Nerve SystemMost people know that nerves work by passing electrical currents from cell to cell. But you might be surprised to learn that no one knows exactly how anesthetics stop nerves from carrying pain signals. That’s why two scientists believe that we really don’t know how nerves work after all.

According to their controversial theory, electricity is just a side effect of how nerves really operate: by conducting high-density waves of pressure that resemble sound reverberating through a pipe. If correct, Jackson and Thomas Heimburg, a Niels Bohr biophysicist and co-author of a recent paper describing their theory, would turn a long-held (and Nobel Prize-winning) theory on its head.

Their theory, published in the Biophysical Journal, explains how nerves and anesthetics work as follows: Nerves are made of lipids that are liquid at body temperature. A yet-to-be-defined mechanism creates high-pressure, semisolid waves that move through the cells, delivering messages.

Anesthetics, they suggest, lower the temperature at which lipids become solid, making it difficult for the waves to form, thereby preventing nerves from sending pain signals. They also suggest that as the waves travel, they change the shape of the cell membrane, producing the electrical pulse that scientists currently mistake for the primary function of nerve cells.

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