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Trends in Neuroscience and Education Dec 2023Misconceptions about how the brain works (neuromyths) are shown to be common among educators, but little is known about neurodevelopmental disorders (NDDs) neuromyths....
Misconceptions about how the brain works (neuromyths) are shown to be common among educators, but little is known about neurodevelopmental disorders (NDDs) neuromyths. Here, we explored the prevalence of both general and neurodevelopmental disorders neuromyths in Chilean teachers and other educational professionals. One hundred forty-four participants answered an online neuroscience knowledge, interest, and training questionnaire. Regression analysis showed that both teachers and non-teachers endorsed more neuromyths related to NDDs compared to general neuromyths and that familiarity with the NDDs but not necessarily neuroscience training or interest plays an important role in the endorsement of these neuromyths. The findings indicate that dyscalculia is the least known neurodevelopmental disorder. Although inclusion politics demand training for all educational actors, the current findings suggest effective translational efforts between neuroscience and education fields should continue.
Topics: Humans; Chile; Neurosciences; Educational Personnel; Brain; Neurodevelopmental Disorders
PubMed: 38049290
DOI: 10.1016/j.tine.2023.100218 -
Progress in Brain Research 2023Current theories postulate that numerical processing depends upon a brain circuit formed by regions and their connections; specialized in the representation and...
Current theories postulate that numerical processing depends upon a brain circuit formed by regions and their connections; specialized in the representation and manipulation of the numerical properties of stimuli. It has been suggested that the damage of these network may cause Developmental Dyscalculia (DD): a persistent neurodevelopmental disorder that significantly interferes with academic performance and daily life activities that require mastery of mathematical notions and operations. However, most of the studies on the brain foundations of DD have focused on regions of interest associated with numerical processing, and have not addressed numerical cognition as a complex network phenomenon. The present study explored DD using a Graph Theory network approach. We studied the association between topological measures of integration and segregation of information processing in the brain proposed by Graph Theory; and individual variability in numerical performance in a group of 11 school-aged children with DD (5 of which presented with comorbidity with Developmental Dyslexia, the specific learning disorder for reading) and 17 typically developing peers. A statistically significant correlation was found between the Weber fraction (a measure of numerical representations' precision) and the Clustering Index (a measure of segregation of information processing) in the whole sample. The DD group showed significantly lower Characteristic Path Length (average shortest path length among all pairs of regions in the brain network) compared to controls. Also, differences in critical regions for the brain network performance (hubs) were found between groups. The presence of limbic hubs characterized the DD brain network while right Temporal and Frontal hubs found in controls were absent in the DD group. Our results suggest that the DD may be associated with alterations in anatomical brain connectivity that hinder the capacity to integrate and segregate numerical information.
Topics: Humans; Child; Dyscalculia; Brain; Reading; Cognition; Neurodevelopmental Disorders
PubMed: 38035908
DOI: 10.1016/bs.pbr.2023.10.001 -
Journal of Learning Disabilities 2024Conceptual replications are part and parcel of education science. Methodologically rigorous conceptual replication studies permit researchers to test and strengthen the... (Randomized Controlled Trial)
Randomized Controlled Trial
Conceptual replications are part and parcel of education science. Methodologically rigorous conceptual replication studies permit researchers to test and strengthen the generalizability of a study's initial findings. The current conceptual replication sought to replicate the efficacy of a small-group, first-grade mathematics intervention with 240 first-grade students with mathematics difficulties in a new geographical region. Participating students were randomized into one of three conditions: (a) 2:1 mathematics intervention group, (b) 5:1 mathematics intervention group, or (c) business-as-usual instruction. Relative to the original study, findings from the replication varied. When comparing the treatment groups to the control, results suggested positive effects on all outcome measures, including a follow-up assessment administered one year later. However, differences between the two treatment groups based on group size were not found in the mathematics outcome measures. Both groups also received commensurate levels of observed instructional interactions. Implications for unpacking contextual differences between original research and their replications as well as using future research to explore the quantity and quality of instructional interactions as ways to explain variation in findings of group size are discussed.
Topics: Humans; Child; Female; Male; Dyscalculia; Mathematical Concepts; Mathematics; Early Intervention, Educational
PubMed: 38014809
DOI: 10.1177/00222194231209017 -
Human Brain Mapping Dec 2023Functional neuroimaging serves as a tool to better understand the cerebral correlates of atypical behaviors, such as learning difficulties. While significant advances...
Functional neuroimaging serves as a tool to better understand the cerebral correlates of atypical behaviors, such as learning difficulties. While significant advances have been made in characterizing the neural correlates of reading difficulties (developmental dyslexia), comparatively little is known about the neurobiological correlates of mathematical learning difficulties, such as developmental dyscalculia (DD). Furthermore, the available neuroimaging studies of DD are characterized by small sample sizes and variable inclusion criteria, which make it problematic to compare across studies. In addition, studies to date have focused on identifying single deficits in neuronal processing among children with DD (e.g., mental arithmetic), rather than probing differences in brain function across different processing domains that are known to be affected in children with DD. Here, we seek to address the limitations of prior investigations. Specifically, we used functional magnetic resonance imaging (fMRI) to probe brain differences between children with and without persistent DD; 68 children (8-10 years old, 30 with DD) participated in an fMRI study designed to investigate group differences in the functional neuroanatomy associated with commonly reported behavioral deficits in children with DD: basic number processing, mental arithmetic and visuo-spatial working memory (VSWM). Behavioral data revealed that children with DD were less accurate than their typically achieving (TA) peers for the basic number processing and arithmetic tasks. No behavioral differences were found for the tasks measuring VSWM. A pre-registered, whole-brain, voxelwise univariate analysis of the fMRI data from the entire sample of children (DD and TA) revealed areas commonly associated with the three tasks (basic number processing, mental arithmetic, and VSWM). However, the examination of differences in brain activation between children with and without DD revealed no consistent group differences in brain activation. In view of these null results, we ran exploratory, Bayesian analyses on the data to quantify the amount of evidence for no group differences. This analysis provides supporting evidence for no group differences across all three tasks. We present the largest fMRI study comparing children with and without persistent DD to date. We found no group differences in brain activation using univariate, frequentist analyses. Moreover, Bayesian analyses revealed evidence for the null hypothesis of no group differences. These findings contradict previous literature and reveal the need to investigate the neural basis of DD using multivariate and network-based approaches to brain imaging.
Topics: Child; Humans; Memory, Short-Term; Magnetic Resonance Imaging; Dyscalculia; Bayes Theorem; Brain
PubMed: 37909347
DOI: 10.1002/hbm.26495 -
Journal of Learning Disabilities 2024Children with mathematical difficulties need to spend more time than typically achieving children on solving even simple equations. Since these tasks already require a...
Children with mathematical difficulties need to spend more time than typically achieving children on solving even simple equations. Since these tasks already require a larger share of their cognitive resources, additional demands imposed by the need to switch between tasks may lead to a greater decline of performance in children with mathematical difficulties. We explored differential task switch costs with respect to switching between addition versus subtraction with a tablet-based arithmetic verification task and additional standardized tests in German elementary school children in Grades 1 to 4. Two independent studies were conducted. In Study 1, we assessed the validity of a newly constructed tablet-based arithmetic verification task in a controlled classroom-setting ( = 165). Then, effects of switching between different types of arithmetic operations on accuracy and response latency were analyzed through generalized linear mixed models in an online-based testing (Study 2; = 3,409). Children with mathematical difficulties needed more time and worked less accurately overall. They also exhibited a stronger performance decline when working in a task-switching condition, when working on subtraction (vs. addition) items and in operations with two-digit (vs. one-digit) operations. These results underline the value of process data in the context of assessing mathematical difficulties.
Topics: Humans; Child; Male; Female; Dyscalculia; Executive Function; Mathematical Concepts; Mathematics
PubMed: 37905535
DOI: 10.1177/00222194231204619 -
Neurological Sciences : Official... Apr 2024Corticobasal syndrome (CBS) is typically asymmetric. Case reports suggest that left-hemisphere CBS (lhCBS) is associated with major language impairment, and...
BACKGROUND
Corticobasal syndrome (CBS) is typically asymmetric. Case reports suggest that left-hemisphere CBS (lhCBS) is associated with major language impairment, and right-hemisphere CBS (rhCBS) is associated with major visuospatial deficits, but no group study has ever verified these observations. In our study, we enrolled 49 patients with CBS, classified them as lhCBS or rhCBS based on asymmetry of hypometabolism on brain FDG-PET and compared their cognitive and behavioural profiles.
METHODS
We defined asymmetry of hypometabolism upon visual inspection of qualitative PET images and confirmed it through paired comparison of left- and right-hemisphere FDG uptake values. The two groups were also matched for severity of hypometabolism within the more affected and more preserved hemispheres, to unravel differences in the cognitive profiles ascribable specifically to each hemisphere's functional specializations. All patients were assessed for memory, language, executive and visuospatial deficits, apraxia, neglect, dyscalculia, agraphia and behavioural disturbances.
RESULTS
LhCBS (n. 26) and rhCBS (n. 23) patients did not differ for demographics, disease duration and severity of global cognitive impairment. The two cognitive profiles were largely overlapping, with two exceptions: Digit span forward was poorer in lhCBS, and visual neglect was more frequent in rhCBS.
CONCLUSIONS
After balancing out patients for hemispheric hypometabolism, we did not confirm worse language or visuospatial deficits in, respectively, lhCBS and rhCBS. However, verbal short-term memory was more impaired in lhCBS, and spatial attention was more impaired in rhCBS. Both of these functions reflect the functional specialization of the left and right fronto-parietal pathways, i.e. of the main loci of neurodegeneration in CBS.
Topics: Humans; Fluorodeoxyglucose F18; Corticobasal Degeneration; Research Design; Brain; Positron-Emission Tomography; Cognition
PubMed: 37889380
DOI: 10.1007/s10072-023-07148-2 -
Frontiers in Human Neuroscience 2023Developmental dyscalculia is a neurodevelopmental disorder specific to arithmetic learning even with normal intelligence and age-appropriate education. Difficulties...
Developmental dyscalculia is a neurodevelopmental disorder specific to arithmetic learning even with normal intelligence and age-appropriate education. Difficulties often persist from childhood through adulthood lowering the individual's quality of life. However, the neural correlates of developmental dyscalculia are poorly understood. This study aimed to identify brain structural connectivity alterations in developmental dyscalculia. All participants were recruited from a large scale, non-referred population sample in a longitudinal design. We studied 10 children with developmental dyscalculia (11.3 ± 0.7 years) and 16 typically developing peers (11.2 ± 0.6 years) using diffusion-weighted magnetic resonance imaging. We assessed white matter microstructure with tract-based spatial statistics in regions-of-interest tracts that had previously been related to math ability in children. Then we used global probabilistic tractography for the first time to measure and compare tract length between developmental dyscalculia and typically developing groups. The high angular resolution diffusion-weighted magnetic resonance imaging and crossing-fiber probabilistic tractography allowed us to evaluate the length of the pathways compared to previous studies. The major findings of our study were reduced white matter coherence and shorter tract length of the left superior longitudinal/arcuate fasciculus and left anterior thalamic radiation in the developmental dyscalculia group. Furthermore, the lower white matter coherence and shorter pathways tended to be associated with the lower math performance. These results from the regional analyses indicate that learning, memory and language-related pathways in the left hemisphere might be related to developmental dyscalculia in children.
PubMed: 37868699
DOI: 10.3389/fnhum.2023.1147352 -
Frontiers in Psychology 2023
PubMed: 37829073
DOI: 10.3389/fpsyg.2023.1288388 -
Frontiers in Psychology 2023Research on typically developing children and adults and people with developmental and acquired dyscalculia converges in indicating that arithmetical ability is not... (Review)
Review
Research on typically developing children and adults and people with developmental and acquired dyscalculia converges in indicating that arithmetical ability is not unitary but is made up of many different components. Categories of components include non-symbolic quantity representation and processing; symbolic quantity representation and processing; counting procedures and principles; arithmetic operations; arithmetical knowledge and understanding; multiple forms and applications of conceptual knowledge of arithmetic; and domain-general abilities such as attention, executive functions and working memory. There is much evidence that different components can and often do show considerable functional independence, not only in developmental and acquired dyscalculia, but in typically achieving children and adults. At the same time, it is possible to find complex interactions and bidirectional relationships between the different components, including between domain-specific and apparently domain-general abilities. There is a great deal that still needs to be discovered. In particular, we need to learn more about the origins in infancy of subitizing and approximate magnitude comparison, the extent to which these interact, the extent to which they may be further divisible, and the extent and ways in which they themselves may develop with age and the extent to which they may influence later-developing components. There also needs to be a lot more research on exactly how domain-general and domain-specific abilities contribute to mathematical development, and how they interact with one another.
PubMed: 37780151
DOI: 10.3389/fpsyg.2023.1188271 -
Journal of Family Medicine and Primary... Aug 2023Specific learning disability (SLD) is a cognitive neurobiological disorder caused by atypical brain functioning. SLD is recognized when the individual's achievement in...
BACKGROUND
Specific learning disability (SLD) is a cognitive neurobiological disorder caused by atypical brain functioning. SLD is recognized when the individual's achievement in school is below that expected for age, schooling, and level of intelligence. Screening millions of students with SLD by health personnel is a logistical impossibility. Awareness and knowledge about learning disorders among schoolteachers may play a major role in the early identification and management of children with these disorders. Therefore, the assessment of teachers' knowledge and perceptions about learning disabilities (LDs) is relevant.
METHOD
A school-based cross-sectional study was conducted among teachers in government/government-aided and private schools in Vellore, India. The participants were selected by a simple random sampling method. There was a total of 80 teachers included in the study. Data capture was done using a questionnaire. A Chi-square test was done to test the association and the odds ratio test helped determine the strength of the association. A value of <0.05 was considered to be statistically significant.
RESULTS
The majority of the teachers (70%) had adequate general knowledge regarding LDs. When analyzed separately, 82.5% of government/aided teachers and only 57.5% of teachers were having adequate general knowledge regarding LDs. There was a significant association between the type of school and general knowledge regarding LDs. Government/aided teachers had better general knowledge regarding LDs and dyslexia than private teachers.
CONCLUSIONS
Among 80 teachers, 70% (56) of them had adequate general knowledge regarding LDs. When analyzed separately, 82.5% (33) of government/aided teachers and only 57.5% (23) teachers were having adequate general knowledge regarding LDs. The government/aided schoolteachers had significantly higher levels of knowledge in most domains of the general knowledge section as compared to private schoolteachers. If teachers are having adequate knowledge regarding LDs, it will significantly increase the chances of children with LDs getting detected early and undergoing the treatment they require. Teacher education programs and workshops are needed to be conducted at regular intervals to improve the knowledge regarding SLDs among teachers.
PubMed: 37767410
DOI: 10.4103/jfmpc.jfmpc_2018_22