⏩ Every neuroscience textbook will tell you the same thing about myelin: it speeds up nerve conduction. The myelin sheath wrapping an axon forces electrical signals to jump between gaps called nodes of Ranvier rather than propagating continuously along the membrane. This saltatory conduction is faster, and that speed advantage is the standard explanation for why the brain invests so heavily in producing and maintaining myelin.
🧩 That explanation is correct. It is also, we believe, incomplete in a way that has misled the BCI field for years.
🔋 If speed were the primary function of myelination, you would expect that depleting myelin would slow neural signals. And it does, but only modestly, and only for the third+ action potential in a sequence. What changes dramatically when myelin is lost is not the speed of individual spikes but the ability of neurons to sustain high firing rates over time.
🪫 We showed this by depleting oligodendrocytes using a well-established pharmacological model. Neurons in the demyelinated cortex showed normal or near-normal latency for single evoked responses. But ask those same neurons to sustain elevated activity for more than 400 milliseconds, and they failed. They fatigued in a way that myelinated neurons did not.
⚡ The mechanism is metabolic. Maintaining myelin is energetically expensive. Evolution does not make that investment without a return. The return is not primarily speed. It is the dramatic reduction in the metabolic cost of sustained firing. By restricting ion exchange to the nodes of Ranvier, myelin reduces the total sodium and potassium flux during an action potential, which reduces the ATP required to restore the ion gradients afterward.
💡 For BCIs, the implication is direct. A device implanted in a region where oligodendrocytes have been injured or depleted is not just recording from neurons in a hostile chemical environment. It is recording from neurons that have lost their metabolic efficiency, neurons that can respond to a brief stimulus but cannot sustain the patterns of activity that make their signals informationally rich. In contrast, reinforcing myelin with genetic manipulation or drugs can help preserve energy efficiency and function.
🖨️ Fixing the recording problem may require fixing the oligodendrocyte problem first.
Review: https://lnkd.in/edpJ2zzy
Oligo: https://lnkd.in/ePXYRr2C
Fatigue: https://lnkd.in/egAwPGv
Network Stability: https://lnkd.in/eFErQ2i9
Drugs: https://lnkd.in/eyNPriA9
#Neuroscience #Myelin #MultipleSclerosis #BrainHealth #NeuralEngineering