Blakemore WF , Palmer AC & Noel Prb.Ultrastructural changes in isoniazid-induced brain oedema in the dog. Journal of Neurocytology1972; 1: 263-78.
2.
Blakemore WFObservations on oligodendrocyte degeneration, the resolution of status spongiosus and remyelination in cuprizone intoxication in mice. Journal of Neurocytology1972; 1: 413-26.
3.
Blakemore WFRemyelination of the superior cerebellar peduncle in the mouse following demyelination induced by feeding cuprizone. Journal of Neurological Sciences1973; 20: 73-83.
4.
Ludwin SKCentral nervous system demyelination and remyelination in the mouse: an ultrastructural study of cuprizone toxicity. Laboratory Investigation1978; 39: 597-612.
5.
Blakemore WFPattern of remyelination in the CNS. Nature1974; 249: 577-8.
6.
Blakemore WF & Murray JAQuantitative examination of internodal length of remyelinated nerve fibres in the central nervous system. Journal of Neurological Sciences1981; 49: 273-84.
7.
Smith KJ, Blakemore WF, Murray JA & Patterson RCInternodal myelin volume and axon surface area: a relationship determining myelin thickness. Journal of Neurological Sciences1982; 55: 231-46.
8.
Ludwin SKAn autoradiographic study of cell proliferation in remyelination of the central nervous system. American Journal of Pathology1979; 95: 683-96.
9.
Raff M., Miller RH & Noble M.A glial progenitor cell that develops in vitro into an astrocyte or oligodendrocyte depending on the culture medium. Nature1983 ; 303: 390-6.
10.
Small RK, Riddle P. & Noble M.Evidence for migration of oligodendrocyte-type 2 astrocyte progenitor cells into the developing rat optic nerve. Nature1987; 328: 155-7.
11.
Raff MC, Lillien LE, Richardson WD, Burne JF & Noble MDPlatelet-derived growth factor from astrocytes drives the clock that times oligodendrocyte development in culture. Nature1988; 333: 562-5.
12.
Griffin JW, Drucker N., Gold BG et al. Schwann cell proliferation and migration during paranodal demyelination . Journal of Neuroscience1987; 7: 682-99.
13.
Blakemore WFLimited remyelination of CNS axons by Schwann cells transplanted into the sub-arachnoid space. Journal of Neurological Sciences1984; 64: 265-76.
14.
Gumpel M., Baumann N., Raoul M. & Jacque C.Survival and differentiation of oligodendrocytes from neural tissue transplanted into new-born mouse brain. Neuroscience Letters1983; 37: 307-11.
15.
Gout O., Gansmuller A., Baumann N. & Gumpel M.Remyelination by transplanted oligodendrocytes of a demyelinated lesion in the spinal cord of the adult shiverer mouse. Neuroscience Letters1988; 87: 195-9.
16.
O'Sullivan BM & Blakemore WFAcute nicotinamide deficiency in the pig induced by 6-aminonicotinamide. VeterinaryPathology1980; 17: 748-58.
17.
Blakemore WFRemyelination by Schwann cells of axons demyelinated by intraspinal injections of 6-aminonicotinamide in the rat. Journal of Neurocytology1975; 4: 745-57.
18.
Blakemore WFRemyelination in the CNS. In: Progress in Neurological Research , eds PO Behan & F Clifford Rose; pp. 12-25. Bath: Pittman, 1979.
19.
Blakemore WF , Crang AJ & Curtis R.The interaction of Schwann cells with CNS axons in regions containing normal astrocytes. Acta Neuropathologica1986; 71: 295-300.
20.
Blakemore WFEthidium bromide induced demyelination in the spinal cord of the cat. Neuropathology and Applied Neurobiology1982; 8: 365-75
21.
Graca DL & Blakemore WFDelayed remyelination in rat spinal cord following ethidium bromide injection . Neuropathology and Applied Neurobiology1986; 12: 593-605.
22.
Blakemore WF & Crang AJThe use of cultured autologous Schwann cells to remyelinate areas of persistent demyelination in the central nervous system . Journal of Neurological Sciences1985; 70: 207-23.
