New research led by Charité – Universitätsmedizin Berlin and published in Science reveals that the wiring of nerve cells in the human neocortex differs significantly from that in mice. The study discovered that human neurons predominantly transmit signals in a unidirectional manner, whereas mouse neurons typically send signals in looping patterns. This structural difference may enhance the human brain’s ability to process information more efficiently and effectively. The findings hold potential implications for advancing artificial neural network technologies.
The neocortex, a critical structure for human intelligence, is less than five millimeters thick. There, in the outermost layer of the brain, 20 billion neurons process countless sensory perceptions, plan actions, and form the basis of our consciousness. How do these neurons process all this complex information? That largely depends on how they are “wired” to each other.
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