Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0014070 (encephalomyelitis)
13,017 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

With modern techniques (membrane marking by indirect immunofluorescence and identification by morphological criteria) Toxoplasma gondii can be reliably identified in the CSF. Identification of the causative agent confirms the diagnosis of toxoplasmosis of the meninges, the central nervous system and the nerve roots. Toxoplasma encephalomyelitis associated with meningoradiculitis has hitherto only rarely been described. Our own cases afford evidence of the fact that even in the most typical cases of multiple sclerosis this possibility must be considered. Fansidar (a combination of an ultralong-acting sulfonamide with pyrimethamine combined with spiramycine is recommended as the treatment of choice.
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PMID:[Cerebrospinal toxoplasmosis: detection, clinical course and therapy]. 33 5

Six cases of post-infectious encephalomyelitis are described. A preceding non-specific viral-like illness occurred 4 to 20 days before the onset of the neurological deficits. The clinical syndromes included transverse myelitis, focal encephalitis and encephalomyelitis (each in one case) and diffuse encephalitis in 3. Magnetic resonance imaging appeared to be the investigation of choice. High dose corticosteroids were given to 4 patients who recovered partially or fully. The patient with focal encephalitis had a spontaneous and complete recovery. The remaining patient with diffuse encephalitis died 3 days after the onset; autopsy showed prominent lymphocytic perivascular cuffing in the white matter and lymphocytic infiltration of the meninges.
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PMID:Postinfectious myelitis, encephalitis and encephalomyelitis. 134 66

We analyzed the effects of myelin basic protein (MBP)-specific encephalitogenic T line cells in neonatal syngeneic recipients before and after formation of central nervous system myelin. Lewis rat pups (postnatal days 0, 1, 2, 4, 8) were injected intraperitoneally with MBP-specific T cell line in doses which cause clinical and histologic changes of experimental autoimmune encephalomyelitis (EAE) in adult rats. We correlated the susceptibility to transferred EAE with the developmental appearance of MBP as demonstrated by immunohistochemical staining. MBP was barely demonstrable until postnatal day 2 but became definitely apparent on postnatal day 4. All newborn rats that were injected on postnatal day 0, 1, 2 failed to develop any apparent clinical signs, but histologically some recipients displayed slight inflammatory cell infiltration of the meninges and subpial lesions limited to the lower spinal cord. In striking contrast, rats that were injected on postnatal day 4 or 8, developed clinical signs and, in particular, many of the older recipients became moribund. Histologically, these animals displayed marked inflammatory cell infiltrations and white matter destruction within the spinal cord. Clinical and histologic severity clearly increased with the recipient's age. Histologically, there were some differences between adult rat EAE and newborn rat EAE. In contrast to adult rat EAE which displayed grey and white matter involvement with marked perivascular mononuclear cell infiltrations, newborn rat EAE typically showed very severe changes with edema formation selectively in the white matter and the cellular infiltrates were dominated by polymorphonuclear cells and macrophages. Newborn T line-mediated EAE thus strikingly resembles hyperacute EAE induced in immunocompromised (irradiated) recipients.
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PMID:Experimental autoimmune encephalomyelitis in the maturing central nervous system. Transfer of myelin basic protein-specific T line lymphocytes to neonatal Lewis rats. 168 8

We report here for the first time the occurrence of apoptosis of cells in the spinal cord in experimental allergic encephalomyelitis (EAE), an autoimmune, T-cell-mediated demyelinating disease. Four different forms of EAE were studied in the Lewis rat: (i) acute EAE induced by inoculation with whole spinal cord and adjuvants; (ii) acute EAE induced by inoculation with myelin basic protein (MBP) and adjuvants; (iii) acute EAE induced by the passive transfer of MBP-sensitized spleen cells; (iv) chronic relapsing EAE induced by inoculation with whole spinal cord and adjuvants followed by treatment with low-dose cyclosporin A. Cells undergoing apoptosis were recognized at light and electron microscopy by the presence of either crescentic masses of condensed chromatin lying against the nuclear envelope or rounded masses of uniformly dense chromatin. They were found in both the white and grey matter of the spinal cord in all 4 forms of this disease. Although it was not possible to identify definitively the types of cells undergoing apoptosis, the size and location of some of the affected cells suggested that they were oligodendrocytes. As there is now a large body of evidence that T-cell-induced target cell death takes the form of apoptosis, it is attractive to hypothesize that oligodendrocyte apoptosis is occurring in EAE as a result of oligodendrocyte-directed T-cell cytotoxicity. However, other apoptotic cells were located within the myelin sheath, meninges and perivascular spaces and were clearly not oligodendrocytes but were most likely blood-derived mononuclear cells. The sparsity of their cytoplasm and the absence of phagocytosed material suggested that they were mainly lymphocytes rather than macrophages. Apoptosis has been shown to be involved in deleting autoreactive T-cells during the normal development of tolerance. Thus apoptotic deletion of myelin/oligodendrocyte-specific lymphocytes in the central nervous system in EAE might explain both the subsidence of inflammation and the acquisition of tolerance in this autoimmune disease.
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PMID:Apoptosis in the nervous system in experimental allergic encephalomyelitis. 171 64

The basic questions in the pathogenesis of inflammation in the nervous system are how inflammatory cells reach the brain, where they recognize their antigen, how the nervous system interacts with local immune regulation in the lesion, and how inflammatory cells induce irreversible tissue damage. These questions have been addressed by studying the pathogenesis of experimental models of encephalomyelitis. The minimal requirement to start brain inflammation is the presence of activated circulating T-cells directed against a brain antigen and of antigen presenting cells in meninges and perivascular spaces of the nervous system. Such a constellation, however, only results in the disease after hypersensitization, i.e. in the presence of very high numbers of circulating autoreactive T-cells. Other local and systemic immunological factors may profoundly lower the threshold for the induction of brain inflammation. They include antigen recognition on cells in the brain parenchyma (microglia, astroglia), local upregulation of MHC antigens and possibly adhesion molecules (by cytokines or as a consequence of brain injury) and the presence of additional humoral immune responses against brain antigens (autoantibodies). Focal production of cytokines by inflammatory cells as well as by resident cells of the brain plays an important role in determining the activity of the inflammatory process and in inducing effector cells and inflammatory mediators, responsible for tissue destruction. Whereas in pure T-cell mediated auto-immune encephalomyelitis these activated effector mechanisms have low selectivity and mainly induce a "bystander" damage of CNS tissue, additional presence of autoantibodies may focus the immune reaction to specific targets, thus inducing, in high sensitivity, very selective tissue destruction. The present experimental data suggest that different immunological pathways may finally lead to quite similar inflammatory demyelinating lesions. Thus, brain lesions in individual multiple sclerosis patients may develop on a quite diverse immunological background.
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PMID:Inflammation in the nervous system. Basic mechanisms and immunological concepts. 178 Jun 6

The presence of a resident T lymphocyte population in the meninges of normal SJL/J mice has been detected by the use of the T cell-specific mitogen concanavalin A. Optimal conditions for [3H]thymidine incorporation were studied. An antigen-specific meningeal T cell proliferative response in SJL/J mice, primed by intracerebral inoculation of Theiler's murine encephalomyelitis virus, was also detected. This response indicated that leptomeningeal mononuclear cell infiltrations are involved in the immune response that triggers the demyelinating disease.
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PMID:Characterization of the specific meningeal T cell response to intracerebral inoculation of Theiler's murine encephalomyelitis virus. 199 52

There is evidence that nervous system mast cells may play a role in the pathogenesis of the experimental autoimmune demyelinating diseases, experimental allergic neuritis (EAN), and experimental allergic encephalomyelitis (EAE). We compared mast cell numbers in the peripheral nervous system (PNS) and central nervous system (CNS) of rodent strains that differed in their susceptibility to experimental demyelination. Mast cells were counted by toluidine blue staining of formalin-fixed tissue. Normal Lewis rats (susceptible to both EAN and EAE) had significantly greater numbers of mast cells in the dura mater (about 6x) of the meninges and the sciatic nerve (3x) than Brown Norway rats (resistant to EAE and EAN induction under normal circumstances). Similarly SJL/J mice (susceptible to EAE and EAN) had significantly greater numbers of CNS (3x) and PNS (8x) mast cells than C3H mice (more resistant to disease induction). Other mouse strains were also examined, and PNS mutant Trembler mice had high numbers of PNS mast cells, while the mast cell deficient W/Wv mice contained no detectable mast cells in either the CNS or PNS. Reconstitution of W/Wv mast cells was accomplished by intravenous injection of bone marrow cells from congenic littermates. After seven months, mast cells could be seen in both the CNS and PNS of reconstituted animals. The possibility that mast cells and mast cell precursors can migrate into the nervous system of animals, in the absence of inflammatory disease, may have implications for their role in the pathogenesis of experimental demyelinating diseases.
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PMID:An analysis of mast cell frequency in the rodent nervous system: numbers vary between different strains and can be reconstituted in mast cell-deficient mice. 202 65

A 27 year old woman developed a cerebellar syndrome with serological evidence of recent Mycoplasma pneumoniae infection. The cranial computed tomographic scan showed effacement of the fourth ventricle, enhancement of the basal meninges and hydrocephalus affecting the lateral and third ventricles. Clinical and radiological recovery occurred over 5 weeks. We propose that this was a manifestation of immune-mediated encephalomyelitis induced by the infection rather than direct invasion of the central nervous system.
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PMID:Cerebellar syndrome with hydrocephalus due to Mycoplasma pneumoniae infection. 221 14

To investigate the sequence of immunopathologic events during lesion formation in acute experimental allergic encephalomyelitis (EAE), SJL/J mice were inoculated with isogeneic spinal cord in complete Freund's adjuvant (CFA) and with Bordetella pertussis on Days 1 and 3 postinoculation (PI). Mice were sampled at different time points PI and T cells, T-cell subsets. Ia+ cells, Ig+ cells, albumin, and Ig deposits were localized in frozen sections by the avidin-biotin complex (ABC) method and direct fluorescence. Furthermore, samples were stained for Ia antigen, myelin basic protein (MBP), and galactocerebroside (GC) localization on endothelial cells by the ABC technique. Clinical and pathologic observations were correlated with the immunopathologic results. It was found that early in the disease process myelin and Ia-antigens were demonstrable on endothelial cells within the central nervous system (CNS). Simultaneously, damage to the blood-brain barrier was apparent, as indicated by albumin deposits, and small numbers of infiltrating T cells, T-cell subsets, and Ia+ cells were found. With time PI, the density of infiltrating total T cells (Thy-1.2+), helper/inducer (Lyt-1+), and suppressor/cytotoxic (Lyt-2+) T cells increased; Lyt-1+ and Lyt-2+ cells were detectable in meningeal as well as parenchymal infiltrates, while later on, Lyt-1+ cells showed some predilection for the CNS parenchyma and Lyt-2+ cells for meninges. Ia+ cells (B cells, macrophages, activated T cells) were present in small numbers only. Ig+ cells (B cells and macrophages) appeared shortly before onset of signs and persisted in moderate numbers. These results reconfirm the importance of early T-cell involvement for the development of EAE; they might also indicate a secondary role for Ig+ cells and are consistent with the concept that presentation of myelin antigens to T cells might occur locally on Ia-bearing endothelial cells within the CNS.
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PMID:Acute experimental allergic encephalomyelitis in the mouse: immunopathology of the developing lesion. 257 95

A 63-year-old man developed bilateral paresis of horizontal and upward eye movements. He was found to have a small oat cell carcinoma of the lung. Four months later he experienced acute visual blurring on the right side. Examination of the right eye at that time revealed a visual acuity of 3/200 and a central scotoma. There was swelling of the right optic disc. Three weeks after the onset of the visual loss, the acuity of the right eye spontaneously improved to 20/60, the field deficit lessened, and there was a decrease in the swelling of the optic disc. Subsequently, his neuro-ophthalmologic condition remained unchanged but his general health deteriorated, and he died nine months after the onset of the disease. Neuropathologic examination showed mild perivascular lymphocytic infiltration and fibrosis of the meninges throughout the central nervous system, loss of neurons and gliosis in the third and fourth cranial nerve nuclei, perivascular inflammation and gliosis of the optic nerves, and chiasm and central demyelination of the right optic nerve. No tumor cells were seen. These findings were consistent with a diagnosis of paraneoplastic optic neuritis and paraneoplastic encephalomyelitis. The present case confirms the existence of paraneoplastic optic neuritis and illustrates the clinical course of the disease.
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PMID:Paraneoplastic optic neuritis and encephalomyelitis. Report of a case. 334 61


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