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)

An open circuit indirect calorimeter was used to measure resting energy expenditure in febrile infants. Twelve infants admitted to hospital with fever (axillary temperature 37.5 degrees C) were studied on admission and then again at the same time of day and in similar environmental conditions after the fever had resolved. Mean age of the infants was 0.31 years (range 0.12-0.54) and the mean body weight 6.59 kg (range 4.50-8.88 kg). On average the infants' axillary temperatures were +2.1 degrees C higher when they were febrile. Overall the mean difference in oxygen consumption (VO2), carbon dioxide production (VCO2), and resting energy expenditure (REE) between the febrile and afebrile measurements was not statistically significant. Of eight infants with a greater REE when febrile, five were diagnosed as having viral illness and three had bacterial meningitis. Of the four with a lower REE when febrile, two had viral illness and two had bacterial infection (one chest infection and one meningitis). In conclusion, there was no consistent alteration of REE during a fever in infants 1 to 6 months of age. In particular, age and type of infection were not predictors of whether REE would increase or decrease during the illness.
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PMID:Metabolic rate in febrile infants. 878 23

IL-10, a potent immunosuppressive cytokine, leads to macrophage/monocyte deactivation, inhibiting the production of cytokines and the release of reactive oxygen species and reactive nitrogen intermediates, which are known to be involved in the pathophysiology of bacterial meningitis. We investigated the effect of IL-10 on regional cerebral blood flow, intracranial pressure, cerebrospinal fluid (CSF) white blood cell count, and brain water content within 6 h after intracisternal (i.c.) pneumococcal challenge in a rat model of meningitis. Compared with IL-10 vehicle-injected infected rats, i.p. administration of 5 microg of IL-10 significantly attenuated the increase in regional cerebral blood flow, brain water content, intracranial pressure, and CSF white blood cell count, whereas a lower dosage of IL-10 (0.5 microg) was ineffective. The inhibitory effect of IL-10 (5 microg) was observed irrespective of time of IL-10 administration: just before, 1 h after, or 4 h after pneumococcal challenge. In contrast, i.c. application of IL-10 (5 microg) did not modulate these pathophysiologic parameters, and even augmented CSF pleocytosis. Moreover, i.c. injection of IL-10 alone induced meningeal inflammation in uninfected rats. IL-10 injected i.p., but not i.c., markedly inhibited the increase in IL-6 levels, as determined in CSF of infected animals. IL-10 suppressed the increase of nitrite concentration in cell culture supernatant of primary rat cerebral endothelial cells when stimulated with heat-killed pneumococci. The possible modes of action of IL-10 in pneumococcal meningitis may involve its interference with the production of nitric oxide or IL-6.
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PMID:Systemically (but not intrathecally) administered IL-10 attenuates pathophysiologic alterations in experimental pneumococcal meningitis. 894 31

Reactive oxygen intermediates (ROI) contribute to neuronal injury in cerebral ischemia and trauma. In this study we explored the role of ROI in bacterial meningitis. Meningitis caused by group B streptococci in infant rats led to two distinct forms of neuronal injury, areas of necrosis in the cortex and neuronal loss in the dentate gyrus of the hippocampus, the latter showing evidence for apoptosis. Staining of brain sections with diaminobenzidine after perfusion with manganese buffer and measurement of lipid peroxidation products in brain homogenates both provided evidence that meningitis led to the generation of ROI. Treatment with the radical scavenger alpha-phenyl-tert-butyl nitrone (PBN) (100 mg/kg q8h i.p.) beginning at the time of infection completely abolished ROI detection and the increase in lipidperoxidation. Cerebral cortical perfusion was reduced in animals with meningitis to 37.5+/-21.0% of uninfected controls (P < 0.05), and PBN restored cortical perfusion to 72.0+/-8.1% of controls (P < 0.05 vs meningitis). PBN also completely prevented neuronal injury in the cortex and hippocampus, when started at the time of infection (P < 0.02), and significantly reduced both forms of injury, when started 18 h after infection together with antibiotics (P < 0.004 for cortex and P < 0.001 for hippocampus). These data indicate that the generation of ROI is a major contributor to cerebral ischemia and necrotic and apoptotic neuronal injury in this model of neonatal meningitis.
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PMID:Reactive oxygen intermediates contribute to necrotic and apoptotic neuronal injury in an infant rat model of bacterial meningitis due to group B streptococci. 895 28

Recent in-vitro studies have improved our understanding of how bacteria interact with cerebral endothelial cells and cross the blood-brain barrier. Several animal studies using rat and rabbit models of bacterial meningitis have revealed mediators of inflammation that are believed to play a key role in secondary brain damage, including reactive oxygen species, nitric oxide, and excitatory amino acids. Treatment with free-radical scavengers, nitric oxide synthase inhibitors, excitatory amino acid antagonists, as well as the anti-inflammatory cytokine interleukin-10 was beneficial in experimental bacterial meningitis. Apart from dexamethasone these agents hold major promise for the adjunctive therapy of bacterial meningitis in clinical practice.
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PMID:Brain injury in bacterial meningitis: therapeutic implications. 922 35

Fifty years after the advent of antibiotics for clinical use, the rates of morbidity and mortality associated with bacterial meningitis remain high. The unfavourable clinical outcome is often due to intracranial complications including cerebrovascular insults, raised intracranial pressure, hydrocephalus, and brain edema. Reactive oxygen species (ROS) are known effector molecules in the antimicrobial armature of polymorphonuclear and mononuclear phagocytes. However, over the last decade, there has been a substantial body of work implicating a central role of ROS in the development of intracranial complications and brain damage in bacterial meningitis. Recently, it also became evident that reactive nitrogen species (RNS), especially nitric oxide, are important mediators of meningitis-associated pathophysiological changes, at least during the early phase of the disease. There is now substantial evidence that much of the oxidative injury associated by simultaneous production of superoxide and nitric oxide is mediated by the strong oxidant peroxynitrite. ROS and peroxynitrite can be cytotoxic via a number of independent mechanisms. Their cytotoxic effects include initiation of lipid peroxidation and induction of DNA single strand breakage. Damaged DNA activates poly(ADP-ribose) polymerase (PARP). Recent experimental data propose a role of lipid peroxidation and PARP activation in the development of meningitis-associated intracranial complications and brain injury. Agents which interfere with the production of ROS and peroxynitrite, as well as with PARP activation and lipid peroxidation may represent novel, therapeutic strategies to limit meningitis-associated brain damage, and, thus, to improve the outcome of this serious disease.
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PMID:Oxidative stress in bacterial meningitis. 998 52

Animal studies of experimental bacterial meningitis have provided evidence for an involvement of reactive oxygen species (ROS) in the pathophysiology of this disease. Using a lucigenin-enhanced chemiluminescence (CL) method, we tested whether primary rat cerebral endothelial cells can be induced to release ROS upon stimulation with pneumococci. In addition, we determined CSF levels of two markers of lipid peroxidation in patients with bacterial meningitis, compared to patients with viral meningitis and noninflammatory neurological disorders. Malondialdehyde/4-hydroxynonenal concentrations were significantly elevated in CSF samples obtained from patients with bacterial meningitis (23.12+/-5.47 microM), as compared to both control groups (5.43+/-0.18 microM and 7.80+/-0.33 microM, respectively). Cerebromicrovascular endothelial cells, granulocytes, and the macrophage cell line RAW 264.7 (but not astrocytes and neuron-like cells) produced an increase in CL intensity after stimulation with pneumococci. The peak value produced by endothelial cells (500+/-83 cpm) was significantly lower than the maximum CL response in macrophages (1386+/-142 cpm; p<0.05). After addition of superoxide dismutase (SOD), the CL signal returned to baseline values. Equal to the CL technique, nitroblue tetrazolium (NBT) staining of RAW 264.7 showed SOD-inhibitable formazan precipitation when stimulated with pneumococci. In conclusion, this study suggests an important role of endothelial cells in the pathophysiology of bacterial meningitis-namely as a source for ROS production.
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PMID:Superoxide production by primary rat cerebral endothelial cells in response to pneumococci. 1033 17

Bacterial meningitis is fatal in 5% to 40% of patients and causes neurologic sequelae in up to 30% of survivors. Much has been learned recently about the mechanisms that lead to brain injury during meningitis. Once bacteria have gained access to the central nervous system, their multiplication triggers a complex host response consisting of humoral and cellular immune mediators, reactive oxygen intermediates, matrix-metalloproteinases, and other host-derived factors. Alterations of the cerebral vasculature, with disruption of the blood brain barrier and global and focal ischemia, ultimately lead to functional and structural brain damage. This article reviews current concepts of the pathophysiology of bacterial meningitis and emphasizes possible therapeutic strategies to prevent its harmful consequences.
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PMID:Pathogenesis of bacterial meningitis. 1047 May 54

Reactive oxygen intermediates mediate brain injury in bacterial meningitis. Several antioxidant drugs are clinically available, including N-acetylcysteine (NAC), deferoxamine (DFO), and trylizad-mesylate (TLM). The present study evaluated whether these antioxidants are beneficial in a model of pneumococcal meningitis. Eleven-day-old rats were infected intracisternally with Streptococcus pneumoniae and randomized to intraperitoneal treatment every 8 h with NAC (200 mg/kg), DFO (100 mg/kg), TLM (10 mg/kg), or saline (250 microL). TLM-treated animals showed a significantly reduced mortality compared with controls (P<.03). Meningitis led to extensive cortical injury at 22+/-2.2 h after infection (median, 14. 6% of cortex; range, 0-61.1%). Injury was significantly (P<.01) reduced to 1.1% (range, 0-34.6%) by NAC, to 2.3% (range, 0-19.6%) by DFO, and to 0.2% (range, 0-36.9%) by TLM (the difference was not significant among the 3 groups). None of the drugs reduced hippocampal injury. Thus, several clinically used antioxidants reduced cortical injury in experimental pneumococcal meningitis.
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PMID:Effects of clinically used antioxidants in experimental pneumococcal meningitis. 1088 22

Recent major epidemiologic trends in bacterial meningitis include a dramatic decline in the incidence of Haemophilus influenzae meningitis since the introduction of the protein-conjugated H. influenzae vaccines, and a worldwide increase in infections with antibiotic-resistant strains of bacterial pathogens. Cases of meningitis caused by resistant strains require an alternative therapeutic strategy. Animal studies have identified inflammatory mediators, eg, chemokines, excitatory amino acids, and endothelins, which are involved in the pathophysiology of bacterial meningitis. There is increasing evidence that reactive oxygen species (ROS), reactive nitrogen species, peroxynitrite, and matrix metalloproteinases contribute to brain damage during bacterial meningitis. The cytotoxic effects of ROS and peroxynitrite include the initiation of lipid peroxidation and the induction of DNA single-strand breakage. Damaged DNA activates poly(ADP-ribose) polymerase (PARP). Recent experimental data suggest that lipid peroxidation and PARP activation play a role in the development of meningitis-associated intracranial complications and brain injury. Agents that interfere with the production of ROS and peroxynitrite, and interfere with lipid peroxidation and PARP activation, may represent novel, therapeutic strategies by which meningitis-associated brain damage can be limited, therefore improving the outcome of this serious disease.
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PMID:Acute Meningitis. 1109 82

To examine the involvement of reactive oxygen species, we measured the concentration of 8-hydroxy-2'-deoxyguanosine (8-OHdG), a biomarker of oxidative stress, in cerebrospinal fluid samples from 63 children with and without meningitis. We observed that the mean concentration of 8-OHdG in samples obtained during the early phase of bacterial meningitis, but not aseptic meningitis, was significantly higher than that in control samples. Clinical and laboratory improvement was associated with a fall in the 8-OHdG concentration in the patients with bacterial meningitis. Our findings suggest the presence of enhanced oxidative stress in the central nervous system of children with bacterial meningitis.
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PMID:Oxidative stress in childhood meningitis: measurement of 8-hydroxy-2'-deoxyguanosine concentration in cerebrospinal fluid. 1114 4


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