University of Cambridge: Lab-grown brain-spinal cord model shows ‘irreversible’ nerve damage may be reversed

Cambridge scientists have grown miniature circuits in the lab that mimic how the brain and spinal cord connect up, which underlies our movements. They used this model to show how damage to these connections previously considered ‘irreversible’ could, in fact, be reversible.

As we develop and grow from embryo to fetus to infant, our nerve cells (neurons) form connections, allowing information to be transmitted between the brain and the spinal cord. A key component of each neuron is the axon – the nerve fibre ‘cable’ that transmits information to other neurons to activate muscle contractions.

At some point, we lose the ability to grow axons in the central nervous system, or this ability is at least greatly impaired or slowed down. This means that damage to the brain and spinal cord becomes permanent, leading to devastating disabilities, such as the inability to grasp or walk. This is often the case for traumatic spinal cord injury and can be a feature of many neurological diseases, including motor neurone disease or multiple sclerosis.

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