Your search keyword '"Jolijn Vanderauwera"' showing total 7 results

1. A three-time point longitudinal investigation of the arcuate fasciculus throughout reading acquisition in children developing dyslexia

Author

Stijn Van Der Auwera, Maaike Vandermosten, Jan Wouters, Pol Ghesquière, and Jolijn Vanderauwera

Subjects

Developmental dyslexia, Reading, White matter, Diffusion Tensor Imaging, Automated Fiber Quantification, Longitudinal design, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Although the neural basis of dyslexia has intensively been investigated, results are still unclear about the existence of a white matter deficit in the arcuate fasciculus (AF) throughout development. To unravel this ambiguity, we examined the difference in fractional anisotropy (FA) of the AF between children developing dyslexia and children developing typical reading skills in a longitudinal sample with three MRI time points throughout reading development: the pre-reading stage (5–6 years old), the early reading stage (7–8 years old) and the advanced reading stage (9–10 years old). Applying along-the-tract analyses of white matter organization, our results confirmed that a white matter deficit existed in the left AF prior to the onset of formal reading instruction in children who developed dyslexia later on. This deficit was consistently present throughout the course of reading development. Additionally, we evaluated the use of applying a continuous approach on the participants’ reading skills rather than the arbitrary categorization in individuals with or without dyslexia. Our results confirmed the predictive relation between FA and word reading measurements later in development. This study supports the use of longitudinal approaches to investigate the neural basis of the developmental process of learning to read and the application of triangulation, i.e. using multiple research approaches to help gain more insight and aiding the interpretation of obtained results.

Published

2021

2. Imaging the rapidly developing brain: Current challenges for MRI studies in the first five years of life

Author

Ted K. Turesky, Jolijn Vanderauwera, and Nadine Gaab

Subjects

Development, Neuroimaging, Infant, Child, Brain, MRI, Neurophysiology and neuropsychology, QP351-495

Abstract

Rapid and widespread changes in brain anatomy and physiology in the first five years of life present substantial challenges for developmental structural, functional, and diffusion MRI studies. One persistent challenge is that methods best suited to earlier developmental stages are suboptimal for later stages, which engenders a trade-off between using different, but age-appropriate, methods for different developmental stages or identical methods across stages. Both options have potential benefits, but also biases, as pipelines for each developmental stage can be matched on methods or the age-appropriateness of methods, but not both. This review describes the data acquisition, processing, and analysis challenges that introduce these potential biases and attempts to elucidate decisions and make recommendations that would optimize developmental comparisons.

Published

2021

3. The relation between neurofunctional and neurostructural determinants of phonological processing in pre-readers

Author

Astrid De Vos, Jolijn Vanderauwera, Sophie Vanvooren, Maaike Vandermosten, Pol Ghesquière, and Jan Wouters

Subjects

Arcuate fasciculus, Auditory steady-state responses, Diffusion MRI, Neural synchronization, Phonological processing, Pre-reading, Neurophysiology and neuropsychology, QP351-495

Abstract

Phonological processing skills are known as the most robust cognitive predictor of reading ability. Therefore, the neural determinants of phonological processing have been extensively investigated by means of either neurofunctional or neurostructural techniques. However, to fully understand how the brain represents and processes phonological information, there is need for studies that combine both methods. The present study applies such a multimodal approach with the aim of investigating the pre-reading relation between neural measures of auditory temporal processing, white matter properties of the reading network and phonological processing skills. We administered auditory steady-state responses, diffusion-weighted MRI scans and phonological awareness tasks in 59 pre-readers. Our results demonstrate that a stronger rightward lateralization of syllable-rate (4 Hz) processing coheres with higher fractional anisotropy in the left fronto-temporoparietal arcuate fasciculus. Both neural features each in turn relate to better phonological processing skills. As such, the current study provides novel evidence for the existence of a pre-reading relation between functional measures of syllable-rate processing, structural organization of the arcuate fasciculus and cognitive precursors of reading development. Moreover, our findings demonstrate the value of combining different neural techniques to gain insight in the underlying neural systems for reading (dis)ability.

Published

2020

4. Evaluation of methods for volumetric analysis of pediatric brain data: The childmetrix pipeline versus adult-based approaches

Author

Thanh Vân Phan, Diana M. Sima, Caroline Beelen, Jolijn Vanderauwera, Dirk Smeets, and Maaike Vandermosten

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Pediatric brain volumetric analysis based on Magnetic Resonance Imaging (MRI) is of particular interest in order to understand the typical brain development and to characterize neurodevelopmental disorders at an early age. However, it has been shown that the results can be biased due to head motion, inherent to pediatric data, and due to the use of methods based on adult brain data that are not able to accurately model the anatomical disparity of pediatric brains. To overcome these issues, we proposed childmetrix, a tool developed for the analysis of pediatric neuroimaging data that uses an age-specific atlas and a probabilistic model-based approach in order to segment the gray matter (GM) and white matter (WM). The tool was extensively validated on 55 scans of children between 5 and 6 years old (including 13 children with developmental dyslexia) and 10 pairs of test-retest scans of children between 6 and 8 years old and compared with two state-of-the-art methods using an adult atlas, namely icobrain (applying a probabilistic model-based segmentation) and Freesurfer (applying a surface model-based segmentation). The results obtained with childmetrix showed a better reproducibility of GM and WM segmentations and a better robustness to head motion in the estimation of GM volume compared to Freesurfer. Evaluated on two subjects, childmetrix showed good accuracy with 82–84% overlap with manual segmentation for both GM and WM, thereby outperforming the adult-based methods (icobrain and Freesurfer), especially for the subject with poor quality data. We also demonstrated that the adult-based methods needed double the number of subjects to detect significant morphological differences between dyslexics and typical readers. Once further developed and validated, we believe that childmetrix would provide appropriate and reliable measures for the examination of children's brain. Keywords: Brain volumetric analysis, Neuroimaging data, Pediatric atlas, Child-adjusted processing, Magnetic resonance imaging

Published

2018

5. Early dynamics of white matter deficits in children developing dyslexia

Author

Jolijn Vanderauwera, Jan Wouters, Maaike Vandermosten, and Pol Ghesquière

Subjects

Neurophysiology and neuropsychology, QP351-495

Abstract

Neural anomalies have been demonstrated in dyslexia. Recent studies in pre-readers at risk for dyslexia and in pre-readers developing poor reading suggest that these anomalies might be a cause of their reading impairment. Our study goes one step further by exploring the neurodevelopmental trajectory of white matter anomalies in pre-readers with and without a familial risk for dyslexia (n = 61) of whom a strictly selected sample develops dyslexia later on (n = 15). We collected longitudinal diffusion MRI and behavioural data until grade 3. The results provide evidence that children with dyslexia exhibit pre-reading white matter anomalies in left and right long segment of the arcuate fasciculus (AF), with predictive power of the left segment above traditional cognitive measures and familial risk. Whereas white matter differences in the left AF seem most strongly related to the development of dyslexia, differences in the left IFOF and in the right AF seem driven by both familial risk and later reading ability. Moreover, differences in the left AF appeared to be dynamic. This study supports and expands recent insights into the neural basis of dyslexia, pointing towards pre-reading anomalies related to dyslexia, as well as underpinning the dynamic character of white matter. Keywords: Developmental dyslexia, Reading, White matter, DTI, Arcuate fasciculus, IFOF

Published

2017

6. A DTI tractography study in pre-readers at risk for dyslexia

Author

Maaike Vandermosten, Jolijn Vanderauwera, Catherine Theys, Astrid De Vos, Sophie Vanvooren, Stefan Sunaert, Jan Wouters, and Pol Ghesquière

Subjects

Dyslexia, Preschool children, Reading network, Diffusion weighted imaging, Developmental neuroscience, Neurophysiology and neuropsychology, QP351-495

Abstract

In adults and school-aged children, phonological aspects of reading seem to be sustained by left dorsal regions, while ventral regions seem to be involved in orthographic word recognition. Yet, given that the brain reorganises during reading acquisition, it is unknown when and how these reading routes emerge and whether neural deficits in dyslexia predate reading onset. Using diffusion MRI in 36 pre-readers with a family risk for dyslexia (FRD+) and 35 well matched pre-readers without a family risk (FRD−), our results show that phonological predictors of reading are sustained bilaterally by both ventral and dorsal tracts. This suggests that a dorsal and left-hemispheric specialisation for phonological aspects of reading, as observed in adults, is presumably gradually formed throughout reading development. Second, our results indicate that FRD+ pre-readers display mainly white matter differences in left ventral tracts. This suggests that atypical white matter organisation previously found in dyslexic adults may be causal rather than resulting from a lifetime of reading difficulties, and that the location of such a deficit may vary throughout development. While this study forms an important starting point, longitudinal follow-up of these children will allow further investigation of the dynamics between emerging literacy development and white matter connections.

Published

2015

7. The relation between neurofunctional and neurostructural determinants of phonological processing in pre-readers

Author

Jan Wouters, Jolijn Vanderauwera, Maaike Vandermosten, Pol Ghesquière, Sophie Vanvooren, Astrid De Vos, UCL - SSH/IPSY - Psychological Sciences Research Institute, and UCL - SSS/IONS - Institute of NeuroScience

Subjects

Male, Social Sciences, Psychology, Developmental, SPEECH ENVELOPE MODULATIONS, 0302 clinical medicine, Reading (process), STEADY-STATE RESPONSES, Arcuate fasciculus, Psychology, Child, media_common, Original Research, Structural organization, Neural synchronization, 05 social sciences, lcsh:QP351-495, Brain, Cognition, medicine.anatomical_structure, Child, Preschool, Auditory Perception, Female, HEMISPHERIC-ASYMMETRY, READING DEVELOPMENT, Life Sciences & Biomedicine, WHITE-MATTER, Cognitive psychology, Relation (database), Cognitive Neuroscience, media_common.quotation_subject, Pre-reading, Auditory steady-state responses, INDIVIDUAL-DIFFERENCES, Phonological processing, 050105 experimental psychology, Lateralization of brain function, SLOW TEMPORAL MODULATIONS, Diffusion MRI, 03 medical and health sciences, Phonological awareness, Phonetics, Fractional anisotropy, medicine, Humans, 0501 psychology and cognitive sciences, Science & Technology, Neurosciences, FAMILY RISK, Diffusion Magnetic Resonance Imaging, lcsh:Neurophysiology and neuropsychology, Reading, DEVELOPMENTAL DYSLEXIA, Neurosciences & Neurology, 030217 neurology & neurosurgery

Abstract

Phonological processing skills are known as the most robust cognitive predictor of reading ability. Therefore, the neural determinants of phonological processing have been extensively investigated by means of either neurofunctional or neurostructural techniques. However, to fully understand how the brain represents and processes phonological information, there is need for studies that combine both methods. The present study applies such a multimodal approach with the aim of investigating the pre-reading relation between neural measures of auditory temporal processing, white matter properties of the reading network and phonological processing skills. We administered auditory steady-state responses, diffusion-weighted MRI scans and phonological awareness tasks in 59 pre-readers. Our results demonstrate that a stronger rightward lateralization of syllable-rate (4 Hz) processing coheres with higher fractional anisotropy in the left fronto-temporoparietal arcuate fasciculus. Both neural features each in turn relate to better phonological processing skills. As such, the current study provides novel evidence for the existence of a pre-reading relation between functional measures of syllable-rate processing, structural organization of the arcuate fasciculus and cognitive precursors of reading development. Moreover, our findings demonstrate the value of combining different neural techniques to gain insight in the underlying neural systems for reading (dis)ability. ispartof: DEVELOPMENTAL COGNITIVE NEUROSCIENCE vol:46 ispartof: location:Netherlands status: published

Published

2020