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:C0085437 (bacterial meningitis)
4,038 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The increased permeability of the blood-brain barrier during acute inflammation of the central nervous system leads to changes of the cerebrospinal fluid (C.S.F.) protein pattern. Initially, in the cases of bacterial meningitis, cellulos acetate electrophoresis revealed decreased prealbumin, albumin and tau-globulin fraktion whereas alpha- and gamma-globulin fractions were found increased. In later stages of purulent inflammation a hydrocephalus occurred in five children, associated with an increased amount of albumin in the C.S.F. Cases of viral meningoencephalitis had a characteristic decrease of prealbumin and increase of gamma-globulin, the lowered prealbumin values were found more often. In three cases of congenital encephalitis pathological patterns of C.S.F. proteins were still found 1--1 1/2 years postpartum. Children with acute peripheral facial palsy and febrile convulsions had a normal C.S.F. protein profile.
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PMID:The fractionation of cerebrospinal fluid proteins by cellulose acetate electrophoresis in children with infectious diseases of the central nervous system (author's transl). 5 34

The condition of the blood-CSF barrier can be evaluated by the simultaneous quantitation of marker proteins in serum and cerebrospinal fluid. The concentration ratios of albumin and alpha 2-macroglobulin, plotted versus the hydrodynamic radii are used as permeability parameter. There are wide ranging barrier disturbances during the early stages of meningitis. In mumps meningitis only slight disturbances were found, meanwhile in bacterial meningitis the barrier permeability was strongly increased. In both disease groups one may detect secretory fractions of both immunglobulins G and A. In some cases of mumps meningitis a prolonged humoral immune reaction was found.
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PMID:[Blood-cerebrospinal fluid barrier and the local immune response in the course of meningitis in childhood]. 9 99

Lysozyme activity was measured in cerebrospinal fluid (CSF) from 114 patients with inflammatory (bacterial and serous meningitis, polyradiculitis, encephalitis) and non-inflammatory (multiple sclerosis, CNS tumors, cerebral vascular diseases) CNS diseases. Highly elevated values were found consistently in patients with bacterial meningitis. Elevated values were found also in patients with encephalitis, polyradiculitis, multiple sclerosis and CNS tumors, but a considerable overlapping between these groups and normal controls precludes the use of CSF lysozyme measurements as a diagnostic aid in the latter disease groups. Simultaneous measurements of lysozyme, albumin and IgG in CSF and serum suggested that the mechanism for increased CSF lysozyme values in bacterial meningitis is mainly a breakdown of the blood/brain barrier, whereas the increased CSF lysozyme values in the remaining groups of patients are more likely caused by production of lysozyme by cells within the meninges (neutrophilic granulocytes, monocytes?).
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PMID:Lysozyme activity in cerebrospinal fluid. Studies in inflammatory and non-inflammatory CNS disorders. 85 79

In an attempt to understand the role of TNF in the central nervous system (CNS) pathophysiologic events associated with bacterial meningitis, we examined the effect of intravenous vs. intracisternal administration of TNF alpha on penetration of circulating 125I-labeled albumin into cerebrospinal fluid (CSF) and CSF white blood cell (WBC) counts in rats. Intracisternal administration of tumor necrosis factor alpha (TNF-alpha) resulted in dose- and time-dependent alterations of the CSF penetration and CSF WBCs, while intravenous administration of TNF-alpha did not induce any changes. These changes by intracisternal TNF were abolished by heat treatment of TNF or coadministration of MAb to TNF-alpha. Mab to TNF-alpha also significantly reduced the CSF penetration of circulating albumin in experimental hematogenous Haemophilus influenzae type b meningitis in infant rats but this salutary effect required both intravenous and intracisternal administration. However, MAb to TNF-alpha failed to affect CSF pleocytosis in experimental hematogenous meningitis. These findings suggest that some of CNS pathophysiologic changes in bacterial meningitis may be a result of the local production of TNF but other host inflammatory responses may also participate in CNS inflammation in hematogenous bacterial meningitis.
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PMID:Modulation of blood-brain barrier permeability by tumor necrosis factor and antibody to tumor necrosis factor in the rat. 147 82

Brain damage after meningeal infection could result from impairment of cerebral endothelial cell functions and disruption of blood-brain barriers. Tumor necrosis factor-alpha (TNF alpha) and interleukin-1 beta (IL-1 beta) produce many of their effects by acting on endothelial cells. This study correlates levels of TNF alpha and IL-1 beta in paired cerebrospinal fluid (CSF) and serum samples with the degree of blood-brain barrier damage, as manifested by CSF to serum albumin quotient, in 48 patients with bacterial meningitis and 66 controls. CSF levels of TNF alpha and IL-1 beta in bacterial meningitis were significantly higher than in controls. Intrathecal levels of TNF alpha, but not IL-1 beta, correlated with albumin quotient (P less than .001), with degree of blood-brain barrier disruption (P less than .001), and with disease severity and indices of meningeal inflammation. Sequential CSF samples demonstrated that IL-1 beta and TNF alpha disappear from the CSF within 24 h of antibiotic treatment. Data presented here suggest that TNF alpha is related to blood-brain barrier damage in bacterial meningitis and that its effect could be dissociated from that of IL-1 beta.
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PMID:Blood-brain barrier damage in patients with bacterial meningitis: association with tumor necrosis factor-alpha but not interleukin-1 beta. 163 6

Injury to the blood brain barrier (BBB) is a fundamental sequela of bacterial meningitis, yet the precise mechanism facilitating exudation of albumin across the endothelium of the cerebral microvasculature remains conjectural. After intracisternal inoculation of Escherichia coli (0111:B4) lipopolysaccharide in rats to elicit a reversible meningitis and BBB injury, we utilized in situ tracer perfusion and immunolabeling procedures to identify by transmission electron microscopy the precise topography and microvascular exit pathway(s) of bovine serum albumin (BSA). Results revealed that during meningitis there was: (a) an inducible increase in immunodetectable monomeric BSA binding to the luminal membrane of all microvascular segments in the pia-arachnoid and superficial brain cortex; (b) similar uptake of both colloidal Au-BSA (as well as monomeric BSA) by plasmalemmal vesicles but no detectable transcytosis to the abluminal side; and (c) predominant exit of both perfused Au-BSA and immunodetectable monomeric BSA through open intercellular junctions of venules in the pia-arachnoid. This was corroborated in separate experiments documenting focal pial venular leaks of in situ perfused 0.01% colloidal carbon black during experimental meningitis. These results provide precise localization of BBB injury in meningitis to meningeal venules, confirm a paracellular exit pathway of albumin via open intercellular junctions, and suggest an injury mechanism amenable to specific therapeutic intervention.
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PMID:Ultrastructural localization of albumin transport across the cerebral microvasculature during experimental meningitis in the rat. 187 66

The cerebral capillary endothelium is unique and functions as an effective blood-brain barrier (BBB) owing to its intercellular tight junctions and rare pinocytotic vesicles. To assess how bacterial meningitis alters the BBB, rats were inoculated intracisternally with three encapsulated meningeal pathogens (Escherichia coli K1+, Streptococcus pneumoniae type III, Haemophilus influenzae type b) and an unencapsulated mutant strain (H. influenzae Rd). After defined infection durations, the morphologic alterations of the cerebral capillary endothelium were quantitatively assessed by transmission electron microscopy. Results revealed a significant increase in pinocytotic vesicle formation (P less than 0.001) early after meningitis induction (4 h) that was sustained with longer infection durations (10 h, 18 h) for all encapsulated strains tested. In addition, there was a progressive increase in completely separated intercellular junctions with increasing infection duration, (P less than 0.05). 4 h after induction of meningitis with H. influenzae Rd, cerebrospinal fluid (CSF) bacterial concentrations, cerebral capillary morphologic changes, and functional BBB permeability to circulating 125I-albumin were similar to those observed with H. influenzae type b. However, prolonging the H. influenzae Rd infection to 18 h allowed for CSF clearance of the organism, thereby precluding the significant increase in separated junctions or progression of functional BBB permeability seen with the encapsulated H. influenzae type b. These data suggest a uniform morphologic explanation for altered BBB permeability in meningitis with a reproducible temporal sequence. Encapsulation does not appear essential for BBB injury, but may facilitate its progression by allowing the organism to evade host clearance.
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PMID:Morphologic alterations of the blood-brain barrier with experimental meningitis in the rat. Temporal sequence and role of encapsulation. 351 71

We measured levels of C-reactive protein (CRP) in the cerebrospinal fluid in 145 children, using a solid-phase radioimmunoassay. The CRP levels in 49 patients with culture-proved bacterial meningitis ranged from 0 to 51,000 ng/ml (median 1460 ng/ml). In 33 patients with aseptic meningitis, values were much lower range 0 to 438 ng/ml; (median 17 ng/ml). In patients with CSF pleocytosis (greater than 10 WBC/microliter), CRP greater than 100 ng/ml was 95% accurate in identifying those with bacterial meningitis. However, a few patients with bacterial meningitis and little or no CSF pleocytosis had low levels of CRP at admission. Among the 63 patients with nonmeningitic conditions, those with bacterial infections frequently (10 of 13 had CRP greater than 100 ng/ml, whereas CRP elevations were infrequent (seven (18%) of 40) in patients with viral infections and other conditions. CRP diffuses into the CSF as readily as other proteins, but in bacterial meningitis the CSF/serum ratio of CRP was lower than that of albumin and IgG. The measurement of CRP in CSF is potentially a very useful diagnostic tool, but certain inherent limitations must be recognized, because some patients may fail to mount a prompt inflammatory response.
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PMID:Quantitative levels of C-reactive protein in cerebrospinal fluid in patients with bacterial meningitis and other conditions. 370 10

The concentration of alpha 1-microglobulin (alpha 1-m) in sera and cerebrospinal fluids (CSF) was measured in 121 patients with various neurological disorders. Using single radial immunodiffusion, its serum level was determined. No significant difference was found between the patients (29.1 +/- 4.3 mg/l; mean +/- 1 SD) and normal control group (23.7 +/- 4.6 mg/l). The level of CSF alpha 1-m was determined by the radioimmunoassay of solid antibody system. Its CSF level in the control group was 34.8 +/- 16.0 micrograms/l, while it was significantly increased in the patients with viral meningitis (p less than 0.01) and cerebral infarct (p less than 0.05). The level was also elevated in some cases of brain tumor, bacterial meningitis, cerebral hemorrhage, cervical spondylosis, and acute lymphocytic leukemia. There was a positive correlation between alpha 1-m and albumin levels in CSF. The analysis by CSF/serum albumin ratio and alpha 1-m ratio suggested that the increase of alpha 1-m in CSF could be explained mainly by an increase in permeability of the serum alpha 1-m through damaged blood brain barrier under these pathological conditions. Its local production within the central nervous system, however, could not be ruled out in these disorders.
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PMID:Human alpha 1-microglobulin levels in neurological disorders. 618 15

The three main immunoglobulin classes obey the basic principles of passive protein transfer at the blood-CSF barrier and the serum-derived portions could therefore be quantified with the help of the permeability marker albumin. The Ig fractions secreted into the CSF by sessile plasma cell clones have been determined in various inflammatory diseases of the central nervous system. The humoral immune response in multiple sclerosis and chronic encephalitis of unknown cause was dominated by IgG antibodies. In most other inflammatory diseases IgA and IgM were concomitantly synthesized, e.g. in neurosyphilis and meningoencephalitis caused by viruses of the herpes group. In tick-borne meningopolyneuritis Bannwarth, only IgM and in bacterial meningitis only IgA may be produced locally. The detection of a secretory immunoglobulin fraction in the CSF may be the sole laboratory parameter in chronic inflammatory processes of the nervous system.
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PMID:Differentiation of the humoral immune response in inflammatory diseases of the central nervous system. 618 10


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