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)

A middle-aged aboriginal man with a history of alcoholism and gastrectomy was diagnosed as having bacterial meningoencephalitis based on the typical clinical manifestations, laboratory findings, and treatment responses. During the recovery stage, he developed consciousness disturbance, seizures, severe diarrhea, and respiratory failure that led us to search for other possibility of the diagnosis. The eosinophilia and repeated stool examinations helped us to make the diagnosis of disseminated strongyloidiasis. In this patient the initial bacterial meningitis was followed by S. stercoralis hyperinfection. Despite treatment with strong antimicrobial agents, the patient died. This case could serve as a reminder to physicians to be alert for strongyloidiasis superimposed on bacterial meningitis.
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PMID:Fatal meningoencephalitis caused by disseminated strongyloidiasis. 1583 86

Streptococcus pneumoniae is a common cause of bacterial meningitis but only rarely causes other infections such as brain abscess, encephalitis, encephalomyelitis or meningoencephalitis. We report on three adult patients with meningoencephalitis caused by S. pneumoniae. In all three, CT and MRI revealed widespread brain lesions, suggesting extensive parenchymal injury. Diffusion-weighted MRI showed lesions with restricted diffusion, reflecting local areas of ischaemia with cytotoxic oedema secondary to an immunologically mediated necrotising vasculitis and thrombosis. High levels of markers of neuronal, glial and myelin damage were found in the cerebrospinal fluid. According to the literature, brain parenchyma lesions in adults with pneumococcal meningoencephalitis are often associated with death or severe neurological deficit. Our patients were treated with pulse doses of glucocorticoids: this resulted in dramatic clinical improvement and an excellent final neurological recovery.
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PMID:Meningoencephalitis caused by Streptococcus pneumoniae: a diagnostic and therapeutic challenge. Diagnosis with diffusion-weighted MRI leading to treatment with corticosteroids. 1615 6

Central nervous system (CNS) infections are a rare but serious complication of transplantation. An appropriate diagnostic workup should be streamlined with stratification of infection risk by length and degree of immune suppression, lesion localization, and timing. Polymerase chain reaction has high sensitivity and specificity for rapid identification of viral infections and should be used when available. Early diagnosis is imperative, and biopsy should be pursued if a diagnosis is not readily obtained with noninvasive testing. Treatment is pathogen specific. Combination antifungal therapy should be considered for cerebral aspergillosis. Zygomycetes and related invasive fungi require surgical resection and high-dose antifungal therapy. Viral meningoencephalitis therapy should be continued until resolution of clinical signs and symptoms, and viral clearance is verified with repeat cerebrospinal fluid analysis. Cytomegalovirus encephalitis requires ongoing maintenance therapy until clearance of viremia or antigenemia. Bacterial meningitis is uncommon in transplantation and should be treated with 21 days of antibiotics. CNS bacterial abscesses, including nocardiosis, should be surgically drained if feasible and treated until resolution of clinical and radiographic evidence of infection.
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PMID:Central nervous system infections in transplantation. 1656 78

Ibuprofen is a common nonsteroidal antiinflammatory drug that is the most frequent cause of aseptic meningitis induced by drugs. The incidence of this type of aseptic meningitis is increasing, mainly among patients with underlying autoimmune connective tissue disorder, but also among healthy people. We report 2 patients with recurrent meningitis caused by ibuprofen mimicking bacterial meningitis: the first patient a woman with dermatomyositis and the second patient a previously healthy woman who developed autoimmune thyroiditis a few months later. We then review 71 episodes of ibuprofen-related meningitis in 36 patients reported in the literature. Twenty-two patients (61%) presented with an autoimmune connective tissue disorder, mainly systemic lupus erythematosus, and 22 (61%) had recurrent episodes. Most episodes consisted of an acute meningeal syndrome with a predominance of neutrophils in cerebrospinal fluid (CSF) in 72.2% of episodes and elevated protein in the CSF, so the clinical presentation of this type of aseptic meningitis may be quite similar to that of acute bacterial meningitis. CSF glucose levels are usually normal, which may help to differentiate between these 2 types of meningitis. In some cases the clinical presentation is that of meningoencephalitis with neurologic focal deficits. Although based on the close relation between the administration of ibuprofen and the onset of symptoms, especially if previous episodes have occurred, the diagnosis of ibuprofen-induced aseptic meningitis is a diagnosis by exclusion. If the clinical picture is compatible with bacterial meningitis, empirical antibiotic therapy must be administered until negativity of cultures and other microbiologic tests is determined. Rechallenge to ibuprofen reproduces the symptoms and confirms the diagnosis, but is usually not advised. Whatever the clinical presentation, physicians must consider the possibility of ibuprofen-related meningitis or meningoencephalitis in patients taking ibuprofen, especially if they are suffering from an autoimmune connective tissue disorder. On the other hand, we think it would be appropriate to screen for autoimmune disease in previously healthy patients diagnosed with ibuprofen-related meningitis or meningoencephalitis. Finally, we propose that meningitis due to ibuprofen be included in the list of causes of recurrent aseptic meningitis.
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PMID:Characteristics of meningitis caused by Ibuprofen: report of 2 cases with recurrent episodes and review of the literature. 1686 46

Despite the availability of effective antibiotics, mortality and morbidity rates associated with bacterial meningitis are high. Studies in animals have shown that bacterial lysis, induced by treatment with antibiotics, leads to inflammation in the subarachnoid space, which might contribute to an unfavorable outcome. The management of adults with bacterial meningitis can be complex, and common complications include meningoencephalitis, systemic compromise, stroke and raised intracranial pressure. Various adjunctive therapies have been described to improve outcome in such patients, including anti-inflammatory agents, anticoagulant therapies, and strategies to reduce intracranial pressure. Although a recent randomized trial provided evidence in favor of dexamethasone treatment, few randomized clinical studies are available for other adjunctive therapies in adults with bacterial meningitis. This review briefly summarizes the pathogenesis and pathophysiology of bacterial meningitis, and focuses on the evidence for and against use of the available adjunctive therapies in clinical practice.
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PMID:Drug Insight: adjunctive therapies in adults with bacterial meningitis. 1693 15

Mx proteins are a group of interferon-induced GTPases whose expression has been demonstrated in a number of human viral infections and in some idiopathic inflammatory diseases. In this study, the expression of Mx protein was evaluated in known viral, nonviral, and idiopathic encephalitides in the dog via immunohistochemistry using an antibody against human MxA. All 12 cases of confirmed viral encephalitis, including 7 cases of canine distemper, 4 cases of canine herpesvirus, and 1 case of rabies, were Mx positive. In canine distemper cases, staining was particularly strong and a variety of cell types were positive, including astrocytes, macrophages/microglia, and neurons. Immunoreactivity for Mx protein was evident in a few cases of nonviral infectious encephalitis, including neosporosis (1/1), Chagas disease (2/3), aspergillosis (1/2), and encephalitozoonosis (1/1). Consistent staining was observed in most cases of idiopathic encephalitis, including granulomatous meningoencephalomyelitis (7/7), necrotizing meningoencephalitis of pug dogs (6/7), and necrotizing encephalitis of the Yorkshire Terrier (3/3) and Maltese (1/1) breeds. Mx staining was negative in 5 normal dog brains; 3 cases of cryptococcosis; and single cases of blastomycosis, protothecosis, and bacterial meningitis.
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PMID:Immunohistochemical evaluation of mx protein expression in canine encephalitides. 1709 55

Listeria monocytogenes is a common cause of bacterial meningitis in elderly patients and in those with impaired cellular immunity. The most common central nervous system infection caused by L. monocytogenes is acute bacterial meningitis; meningoencephalitis is uncommon and encephalitis is rare. Early diagnosis of L. monocytogenes meningitis is difficult because only 50% of cerebrospinal fluid (CSF) Gram stains are negative. L. monocytogenes is one of the few central nervous system pathogens associated with red blood cells in the CSF. When L. monocytogenes presents as encephalitis with red blood cells in the CSF, the clinical presentation mimics most closely herpes simplex virus (HSV)-1 encephalitis. Because the therapies for L. monocytogenes and HSV-1 are different, early diagnostic differentiation is clinically important. The CSF lactic acid is the best way to rapidly differentiate between these two entities; the CSF lactic acid level is elevated in L. monocytogenes but is not elevated in HSV-1 encephalitis. The case presented is an elderly man with chronic lymphocytic leukemia who presented with encephalitis. Advanced age and chronic lymphocytic leukemia predispose him to a wide variety of pathogens, but the rapidity and severity of his clinical presentation made L. monocytogenes and HSV-1 encephalitis the most likely diagnostic possibilities. The CSF Gram stain was negative, but the elevated CSF lactic acid levels with encephalitis and red blood cells in the CSF indicated L. monocytogenes as the most likely pathogen. We present a case of L. monocytogenes encephalitis mimicking HSV-1 encephalitis. While receiving ampicillin therapy, the patient remained unresponsive for more than 1 week and then suddenly regained consciousness and recovered without neurologic sequelae.
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PMID:Listeria monocytogenes encephalitis mimicking Herpes Simplex virus encephalitis: the differential diagnostic importance of cerebrospinal fluid lactic acid levels. 1750 30

Streptococcus pneumoniae is a common cause of bacterial meningitis, frequently leading to death or severe neurological impairment. We report an exceptional case of a 7-month-old child with meningoencephalitis caused by S. pneumoniae. Peculiar, widespread and unique signal abnormalities were found on magnetic resonance imaging (MRI) with extensive central nervous white matter injury as well as evidence of thrombosis of the lateral transverse sinus. These changes were observed very early in the course of the illness, presumably reflecting widespread cytotoxic edema, vasculitis and acute demyelination. These lesions occurred despite appropriate antibiotic and anti-inflammatory (glucocorticoid) therapy started very early in the course of the disease. Such diffuse white matter lesions in the early course of (pediatric) cases of S. pneumoniae meningoencephalitis have not been reported previously.
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PMID:Streptococcus pneumoniae meningoencephalitis with unusual and widespread white matter lesions. 1788 Dec 67

We report a very unusual case of meningoencephalitis due to Listeria monocytogenes in a 7-month-old immunocompetent boy. Cerebrospinal fluid (CSF) culture was initially negative, but was positive on the seventh day. The disease was complicated by seizures and hydrocephalus managed with temporary ventriculostomy. The infant was discharged without obvious neurological sequelae after 30 days and developed without neurological or developmental sequelae at two years of age. Listeria is difficult to isolate and is not susceptible to third-generation cephalosporins commonly used for the empirical treatment of bacterial meningitis.
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PMID:A case of Listeria meningoencephalitis complicated by hydrocephalus in an immunocompetent infant. 1846 93

Cronobacter sakazakii is an emerging foodborne pathogen that causes severe meningitis and meningoencephalitis in neonates. Currently there is a dearth of information available on the virulence factors of C. sakazakii and the pathogenic mechanisms involved in its neonatal infections. The invasion and translocation of the blood-brain barrier formed by brain microvascular endothelial cells (BMEC) is critical in the pathogenesis of neonatal bacterial meningitis. Because bacterial binding of fibronectin is an initial step in the invasion of BMEC, the role of a major surface-expressed fibronectin-binding protein of C. sakazakii in invasion of BMEC was investigated. Outer membrane protein A was identified as a major fibronectin-binding protein of C. sakazakii, and an isogenic ompA mutant of C. sakazakii exhibited significantly (p < 0.05) attenuated invasion in BMEC compared with the wild-type strain. The findings of this study indicate that outer membrane protein A is one of the determinants that contribute to C. sakazakii invasion of human BMEC in vitro, and may potentially play a role in the pathogenesis of neonatal meningitis caused by this organism.
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PMID:Outer membrane protein A (OmpA) of Cronobacter sakazakii binds fibronectin and contributes to invasion of human brain microvascular endothelial cells. 1941 74


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