Kelly L. Coburn scite author profile

Resting state fMRI (rs-fMRI) provides an excellent platform for examining the amplitude of low frequency fluctuations (ALFF) and fractional amplitude of low frequency fluctuations (fALFF), which are key indices of brain functioning. However, ALFF and fALFF have been used only sporadically to study autism. rs-fMRI data from 69 children (40 autistic, mean age = 8.47 AE 2.20 years; age range: 5.2 to 13.2; and 29 non-autistic, mean age = 9.02 AE 1.97 years; age range 5.9 to 12.9) were obtained from the Autism Brain Imaging Data Exchange (ABIDE II). ALFF and fALFF were measured using CONN connectivity toolbox and SPM12, at whole-brain & network-levels. A two-sampled t-test and a 2 Group (autistic, nonautistic) Â 7 Networks ANOVA were conducted to test group differences in ALFF and fALFF. The whole-brain analysis identified significantly reduced ALFF values for autistic participants in left parietal opercular cortex, precuneus, and right insula. At the network level, there was a significant effect of diagnostic group and brain network on ALFF values, and only significant effect of network, not group, on fALFF values. Regression analyses indicated a significant effect of age on ALFF values of certain networks in autistic participants. Such intrinsically different network-level responses in autistic participants may have implications for task-level recruitment and synchronization of brain areas, which may in turn impact optimal cognitive functioning. Moreover, differences in low frequency fluctuations of key networks, such as the DMN and SN, may underlie alterations in brain responses in autism that are frequently reported in the literature. Lay SummaryThe human brain while at rest (when a person is not doing any specific task) is a key venue for examining its makeup. Scientists can use resting-state functional MRI (rs-fMRI) to study how the brain functions at rest. This rs-fMRI study found differences between autistic and non-autistic children in the way that certain parts of the brain activate during rest. The study's findings could help people understand what aspects of brain function make autistic and non-autistic people different from each other.

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Development of Neural Structure and Function in Autism Spectrum Disorder: Potential Implications for Learning Language

Coburn

Williams

2020

Am J Speech Lang Pathol

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Purpose Neurodevelopmental processes that begin during gestation and continue throughout childhood typically support language development. Understanding these processes can help us to understand the disruptions to language that occur in neurodevelopmental conditions, such as autism spectrum disorder (ASD). Method For this tutorial, we conducted a focused literature review on typical postnatal brain development and structural and functional magnetic resonance imaging, diffusion tensor imaging, magnetoencephalography, and electroencephalography studies of the neurodevelopmental differences that occur in ASD. We then integrated this knowledge with the literature on evidence-based speech-language intervention practices for autistic children. Results In ASD, structural differences include altered patterns of cortical growth and myelination. Functional differences occur at all brain levels, from lateralization of cortical functions to the rhythmic activations of single neurons. Neuronal oscillations, in particular, could help explain disrupted language development by elucidating the timing differences that contribute to altered functional connectivity, complex information processing, and speech parsing. Findings related to implicit statistical learning, explicit task learning, multisensory integration, and reinforcement in ASD are also discussed. Conclusions Consideration of the neural differences in autistic children provides additional scientific support for current recommended language intervention practices. Recommendations consistent with these neurological findings include the use of short, simple utterances; repetition of syntactic structures using varied vocabulary; pause time; visual supports; and individualized sensory modifications.

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Behavioral and neurobiological evidence for the effects of reading interventions on autistic children: A systematic review

Coburn

Kurtz

Rivera

et al. 2022

Neuroscience & Biobehavioral Reviews

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Event related potential exploration of the organizational structure of abstract versus concrete words in neurologically intact younger adults

et al. 2022

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Kelly L. Coburn

Amplitude of low frequency fluctuations during resting state fMRI in autistic children

Development of Neural Structure and Function in Autism Spectrum Disorder: Potential Implications for Learning Language

Behavioral and neurobiological evidence for the effects of reading interventions on autistic children: A systematic review

Event related potential exploration of the organizational structure of abstract versus concrete words in neurologically intact younger adults

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