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Brain Network Articles & Analysis
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The human brain has long been regarded as one of the most enigmatic subjects in both medicine and science, captivating interest since ancient times. Its intricate architecture and advanced functionalities continue to inspire awe. However, it is through the lens of contemporary medical technology that we can begin to uncover the secrets within the brain, revealing the intricate structures nestled ...
Introduction By leveraging Connectomics to trace functional connectivity, seven large-scale brain networks have been identified. These networks have the most dominance over cortical function in the brain, and each serves an overarching common function. While some networks are familiar, many networks, and their constituents, are newly discovered1. These major networks control brain ...
About two-thirds of those that experience arm paralysis after stroke are unable to fully use their affected limb six months after stroke (1-3). Not having a fully functional arm and hand after a stroke is not only frustrating but also devastating to many individuals. Day-to-day operations and activities of daily living become more difficult, take longer to complete, and may require assistance ...
What is the salience brain network? The salience network (SN) is “the moderator.” As your mind’s personal moderator, the salience network constantly monitors the external world and carefully decides how other brain networks react to new information and stimuli. The SN moderates switching between the internal and external processing1 of the brain’s two main ...
There is no such thing as unimportant, or non-eloquent, brain. For decades, neuroscientists and clinicians have studied the brain attempting to pinpoint the regions that control specific functions. This is the age old question of ‘What part of the brain is responsible for ___?’ For clinicians, this assists in determining where the source of certain disorders may originate and ...
Highlights Deterministic barcoding in tissue enables NGS-based spatial multi-omics mapping DBiT-seq identified spatial patterning of major tissue types in mouse embryos Revealed retinal pigmented epithelium and microvascular endothelium at cellular level Direct integration with scRNA-seq data allows for rapid cell type identification Summary We present ...