You may have heard that humans only use 10 percent of their brain power, and that if you could unlock the rest of your brainpower, you could do so much more. You could become a super genius, or acquire psychic powers like mind reading and telekinesis. However, there is a powerful body ...
Over the past few decades, neuroimaging has become a ubiquitous tool in basic research and clinical studies of the human brain. However, no reference standards currently exist to quantify individual differences in neuroimaging metrics over time, in contr
Translating noisy sensory signals to perceptual decisions is critical for successful interactions in complex environments. Learning is known to improve perceptual judgments by filtering external noise and task-irrelevant information. Yet, little is known
The human brain makes up only about two percent of a person's body weight. On average, adult humans' brains weigh a little over three pounds. This makes our brain the largest brain, relative to body size, of any vertebrate animal.
we have found that short-range chromatin interactions are enriched in neurons, whereas long-range interactions are enriched in glial cells and non-brain tissues. We reconstructed the regulatory programs of cell-type development and differentiation, finding putatively causal common variants for schizophrenia...
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Finally, the delay maps are useful for addressing whether the breath-hold induces a bolus that traverses the brain in a manner dependent on the vascular hierarchy/topography, acquiring delay/dispersion as it progresses. According to our delay maps (FigureS8), the bhDSC method yields delay values...
Therefore, we investigated whether plasma polymer surfaces could sustain the adhesion of human brain cells on glass similar to or better than TCPS for long-term functional maturation. We also tested their effectiveness in combination with various extracellular matrix (ECM) components or attachment ...
Cerebral organoids represent a promising tool for understanding human brain physiology and disease processes1. Their resemblance to the human cerebral cortex—in terms of their three-dimensional (3D) architecture, cell-type diversity and cell–cell interactions2,3—provides major advantages over other ...
The complex biological mechanisms underlying human brain aging remain incompletely understood. This study investigated the genetic architecture of three brain age gaps (BAG) derived from gray matter volume (GM-BAG), white matter microstructure (WM-BAG),