatments. The significance of this study is twofold: 1) NEURAL CORRELATES OF TREATMENT: The investigators expect TACHIDINO to specifically affect the underlying neurophysiological functioning which influences reading skills in children with DD; 2) BRAIN SIGNATURES: As integrated multi-domain data (behavioral and brain imaging) are complementary to each other, they could enhance the possibility to find unique treatment/brain functioning combinations to evaluate the effectiveness of intervention and to predict the treatment response.
Dyslexia, an impairment in accurate or fluent word recognition, is the most common learning disability affecting roughly ten percent of children. This proposal capitalizes on cutting edge neuroimaging methods, in combination with reading education programs, to generate a new understanding of how successful reading education shapes the development of the brain circuits that support skilled reading. A deeper understanding of the mechanisms of successful remediation of dyslexia, and individual differences in learning, will pave the way for personalized approaches to dyslexia treatment.
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.
The purpose of this project is to understand how reading is related to brain function. To do this, participants will perform some reading tasks and then have magnetic resonance imaging (MRI) brain scans. Participants will then receive transcranial magnetic stimulation (TMS) to the reading areas of the brain, followed by a second MRI brain scan. This will temporarily activate reading abilities. We want to better understand how the reading system in the brain functions.
At least, three theoretical frameworks are currently involved in therapeutic research in developmental dyslexia. Each theoretical framework relies on the type of underlying cognitive processes that is viewed as impaired: 1°) phonological processing, 2°) cross modal integration, 3°) visual attention processing. In this controlled and randomized study, three types of computerized training are combined in a multi-factorial remedial approach in 8 to 12 year old children with dyslexia. The main objective is to compare the effectiveness of this remedial approach which combines phonological, visual-attentional and cross-modal training with conventional non-intensive and non-specific rehabilitation