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Target Concepts:
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Query: UMLS:C0014070 (
encephalomyelitis
)
13,017
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lyme borreliosis is a multisystem disorder common in childhood. It is an acute and persistent anthropozoonotic infection caused by the spirochete Borrelia burgdorferi (Bb) which is transmitted by Ixodes ticks. After the tick bite in summer, erythema migrans, meningoradiculoneuritis, or carditis may develop within the same season. Later manifestations may be oligo-arthritis, progressive
encephalomyelitis
, or acrodermatitis chronica atrophicans. The most common course is probably asymptomatic. Connatal infection is possible. Diagnosis is established mainly by history and clinical manifestations. The antibody response to Bb can be measured in serum and cerebrospinal fluid. Tests may be false-negative early in the course of the disease or after early treatment. False-positive results may be caused by cross-reactions. Interpretation of test results must also consider unrelated anamnestic titres or asymptomatic infection. Treatment with appropriate antibiotics cures the disease in most patients, however some patients may not respond. The optimal drug has not yet been found.
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prophylaxis is by early removal of the tick from the skin.
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PMID:Childhood Lyme borreliosis in Europe. 222 64
A direct fluorescent antibody test was applied to the diagnosis of avian encephalomyeltis in experimental chicks and in chicks from three natural outbreaks of the disease. Intracerebrally inoculated chicks exhibited maximum fluorescence in brain tissue during the early clinical stages of the disease and similar observations were made on natural cases.
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fluorescence was obtained with frozen sections of cerebellum and pancreas from chicks approximately three weeks of age, but after four weeks of age it was not possible to diagnose the naturally-occurring (field) disease by this method. In these cases a diagnosis of avian
encephalomyelitis
was confirmed by the application of the fluorescent technique to the brains of either (a) chicks which had hatched from eggs inoculated with brain homogenates from the field cases or (b) hatched chicks which had been inoculated with the homogenates by the intracerebral route.
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PMID:Application of the fluorescent antibody technique to the diagnosis of avian encephalomyelitis. 435 72
The distal part of the human dystrophin gene is characterised by particular features and seems to play an important functional role. Additionally in recent years several data have implicated minor mutations in this gene region in some patients with mental retardation (MR). In order to screen for pathogenic mutations at the distal part of the human dystrophin gene we have used single-strand conformation analysis of products amplified by polymerase chain reaction (PCR-SSCA) in 35 unrelated male Greek DMD/
BMD
patients with no detectable deletions. Seven patients also had severe mental retardation. Direct sequencing of samples demonstrating a shift of SSCA mobility revealed six different and pathogenic minor changes, five in DMD and one in a
BMD
patient. Four of the mutations were found in DMD patients with severe MR. Three of these mutations were localised in exon 66, which presents an interesting similarity with part of the 3' end of the genome of eastern equine
encephalomyelitis
virus (EEEV). The present data from Greek DMD/
BMD
patients give further information about the phenotypic effects consequent on mutations in exons at the distal part of the human dystrophin gene.
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PMID:Screening for minor changes in the distal part of the human dystrophin gene in Greek DMD/BMD patients. 1019 1
The clinical use of autologous stem cell transplants for the treatment of refractory severe autoimmune diseases was preceded by convincing proof of its underlying principle in animal models. The various categories of experimental autoimmune disease in laboratory rodents are briefly described here, and the rationale that was used in the selection of suitable experimental autoimmune diseases for translational research is explained. The two models that provided the bulk of the data needed for designing the initial clinical treatment protocols were adjuvant arthritis (AA) and experimental allergic
encephalomyelitis
(EAE), which were both induced in Buffalo rats. In this strain, AA is manifested as a chronic, progressive, systemic polyarthritis and EAE as a chronic, remitting/relapsing form of
encephalomyelitis
resembling multiple sclerosis. Both diseases can be cured with autologous stem cell transplantation provided that adequate conditioning is given and that the disease has not yet progressed to the stage of 'scarring'. It is basically the inflammatory stages that respond well to this therapy. The success of treatment depends on how completely the autoantigen-specific activated T-lymphocytes and memory cells are eradicated. Because of a lack of information on the nature of the autoantigens involved in human disease and on the size of those cell populations in the animal models as well as in humans, this aspect of translation is difficult. The experiments have, however, provided important guidelines. High-dose conditioning regimens yield better results than low-dose conditioning, certain conditioning agents perform better than others, and care should be taken not to reintroduce too many T-cells with the autologous graft. The clinical results obtained so far indicate a high predictive power of these two animal models, which are therefore recommended strongly for additional preclinical studies.
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Pract Res Clin Haematol 2004 Jun
PMID:Stem cell transplantation for autoimmune disorders. Preclinical experiments. 1530 35
Bone marrow (BM) derived mesenchymal stem cells (MSC) differentiate into cells of the mesodermal lineage but also, under certain experimental circumstances, into cells of the neuronal and glial lineage. Their therapeutic translation has been significantly boosted by the demonstration that MSC display significant also anti-proliferative, anti-inflammatory and anti-apoptotic features. These properties have been exploited in the effective treatment of experimental autoimmune
encephalomyelitis
(EAE), an animal model of multiple sclerosis where the inhibition of the autoimmune response resulted in a significant neuroprotection. A significant rescue of neural cells has been achieved also when MSC were administered in experimental brain ischemia and in animals undergoing brain or spinal cord injury. In these experimental conditions BM-MSC therapeutic effects are likely to depend on paracrine mechanisms mediated by the release of growth factors, anti-apoptotic molecules and anti-inflammatory cytokines creating a favorable environment for the regeneration of neurons, remyelination and improvement of cerebral flow. For potential clinical application BM-MSC offer significant practical advantages over other types of stem cells since they can be obtained from the adult BM and can be easily cultured and expanded in vitro under GMP conditions displaying a very low risk of malignant transformation. This review discusses the targets and mechanisms of BM-MSC mediated neuroprotection.
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Pract Res Clin Haematol 2011 Mar
PMID:Neuroprotective features of mesenchymal stem cells. 2139 93
Brain imaging characteristics of MOG antibody disease are largely unknown and it is unclear whether they differ from those of multiple sclerosis and AQP4 antibody disease. The aim of this study was to identify brain imaging discriminators between those three inflammatory central nervous system diseases in adults and children to support diagnostic decisions, drive antibody testing and generate disease mechanism hypotheses. Clinical brain scans of 83 patients with brain lesions (67 in the training and 16 in the validation cohort, 65 adults and 18 children) with MOG antibody (n = 26), AQP4 antibody disease (n = 26) and multiple sclerosis (n = 31) recruited from Oxford neuromyelitis optica and multiple sclerosis clinical services were retrospectively and anonymously scored on a set of 29 predefined magnetic resonance imaging features by two independent raters. Principal component analysis was used to perform an overview of patients without a priori knowledge of the diagnosis. Orthogonal partial least squares discriminant analysis was used to build models separating diagnostic groups and identify best classifiers, which were then tested on an independent cohort set. Adults and children with MOG antibody disease frequently had fluffy brainstem lesions, often located in pons and/or adjacent to fourth ventricle. Children across all conditions showed more frequent bilateral, large, brainstem and deep grey matter lesions. MOG antibody disease spontaneously separated from multiple sclerosis but overlapped with AQP4 antibody disease. Multiple sclerosis was discriminated from MOG antibody disease and from AQP4 antibody disease with high predictive values, while MOG antibody disease could not be accurately discriminated from AQP4 antibody disease.
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classifiers between MOG antibody disease and multiple sclerosis were similar in adults and children, and included ovoid lesions adjacent to the body of lateral ventricles, Dawson's fingers, T1 hypointense lesions (multiple sclerosis), fluffy lesions and three lesions or less (MOG antibody). In the validation cohort patients with antibody-mediated conditions were differentiated from multiple sclerosis with high accuracy. Both antibody-mediated conditions can be clearly separated from multiple sclerosis on conventional brain imaging, both in adults and children. The overlap between MOG antibody oligodendrocytopathy and AQP4 antibody astrocytopathy suggests that the primary immune target is not the main substrate for brain lesion characteristics. This is also supported by the clear distinction between multiple sclerosis and MOG antibody disease both considered primary demyelinating conditions. We identify discriminatory features, which may be useful in classifying atypical multiple sclerosis, seronegative neuromyelitis optica spectrum disorders and relapsing acute disseminated
encephalomyelitis
, and characterizing cohorts for antibody discovery.
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PMID:Distinct brain imaging characteristics of autoantibody-mediated CNS conditions and multiple sclerosis. 2836 48
