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Protecting axons from degeneration represents a major unmet need in the treatment of myelin disorders and especially the currently untreatable secondary progressive stages of multiple sclerosis (MS). Several lines of evidence indicate that ensuring myelin sheaths are restored to demyelinated axons, the regenerative process of remyelination, represents one of the most effective means of achieving axonal protection. Remyelination can occur as a highly effective spontaneous regenerative process following demyelination. However, for reasons that have not been fully understood, this process is often incomplete or fails in MS. Recognizing the reasons for remyelination failure and hence identifying therapeutic targets will depend on detailed histopathological studies of myelin disorders and a detailed understanding of the molecular mechanisms regulating remyelination. Pathology studies have revealed that …