期刊: HUMAN BRAIN MAPPING, 2023; 44 (2)
Emerging evidence indicates that activity flow over resting-state network topology allows the prediction of task activations. However, previous studie......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (2)
Deficits in neural processing of reward have been described in both bipolar disorder (BD) and schizophrenia (SZ), but it remains unclear to what exten......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (2)
The ascending arousal system plays a crucial role in individuals' consciousness. Recently, advanced functional magnetic resonance imaging (fMRI) has m......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (2)
Clear evidence demonstrated a supramodal organization of sensory cortices with multisensory processing occurring even at early stages of information e......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (3)
Brain morphometry is usually based on non-enhanced (pre-contrast) T1-weighted MRI. However, such dedicated protocols are sometimes missing in clinical......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (3)
Disrupted brain structures and several life environmental factors have been shown to influence depression and anxiety, but their interactions with anx......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (4)
Tensor-valued diffusion encoding facilitates data analysis by q-space trajectory imaging. By modeling the diffusion signal of heterogeneous tissues wi......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (5)
Perception of dynamic scenes in our environment results from the evaluation of visual features such as the fundamental spatial and temporal frequency ......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (9)
In preterm (PT) infants, regional cerebral blood flow (CBF) disturbances may predispose to abnormal brain maturation even without overt brain injury. ......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (10)
Moving from association to causal analysis of neuroimaging data is crucial to advance our understanding of brain function. The arrow-of-time (AoT), th......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (13)
Given the anatomical and functional similarities between the retina and the brain, the retina could be a window for viewing brain structures. We inves......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (14)
In this work we present BIANCA-MS, a novel tool for brain white matter lesion segmentation in multiple sclerosis (MS), able to generalize across both ......
期刊: HUMAN BRAIN MAPPING, 2023; ()
The hippocampus is classically divided into mesoscopic subfields which contain varying microstructure that contribute to their unique functional roles......
期刊: HUMAN BRAIN MAPPING, 2023; 44 (17)
When we perform an action, its sensory outcomes usually follow shortly after. This characteristic temporal relationship aids in distinguishing self- f......
期刊: HUMAN BRAIN MAPPING, 2023; ()
To explain how the human brain represents and organizes meaning, many theoretical and computational language models have been proposed over the years,......