Robin Blades scite author profile

Deep brain nuclei are integral components of large-scale circuits mediating important cognitive and sensorimotor functions. However, because they fall outside the domain of conventional non-invasive neuromodulatory techniques, their study has been primarily based on neuropsychological models, limiting the ability to fully characterize their role and to develop interventions in cases where they are damaged. To address this gap, we used the emerging technology of non-invasive low-intensity focused ultrasound (LIFU) to directly modulate left lateralized basal ganglia structures in healthy volunteers. During sonication, we observed local and distal decreases in blood oxygenation level dependent (BOLD) signal in the targeted left globus pallidus (GP) and in large-scale cortical networks. We also observed a generalized decrease in relative perfusion throughout the cerebrum following sonication. These results show, for the first time using functional MRI data, the ability to modulate deep-brain nuclei using LIFU while measuring its local and global consequences, opening the door for future applications of subcortical LIFU.

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Real Time and Delayed Effects of Subcortical Low Intensity Focused Ultrasound

Cain

Visagan

Johnson

et al. 2020

Preprint

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Treating dissociative post-traumatic stress disorder presenting as a functional movement disorder with transcranial magnetic stimulation targeting the cingulate gyrus

Blades¹,

Jordan

Becerra³

et al. 2020

Neurol Sci

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Is it me or my child? The association between maternal depression and children's behavior problems in mothers and their children with or without autism

et al. 2022

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Neuroanatomical differences in the memory systems of intellectual giftedness and typical development

et al. 2021

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Introduction:Studying neuro-structural markers of intellectual giftedness (IG) will inform scientific understanding of the processes helping children excel academically.Methods: Structural and diffusion-weighted MRI was used to compare regional brain shape and connectivity of 12 children with average to high average IQ and 18 IG children, defined as having IQ greater than 145.Results: IG had larger subcortical structures and more robust white matter microstructural organization between those structures in regions associated with explicit memory. TD had more connected, larger subcortical structures in regions associated with implicit memory. Conclusions:It was found that the memory systems within brains of children with exceptional intellectual abilities are differently sized and connected compared to the brains of typically developing children. These different neurodevelopmental trajectories suggest different learning strategies. A spectrum of intelligence types is envisioned, facilitated by different ratios of implicit and explicit system, which was validated using a large external dataset.

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Robin Blades

Real time and delayed effects of subcortical low intensity focused ultrasound

Real Time and Delayed Effects of Subcortical Low Intensity Focused Ultrasound

Treating dissociative post-traumatic stress disorder presenting as a functional movement disorder with transcranial magnetic stimulation targeting the cingulate gyrus

Is it me or my child? The association between maternal depression and children's behavior problems in mothers and their children with or without autism

Neuroanatomical differences in the memory systems of intellectual giftedness and typical development

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