Central remyelination restores secure conduction (original) (raw)
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- Published: 01 August 1979
Nature volume 280, pages 395–396 (1979)Cite this article
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Abstract
ONE of the outstanding characteristics of multiple sclerosis and other clinical and experimental diseases associated with demyelination, is the tendency to remit. Although there is good evidence that an important cause of functional loss in such conditions is conduction block produced by the selective destruction of the myelin sheath1, the mechanisms underlying remission are unknown2. It has long been recognised that in certain experimental lesions demyelinated central axons can be remyelinated by the normal myelin-forming cell, the oligodendrocyte3. The new sheaths are, however, abnormally thin and short and it is not known whether they are capable of restoring conduction. A previous investigation was inconclusive4. Because of the physiological and clinical importance of this problem, we have now examined conduction serially through the lesion induced by the direct microinjection of lysophosphatidyl choline (LPC) into the cat spinal cord5. This lesion has the advantage that the phases of active demyelination and remyelination are well separated, thus permitting a reasonable correlation of the morphological with the physiological changes. We have found that secure conduction is restored with remyelination.
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Authors and Affiliations
- Institute of Neurology, The National Hospital, Queen Square, London, WCI, UK
K. J. SMITH & W. I. MCDONALD - Department of Clinical Veterinary Medicine, Cambridge, UK
W. F. BLAKEMORE
Authors
- K. J. SMITH
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SMITH, K., BLAKEMORE, W. & MCDONALD, W. Central remyelination restores secure conduction.Nature 280, 395–396 (1979). https://doi.org/10.1038/280395a0
- Received: 23 March 1979
- Accepted: 26 June 1979
- Published: 01 August 1979
- Issue Date: 02 August 1979
- DOI: https://doi.org/10.1038/280395a0