David C. Van Essen
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View article: Author response: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Author response: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
View article: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
Mapping the vascular organization of the brain is of great importance across various domains of basic neuroimaging research, diagnostic radiology, and neurology. However, the intricate task of precisely mapping vasculature across brain reg…
View article: Author response: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Author response: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
View article: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
Mapping the vascular organization of the brain is of great importance across various domains of basic neuroimaging research, diagnostic radiology, and neurology. However, the intricate task of precisely mapping vasculature across brain reg…
View article: Compensating Cortical Thickness for Cortical Folding-Related Variation
Compensating Cortical Thickness for Cortical Folding-Related Variation Open
Cortical thickness is a widely used biomarker of brain morphology and health, yet it is dependent on local cortical folding. Because gyral crowns are consistently thicker than sulcal fundi and cortical folds vary widely across individuals,…
View article: Automatic Individual Cortical Parcellation for the Human Connectome Project
Automatic Individual Cortical Parcellation for the Human Connectome Project Open
The original Human Connectome Project multimodal cortical parcellation (HCP_MMP1.0) used MRI-derived local features and long-distance functional connectivity measures to define a multimodal parcellation at the group level, accompanied by a…
View article: Development of a 24-Channel 3T Phased-Array Coil for fMRI in Awake Monkeys - Mitigating Spatiotemporal Artifacts in Ferumoxytol-Weighted Functional Connectivity Estimation
Development of a 24-Channel 3T Phased-Array Coil for fMRI in Awake Monkeys - Mitigating Spatiotemporal Artifacts in Ferumoxytol-Weighted Functional Connectivity Estimation Open
Functional magnetic resonance imaging (fMRI) of awake macaque monkeys holds promise for advancing our understanding of primate brain organization, including humans. However, estimating functional connectivity in awake animals is challengin…
View article: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
Mapping the vascular organization of the brain is of great importance across various domains of basic neuroimaging research, diagnostic radiology, and neurology. However, the intricate task of precisely mapping vasculature across brain reg…
View article: Author response: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Author response: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
View article: Charting cortical-layer specific area boundaries using Gibbs’ ringing attenuated T1w/T2w-FLAIR myelin MRI
Charting cortical-layer specific area boundaries using Gibbs’ ringing attenuated T1w/T2w-FLAIR myelin MRI Open
Cortical areas have traditionally been defined by their distinctive layer cyto- and/or myelo- architecture using postmortem histology. Recent studies have delineated many areas by measuring overall cortical myelin content and its spatial g…
View article: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
Mapping the vascular organization of the brain is of great importance across various domains of basic neuroimaging research, diagnostic radiology, and neurology. However, the intricate task of precisely mapping vasculature across brain reg…
View article: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
Mapping the vascular organization of the brain is of great importance across various domains of basic neuroimaging research, diagnostic radiology, and neurology. However, the intricate task of precisely mapping vasculature across brain reg…
View article: Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI
Mapping vascular network architecture in primate brain using ferumoxytol-weighted laminar MRI Open
Mapping the vascular organization of the brain is of great importance across various domains of basic neuroimaging research, diagnostic radiology, and neurology. However, the intricate task of precisely mapping vasculature across brain reg…
View article: Automating the Human Connectome Project’s Temporal ICA Pipeline
Automating the Human Connectome Project’s Temporal ICA Pipeline Open
Functional magnetic resonance imaging (fMRI) data are dominated by noise and artifacts, with only a small fraction of the variance relating to neural activity. Temporal independent component analysis (tICA) is a recently developed method t…
View article: Evaluating functional brain organization in individuals and identifying contributions to network overlap
Evaluating functional brain organization in individuals and identifying contributions to network overlap Open
Individual differences in the spatial organization of resting-state networks have received increased attention in recent years. Measures of individual-specific spatial organization of brain networks and overlapping network organization hav…
View article: Evaluating functional brain organization in individuals and identifying contributions to network overlap
Evaluating functional brain organization in individuals and identifying contributions to network overlap Open
Individual differences in the spatial organization of resting state networks have received increased attention in recent years. Measures of individual-specific spatial organization of brain networks and overlapping network organization hav…
View article: Cardiovascular and metabolic health is associated with functional brain connectivity in middle-aged and older adults: Results from the Human Connectome Project-Aging study
Cardiovascular and metabolic health is associated with functional brain connectivity in middle-aged and older adults: Results from the Human Connectome Project-Aging study Open
Several cardiovascular and metabolic indicators, such as cholesterol and blood pressure have been associated with altered neural and cognitive health as well as increased risk of dementia and Alzheimer's disease in later life. In this cros…
View article: Local and long-distance organization of prefrontal cortex circuits in the marmoset brain
Local and long-distance organization of prefrontal cortex circuits in the marmoset brain Open
The prefrontal cortex (PFC) has dramatically expanded in primates, but its organization and interactions with other brain regions are only partially understood. We performed high-resolution connectomic mapping of the marmoset PFC and found…
View article: Generalising the HCP multimodal cortical parcellation to UK Biobank
Generalising the HCP multimodal cortical parcellation to UK Biobank Open
The Human Connectome Project Multimodal Parcellation (HCP_MMP1.0) provides a robust in vivo map of the cerebral cortex, which demonstrates variability in structure and function that cannot be captured through diffeomorphic image registrati…
View article: Age-related differences in resting-state functional connectivity from childhood to adolescence
Age-related differences in resting-state functional connectivity from childhood to adolescence Open
The human brain is active at rest, and spontaneous fluctuations in functional MRI BOLD signals reveal an intrinsic functional architecture. During childhood and adolescence, functional networks undergo varying patterns of maturation, and m…
View article: Cortical adaptation of the night monkey to a nocturnal niche environment: a comparative non-invasive T1w/T2w myelin study
Cortical adaptation of the night monkey to a nocturnal niche environment: a comparative non-invasive T1w/T2w myelin study Open
View article: Developmental trajectories of cortical thickness by functional brain network: The roles of pubertal timing and socioeconomic status
Developmental trajectories of cortical thickness by functional brain network: The roles of pubertal timing and socioeconomic status Open
View article: Biomechanical models and mechanisms of cellular morphogenesis and cerebral cortical expansion and folding
Biomechanical models and mechanisms of cellular morphogenesis and cerebral cortical expansion and folding Open
View article: Graded Variation in T1w/T2w Ratio during Adolescence: Measurement, Caveats, and Implications for Development of Cortical Myelin
Graded Variation in T1w/T2w Ratio during Adolescence: Measurement, Caveats, and Implications for Development of Cortical Myelin Open
Adolescence is characterized by the maturation of cortical microstructure and connectivity supporting complex cognition and behavior. Axonal myelination influences brain connectivity during development by enhancing neural signaling speed a…
View article: Empirical transmit field bias correction of T1w/T2w myelin maps
Empirical transmit field bias correction of T1w/T2w myelin maps Open
View article: Comparative non-invasive T1w/T2w myelin mapping of the night monkey: implications for cortical adaptation to a nocturnal niche environment
Comparative non-invasive T1w/T2w myelin mapping of the night monkey: implications for cortical adaptation to a nocturnal niche environment Open
Night monkeys ( Aotus ) are the only genus of monkeys within the Simian lineage that successfully occupy the nocturnal niche environment. Their behavior is supported by their sensory organs’ unique morphological features; however, little i…
View article: Retinotopic organization of feedback projections in primate early visual cortex: implications for active vision
Retinotopic organization of feedback projections in primate early visual cortex: implications for active vision Open
Feedback connections play a major role in many theories of brain function. Previous studies of feedback connections to early visual areas have mainly concentrated on the representation of central visual fields. Here, injections of tracers …
View article: Anatomical variability, multi-modal coordinate systems, and precision targeting in the marmoset brain
Anatomical variability, multi-modal coordinate systems, and precision targeting in the marmoset brain Open
View article: Anatomical variability, multi-modal coordinate systems, and precision targeting in the marmoset brain
Anatomical variability, multi-modal coordinate systems, and precision targeting in the marmoset brain Open
Localising accurate brain regions needs careful evaluation in each experimental species due to their individual variability. However, the function and connectivity of brain areas is commonly studied using a single-subject cranial landmark-…
View article: Is Neuroscience FAIR? A Call for Collaborative Standardisation of Neuroscience Data
Is Neuroscience FAIR? A Call for Collaborative Standardisation of Neuroscience Data Open
In this perspective article, we consider the critical issue of data and other research object standardisation and, specifically, how international collaboration, and organizations such as the International Neuroinformatics Coordinating Fac…