Hebbian Activity-Dependent Plasticity in White Matter

Synaptic plasticity is required for learning and follows Hebb's Rule, the computational principle underpinning associative learning. In recent years, a complementary type of brain plasticity has been identified in myelinated axons, which make up the majority of brain's white matter. Like synaptic plasticity, myelin plasticity is required for learning, but it is unclear whether it is Hebbian or whether it follows different rules. Here, we provide evidence that white matter plasticity operates following Hebb's Rule in humans. Across two experiments, we find that co-stimulating cortical areas to induce Hebbian plasticity leads to relative increases in cortical excitability and associated increases in a myelin marker within the stimulated fiber bundle. We conclude that Hebbian plasticity extends beyond synaptic changes, and can be observed in human white matter fibers.

Keywords: myelin, Brain Plasticity, Brain stimulation, MRI, White Matter, Hebbian Plasticity, Action Reprogramming

Suggested Citation: Suggested Citation

Lazari, Alberto and Salvan, Piergiorgio and Cottaar, Michiel and Papp, Daniel and Rushworth, Matthew and Johansen-Berg, Heidi, Hebbian Activity-Dependent Plasticity in White Matter. Available at SSRN: https://ssrn.com/abstract=3991071 or http://dx.doi.org/10.2139/ssrn.3991071

This version of the paper has not been formally peer reviewed.