New research from Yale University reveals how the brain’s intricate network starts forming even before we’re born.
Scientists have long understood that learning in humans involves brain cells firing together in synchronized patterns. For example, a child learns to recognize a dog by associating the visual cues of four legs, fur, and a tail with the concept of “dog.” However, how the brain initially establishes these connections before birth has remained a mystery.
A new study published in Science sheds light on this process. Researchers discovered that the same principle governing later learning—cells that fire together, wire together—also applies to the earliest stages of brain development. But instead of relying on external experiences, this initial wiring is driven by spontaneous electrical activity within the brain itself.
By meticulously studying mouse brain cells, the researchers observed that when a single brain cell’s activity aligns with the rhythmic electrical patterns of surrounding cells, it grows new connections. Conversely, when the activity is mismatched, these connections are pruned back. This finding supports the “Hebb’s rule” theory, which suggests that neurons that fire together strengthen their connections.
This groundbreaking research provides crucial insights into the fundamental mechanisms of brain development. It opens up new avenues for understanding neurological disorders and may lead to innovative approaches for treating conditions related to abnormal brain wiring.
Citation:
New study uncovers how brain cells form precise circuits before experience is able to shape wiring (2024, August 15)
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