Manu Goyal scite author profile

“In vivo Brodmann mapping” or non-invasive cortical parcellation using MRI, especially by measuring cortical myelination, has recently become a popular research topic, though myeloarchitectonic cortical parcellation in humans previously languished in favor of cytoarchitecture. We review recent in vivo myelin mapping studies and discuss some of the different methods for estimating myelin content. We discuss some ways in which myelin maps may improve surface registration and be useful for cross-modal and cross-species comparisons, including some preliminary cross-species results. Next, we consider neurobiological aspects of why some parts of cortex are more myelinated than others. Myelin content is inversely correlated with intracortical circuit complexity—in general, more myelin content means simpler and perhaps less dynamic intracortical circuits. Using existing PET data and functional network parcellations, we examine metabolic differences in the differently myelinated cortical functional networks. Lightly myelinated cognitive association networks tend to have higher aerobic glycolysis than heavily myelinated early sensory-motor ones, perhaps reflecting greater ongoing dynamic anabolic cortical processes. This finding is consistent with the hypothesis that intracortical myelination may stabilize intracortical circuits and inhibit synaptic plasticity. Finally, we discuss the future of the in vivo myeloarchitectural field and cortical parcellation--“in vivo Brodmann mapping”--in general.

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Collateral Effect of Covid-19 on Stroke Evaluation in the United States

Kansagra¹,

Goyal²,

Hamilton³

et al. 2020

N Engl J Med

410

399

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Aerobic Glycolysis in the Human Brain Is Associated with Development and Neotenous Gene Expression

et al. 2014

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SUMMARY Aerobic glycolysis (AG), i.e., non-oxidative metabolism of glucose despite the presence of abundant oxygen, accounts for 10–12% of glucose used by the adult human brain. AG varies regionally in the resting state. Brain AG may support synaptic growth and remodeling; however, data supporting this hypothesis are sparse. Here, we report on investigations on the role of AG in the human brain. Meta-analysis of prior brain glucose and oxygen metabolism studies demonstrates that AG increases during childhood, precisely when synaptic growth rates are highest. In resting adult humans, AG correlates with persistence of gene expression typical of infancy (transcriptional neoteny). In brain regions with the highest AG, we find increased gene expression related to synapse formation and growth. In contrast, regions high in oxidative glucose metabolism express genes related to mitochondria and synaptic transmission. Our results suggest that brain AG supports developmental processes, particularly those required for synapse formation and growth.

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The effect of the COVID‐19 pandemic on maternal health due to delay in seeking health care: Experience from a tertiary center

Goyal

Singh

et al. 2020

Intl J Gynecology & Obste

219

214

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Manu Goyal

Trends and properties of human cerebral cortex: Correlations with cortical myelin content

Collateral Effect of Covid-19 on Stroke Evaluation in the United States

Aerobic Glycolysis in the Human Brain Is Associated with Development and Neotenous Gene Expression

The effect of the COVID‐19 pandemic on maternal health due to delay in seeking health care: Experience from a tertiary center

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