UMLS:C0085437 - FACTA Search

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

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.
...
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

In this study, adenosine deaminase (ADA) levels of serum and cerebrospinal fluid (CSF) in a total 28 children (13 with bacterial meningitis, 5 with mumps meningoencephalitis and 10 with febrile convulsions) were determined. The comparisons between the serum values were insignificant (p greater than 0.05) but the CSF levels of the children with bacterial meningitis were higher than in the others (p less than 0.05). These findings suggest that serum ADA levels are not important in the diagnosis and differential diagnosis of these diseases. However, ADA levels of CSF may be useful in differentiating between bacterial and viral meningitis.
...
PMID:The value of CSF adenosine deaminase levels in the differential diagnosis of childhood meningitis. 144 Sep 56

During the period April 1985 to November 1986 (18 months), 196 children (of age greater than 1 month) admitted to the Children's Emergency Hospital in Khartoum, Sudan, with clinical suspicion of meningitis/meningoencephalitis were followed up prospectively. Bacterial meningitis was diagnosed by culture, direct microscopy and/or antigen-detecting assays (co-agglutination and enzyme immunoassay) in 44 infants (25 Haemophilus influenzae type b, 8 Neisseria meningitidis, 7 Streptococcus pneumoniae, 3 enterobacteria and one mixed infection), aseptic meningitis in 52, cerebral malaria in 4 and febrile convulsions in 96. The majority of cases of bacterial meningitis were boys and 57% of those in whom H. influenzae was the commonest isolate were less than 1 year old. The presenting signs and symptoms are described as well as the transient and permanent short-term sequelae. The total mortality from bacterial meningitis was 19%, permanent neurological sequelae were seen in 26% of survivors. Prospective follow-up, including audiometry, of 35 children 1-2 months after discharge showed that 11% had hemiplegia and 20% had hearing impairment. The potential impact of vaccination against invasive H. influenzae infections is discussed.
...
PMID:Endemic bacterial meningitis in Sudanese children: aetiology, clinical findings, treatment and short-term outcome. 169 86

We review the 257 patients hospitalized for meningitis in the Cantonal University Hospital, Geneva between 1st January 1980 and 31st December 1986. 104 patients had acute bacterial meningitis (32 Str. pneumoniae, 21 N. meningitidis, 10 Listeria monocytogenes, 8 streptococci, 5 H. influenzae, 5 staphylococci, 4 gram negative bacilli and 19 without identified bacteria), 124 patients had viral meningitis and 29 meningitis of other etiologies (6 tuberculous meningitis, 2 fungal meningitis, 1 leptospiral meningitis, 5 neoplastic meningitis--one already counted because of a meningitis due to Staph. epidermidis--2 meningitis consecutive to a meningeal irritation, 4 already treated meningitis of undetermined etiology, 2 chronic meningitis and 8 meningoencephalitis). The total mortality was 14.4%. It was zero in viral meningitis and 28% in bacterial meningitis (47% in cases of Str. pneumoniae, 5% in cases of N. meningitidis, 20% in cases of Listeria monocytogenes, 38% in cases of streptococci, 0% in cases of H. influenzae, 60% in cases of staphylococci, 50% in cases of gram negative bacilli, 16% in cases of unidentified bacteria). The striking difference in mortality emphasizes the importance of recognizing a bacterial etiology in order to institute antibiotic therapy as soon as possible. The delay between admission and lumbar puncture averaged 15 hours (range 0.25-96 h) in patients with acute bacterial meningitis and 6.3 hours (0.5-80 h) in patients with viral meningitis. The delay between admission and institution of the antibiotics averaged 5.3 hours (1-48 h) in cases of acute bacterial meningitis and 4.8 hours (0.5-48 h) in cases of viral meningitis. A better clinical workup may provide a reliable diagnosis sooner. In the collective with bacterial and viral meningitis headaches, fever or nuchal rigidity were present in over 80% of the cases. The following features were significantly associated with a bacterial etiology: age over 30 years, alcoholism, concomitant neoplasm, cough, coma, pulmonary rales, new neurological signs or petechia. At least one of these 4 latter signs was present in more than 70% of the cases with acute bacterial meningitis compared to 6% in cases of viral meningitis. Thus the clinical presentation alone serves to recognize the meningitis and to differentiate between a bacterial or viral etiology, thus permitting an immediate therapeutic decision without waiting for complementary investigations. The 104 patients with acute bacterial meningitis were treated with antibiotics: 60 with penicillin, 17 with ampicillin and 26 with other antibiotics; one case did not receive antibiotics. More than the half of the cases with viral meningitis have got antibiotics (52%).
...
PMID:[Meningitis in adults in Geneva. Review of 257 cases]. 185 79

The authors report a case of Pasteurella multocida meningoencephalitis in a 5 week-old female infant, with special attention to clinical, laboratory and evolutive features. A moderate neurological sequel was observed at follow-up examinations. A brief review of the importance of P. multocida in human pathology is presented on the basis of the international literature, since the authors did not find any Brazilian reports. The most important feature on P. multocida is the prevalence of bacterial meningitis at the extremes of age. Otherwise, significant mistaken was found between Gram stained smears of body fluids for P. multocida and Haemophilus influenzae or Neisseria meningitidis. Because its role in infections following animal bite or scratch and its opportunistic feature, P. multocida must be included among the possible etiologic agent of bacteremia or sepsis in patients with liver cirrhosis or immunosuppression.
...
PMID:[Meningoencephalitis due to Pasteurella multocida: clinico-laboratory study of a case in an infant]. 263 88

In this study based on 2 personal cases and 23 cases from the literature the main clinical and therapeutic features of meningitis caused by Bacteroides fragilis are reviewed. The disease occurs in either very young or elderly people, with contributing factors in 54% of the cases. Clinically, the infectious syndrome is associated with meningoencephalitis and sometimes motor disorders. Although septicaemia is present in 80% of the cases, the patient's general condition is moderately affected. Blood leucocyte counts are definitely increased and CSF disturbances are those common to all types of bacterial meningitis. The initial focus of infection can be determined in 60% of the cases. The mortality rate is higher in adults than in children. Neurological complications are frequent. Nitro-imidazole derivatives, which are active against Bacteroides fragilis and reach high CSF concentrations, constitute the treatment of choice.
...
PMID:[Bacteroides fragilis meningitis. 2 cases]. 294 12

The authors tested cephalosporin antibiotic of the 3rd generation--Ceftriaxon--in treatment of bacterial meningitis. After studying the infiltration of the antibiotic into the cerebrospinal fluid in 13 patients with parotitic meningoencephalitis, the authors treated 15 patients with bacterial meningitis. Ceftriaxon has been applied in 100 mg/kg in two doses i.v. The research antibiotic levels in cerebrospinal fluid varied from 10 to 30% of sera levels and were much higher than MIC for pathogens isolated from liquor. The treatment effects were very good the dropping of temperature followed on the 3-4 day, the 5-6, day under 100/3. The side effects showed a short time increasing of transaminases and diarrhoea. After completing the treatment normalisation occurred quickly. Other side effects have not occurred. The authors can state, Ceftriaxon in treatment of bacterial meningitis is a highly effective antibiotic.
...
PMID:Ceftriaxon in treatment of bacterial meningitis. 310 83

A prospective study to determine the value of cerebrospinal fluid analysis in the differential diagnosis of meningitis was performed in 710 consecutively observed patients, both children and adults, who underwent lumbar puncture due to suspected central nervous system infection. Diagnoses included acute or presumed bacterial meningitis (n = 79), acute or presumed viral meningoencephalitis (n = 218), acute unclassified meningitis (n = 6), other infections of the central nervous system (n = 37), non-infectious neurological diseases (n = 76) and control patients (n = 294). The sensitivity, specificity and predictive values were determined for cerebrospinal fluid white blood cell count, total protein, lactate, glucose and C-reactive protein levels as well as the blood/cerebrospinal fluid glucose ratio. Determination of cerebrospinal fluid levels of lactate (greater than or equal to 3.5 mmol/l) was found to be superior to the other tests. The C-reactive protein level gave no additional diagnostic information when the lactate level was determined. The white blood cell count, and total protein and glucose levels were often unreliable tools for differential diagnosis, largely due to low sensitivity at realistic discriminatory limits. The study confirms that no cerebrospinal fluid test is fully reliable in distinguishing bacterial meningitis from other forms of meningitis.
...
PMID:Value of cerebrospinal fluid analysis in the differential diagnosis of meningitis: a study in 710 patients with suspected central nervous system infection. 313 38

Over a 5-year period, 8 (4.7%) of the 170 children diagnosed at Milwaukee Children's Hospital as having Hemophilus influenzae type b (HITB) meningitis developed cerebral infarction. Compared with children who did not develop infarcts or with children who developed other neurologic complications, such as subdural effusion, empyema, or meningoencephalitis, these children had significantly higher cerebrospinal fluid (CSF) leukocyte counts on initial lumbar puncture and had a greater likelihood of seizure activity. In seven of eight patients with cerebral infarction, a focal or generalized seizure heralded neurologic findings associated with abnormal radiographic studies. Two of the eight patients died, and two were permanently severely damaged. In the other four patients, there was eventual recovery from gross neurologic deficits. The mortality in patients with HITB meningitis complicated by cerebral infarction (25%) was significantly greater than that in other patients with HITB meningitis (0.6%). The pathophysiology of infarction in patients with bacterial meningitis is uncertain but may in part relate to arteriospasm. Cerebral infarction is a serious, and in the present experience, not uncommon complication of H. influenzae meningitis.
...
PMID:Cerebral infarction in Hemophilus influenzae type B meningitis. 348 26

Central nervous system (CNS) infections in immunocompromised hosts are often accompanied by subtle disorders because immunosuppression usually decreases the inflammatory response. CNS infections in immunocompromised patients are usually caused by organisms different from those found in the general population. The organism causing CNS infection in an immunocompromised host can often be predicted if the type of immune abnormality of the patient is known. The common causes of CNS infection in immunocompromised hosts are reviewed here. Meningitis in patients with neutropenia is usually due to enteric Gram negative bacilli that live in the patient's own digestive tract. Pseudomonas aeruginosa is most common and is followed by E. Coli, Klebsiella, Enterobacter and Proteus. A major risk in patients with abnormal immunoglobulins or splenectomy is infection with encapsulated bacteria, particularly Streptococcus pneumoniae, Haemophilus influenzae and Neisseria meningitidis. Meningitis caused by any of the encapsulated bacteria can be fulminant. Listeria monocytogenes is the most common cause of bacterial meningitis in patients with impaired cellular immunity. Nocardia asteroides is a leading cause of brain abscess in patients with hematologic malignancy. Most patients have evidence of concomitant pulmonary lesions. Fungi are among the most common organisms involving the CNS in immunocompromised hosts. Susceptible patients include those with lymphoma or leukemia and those who receive therapies aimed at suppressing delayed hypersensitivity. Cryptococcus neoformans is a common fungal cause of CNS infection in immunocompromised hosts. The primary site of infection is the lung. Spread to the CNS is via the blood stream. The clinical course is highly variable: meningitis, meningoencephalitis and focal mass lesions. Candida causes meningitis or meningoencephalitis characterized by multiple small abscesses in neutropenic hosts. Organisms reach the CNS via the blood stream usually from the digestive tract or infected intravenous catheters. Aspergillus causes brain abscess, cerebral infarction and focal meningitis in patients with neutropenia. The primary infection is in the lung. The parasites that infest the CNS of immunocompromised patients are usually those that exploit a T-lymphocyte, mononuclear phagocyte host defect. The most common are Toxoplasma gondii and Strongyloides stercoralis. There have been a few cases of amebiasis with dissemination to the brain in patients with hematologic malignancies. Toxoplasma gondii causes major CNS disease in immunocompromised hosts: meningoencephalitis or mass lesions.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:[Infections of the central nervous system in malignant hemopathies]. 372 88

1 2 3 4 5 6 7 8 9 Next >>