AdamsCWM: The general pathology of multiple sclerosis. In: Multiple Sclerosis. HallpikeJFAdamsCWMTourtellotteWW, (Eds), Chapman and Hall, London1983: 203–240.
2.
AdamsCWM: The histochemistry of proteolytic enzymes and lipoproteins in the normal and diseased nervous system. In: Macromolecules and the Function of the neurone. LodinZRoseSP, (Eps). Excerpta Medica, Amsterdam1968: 111–120.
3.
AdamsCWMLeibowitzS: The general pathology of demyelinating diseases. In: Structure and Function of the Nervous Tissue. BourneG, (Ed). Academic Press, New York, 3: 309–382, 1969.
4.
AdamsCWM: The ouset and progression of the lesion in multiple sclerosis. J Neurol Sci, 25: 165–182, 1975.
5.
BromanT: Blood-brain-barrier damage in multiple sclerosis. Supervital test observations. Acta Neurol Scand, 40 (Suppl 10): 21–24, 1964.
6.
BeverlyPCL: Is T cell memory mantained by crossreactive stimulation?Immunology Today, 11: 203–5, 1990.
7.
ChouSM: Acute hemorrhagic leukoencephalitis as a disseminated vasculomyelinopathy. J Neuropathol Exp Neurol, 41: 357, 1982.
GambiDPorriniAM: CD21 + (B2-antigen) cell decrement and CD4+CD29+ (helper inducer) cell increment suggest an activation of cell immune reactivity in multiple sclerosis. J Neuroimmunol, 33: 97–102, 1991.
13.
Gonzales-ScaranoPGrossmanRI: Multiple Sclerosis disease activity correlates with gadolinium-enhanced magnetic resonance imaging. Ann Neurol, 21: 300–306, 1987.
14.
GuseoAJellingerA: The significance of perivascular infiltrations in multiple sclerosis. J Neurol, 211: 51–60, 1975.
15.
HallpikeJFAdamsCWMBaylissOB: Histochemistry of myelin X. Proteolysis of normal myelin and release of lipid by extracts of degenerating nerve. Histochem J, 2: 315–321, 1970.
16.
HerndonRMRubinsteinLJ: Light and electromicroscopic observations on Rosenthal fibres in Alexander's disease and in multiple sclerosis. J Neuropathol Exp Neurol, 29: 524–551, 1970.
LightmanSMcDonaldWI: Retinal venous sheating in optic neuritis: Its significance for the pathogenesis of multiple sclerosis. Brain, 110: 405–414, 1987.
19.
LumsdenCE: The immunogenesis of the multiple sclerosis plaque. Brain Res, 28: 365–390, 1971.
20.
MorimotoCLetvinNL: The isolation and characterization of the human helper inducer T cell subset. J Immunol, 134: 3762, 1985.
21.
MatthewsJB: The immunoglobulin nature of Russell bodies. Brit J Exp Pathol, 64: 331–335, 1983.
22.
PrineasJWKwonEE: Continual breakdown and regeneration of myelin in progressive multiple sclerosis plaques. Ann NY Acad Sci, 436: 11–32, 1984.
23.
PrineasJWWrightRG: Macrophages, lymphocytes and plasma cells in the perivascular compartment in chronic multiple sclerosis. Lab Invent, 38: 409–421, 1978.
24.
RaineCSScheinbergLWatzJM: Multiple Sclerosis. Oligodendrocyte survival and proliferation in an active established lesion. Lab Invest, 45: 534–546, 1981.
25.
RaineCS: Multiple Sclerosis and relapsing EAE. Comparative ultrastructural neuropathology. In: Multiple Sclerosis. HallpikeJFAdamsCWMTourtellotteWW, (Eds). Chapman and Hall, London1983: 413–460.
26.
SandersMEMakgobaMW: Human memory T lymphocytes express increased levels of three cell adhesion molecules (LFA-3, CD2, LFA-1) and three other molecules (UCHL1, CDW29, Pgp-1) and have enhanced IFN production. J Immunol, 140: 1401–1407, 1988.
27.
SimonJHHottasSI: Corpus collosum and subcallosal- periventricular lesions in multiple sclerosis detection with MRI. Radiology, 160: 363–367, 1986.
28.
SimpsonJFToutellotteWWKokmenE: Fluorescent protein tracing in multiple sclerosis brain tissue. Arch Neurol, 20: 373–377, 1969.
29.
StewartJMHouserOW: Magnetic resonance imaging and clinical relationships in multiple sclerosis. Maya Clinic Proc, 62: 174–184, 1987.
30.
TanakaRIwasakiYKoprowskiH: Ultrastructural studies of perivascular cuffing cells in multiple sclerosis brain. Amer J Pathol, 81: 467–478, 1975.
31.
TavolatoB: Immunoglobulin G. distribution in multiple sclerosis brains: An immunofluorescence study. J Neurol Sci, 24: 1–11, 1975.
32.
TraugottUReinherzELRaineCS: Multiple Sclerosis: Distribution of T-cell subsets within active chronic lesions. Science, 219: 308–310, 1983.
