72 research outputs found

    Subcortical Brain and Behavior Phenotypes Differentiate Infants With Autism Versus Language Delay

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    Background Younger siblings of children with autism spectrum disorder (ASD) are themselves at increased risk for ASD and other developmental concerns. It is unclear if infants who display developmental concerns, but are unaffected by ASD, share similar or dissimilar behavioral and brain phenotypes to infants with ASD. Most individuals with ASD exhibit heterogeneous difficulties with language, and their receptive-expressive language profiles are often atypical. Yet, little is known about the neurobiology that contributes to these language difficulties. Methods In this study, we used behavioral assessments and structural magnetic resonance imaging to investigate early brain structures and associations with later language skills. High-risk infants who were later diagnosed with ASD (n = 86) were compared with high-risk infants who showed signs of early language delay (n = 41) as well as with high- and low-risk infants who did not have ASD or language delay (n = 255 and 143, respectively). Results Results indicated that diminished language skills were evident at 12 months in infants with ASD and infants with early language delay. At 24 months of age, only the infants with ASD displayed atypical receptive-expressive language profiles. Associations between 12-month subcortical volumes and 24-month language skills were moderated by group status, indicating disordinal brain-behavior associations among infants with ASD and infants with language delay. Conclusions These results suggest that there are different brain mechanisms influencing language development in infants with ASD and infants with language delay, and that the two groups likely experience unique sets of genetic and environmental risk factors

    Walking, Gross Motor Development, and Brain Functional Connectivity in Infants and Toddlers

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    Infant gross motor development is vital to adaptive function and predictive of both cognitive outcomes and neurodevelopmental disorders. However, little is known about neural systems underlying the emergence of walking and general gross motor abilities. Using resting state fcMRI, we identified functional brain networks associated with walking and gross motor scores in a mixed cross-sectional and longitudinal cohort of infants at high and low risk for autism spectrum disorder, who represent a dimensionally distributed range of motor function. At age 12 months, functional connectivity of motor and default mode networks was correlated with walking, whereas dorsal attention and posterior cingulo-opercular networks were implicated at age 24 months. Analyses of general gross motor function also revealed involvement of motor and default mode networks at 12 and 24 months, with dorsal attention, cingulo-opercular, frontoparietal, and subcortical networks additionally implicated at 24 months. These findings suggest that changes in network-level brain-behavior relationships underlie the emergence and consolidation of walking and gross motor abilities in the toddler period. This initial description of network substrates of early gross motor development may inform hypotheses regarding neural systems contributing to typical and atypical motor outcomes, as well as neurodevelopmental disorders associated with motor dysfunction

    Robotic Exoskeleton for Grip Enhancement and Stroke Rehabilitation

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    In this paper, we introduce the outline of a delicate wearable exoskeleton that involves a glove implanted with pneumatic actuators of variable firmness for hand assistive and restoration application. The gadget is lightweight and effortlessly wearable because of the utilization of delicate pneumatic actuators. A key element of the gadget is the variable firmness of the actuators at various territories that not just fit in with the finger profile amid activation, additionally gives adaptability to various hand measurements. The actuators can accomplish distinctive twisting profiles with variable firmness actualized at various regions. Thusly, the gadget can perform distinctive hand treatment activities, for example, full clench hand, straight clench hand, snare clench hand and table top. The gadget was described as far as its scope of movement and greatest compel yield. Examinations were led to look at the contrasts amongst dynamic and detached activation. The outcomes demonstrated that the gadget could accomplish hand getting a handle on and squeezing with worthy scope of movement and drive
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