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)

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%).
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PMID:[Meningitis in adults in Geneva. Review of 257 cases]. 185 79

Inpatient and community-based care can be complementary in relation to the management of HIV disease. Medical records from 200 inpatients of Chikankata Hospital near Lusaka, Zambia and 200 home based patients were examined and compared for the common symptoms of presentation of HIV disease, associated opportunistic infections, and treatment protocols. Drug costs of both groups were also compared. The most common respiratory symptoms in the 2 groups are cough, chest pains, weight loss, and hemoptysis. Treatment employed for these symptoms were cortimoxazole, penicillin V, erthromycin, and tetracycline. Acetyl saliclic acid and paracetamol were used for pain relief in both groups. Gastointestinal system symptoms for both groups were diarrhea, weight loss, abdominal pain, and vomiting. Cotrimoxazole and metronidazole were used in treating diarrhea. Additional treatment protocol for the 2 patient samples included oral rehydration therapy for dehydration, antacid or bismuth subsalicylate for diarrhea and enteritis, and mycostatin for oral candidiasis. Central nervous system symptomatology included headache, dementia, neckace, and lethargy. Chloramphenicol was employed in treating bacterial meningitis. Diazepam and chlorpromazine were effective for restless patients. Genito-urinary system symptomatology for the 2 groups included dysuria, genital ulcers, hematuria, viral warts, and buboes. Antibodies were used for sexually transmitted diseases and infections. Skin symptomatology included rash and dermatitis, herpes zoster, abscess, kaposi's sarcoma, ulcers, furunculosis, and discharging anal sinus. In treating these symptoms, hospital based care and home based care were similar. Overall, it was found that hospital treatment protocols were detailed, expensive, and time consuming. Furthermore, hospital treatment for HIV positive patients is more expensive than HIV negative patients; hospital costs for 50 HIV negative patients totaled US$415.94 compared to US$1204.98 HIV positive/PTB negative patients and US$1705.62 for HIV positive/PTB positive patients. Drug cost/patient admission is increased by 469% if HIV positive. (author's modified).
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PMID:Clinical care as part of integrated AIDS management in a Zambian rural community. 248 94

Pharmacokinetics of cefoxitin, a new injectable semisynthetic-cephamycin, was studied in 12 healthy children and also was studied cerebrospinal fluid levels in 1 patient with bacterial meningitis received 44.5 mg/kg of cefoxitin and thoracic fluid levels in 2 patients were measured. Cefoxitin was administered intravenously to 50 patients with various types of infections an average dose of 130 mg/kg/day for an average of 9 days. The results were as follows: 1. Favorable plasma levels were obtained comparing with those off conventional injectable cephalosporins after 15 mg/kg and 25 mg/kg of cefoxitin for one shot intravenous injection. The half lives of cefoxitin in the plasma were about 15.9 minutes up to 1 hour and 25.5 minutes up to 2 hours after an intravenous administration of cefoxitin at a dose of 15 mg/kg, and while, those were 15.9 minutes and 27.5 minutes after an intravenous administration of cefoxitin at a dose of 25 mg/kg, respectively. 2. Cefoxitin was excreted with high concentration up to 2 hours after the administration and thereafter, urinary concentration of cefoxitin declined rapidly with the lapse of time. The time course urinary concentration reflected those of plasma levels. Approximately 94.7% and 90.6% of dosed cefoxitin were recovered in the urine for 6 hours after the administration at the dose of 15 mg/kg and 25 mg/kg, respectively. 3. The cerebrospinal fluid levels of cefoxitin were only determined in a patient of bacterial meningitis. Therefore, further study should be performed. 4. The thoracic fluid levels with 2 patients were higher than cerebrospinal fluid levels. 5. Among the 50 patients with various infections, cefoxitin was clinically effective in 84% and bacterial response in 87%. 6. As adverse reactions, in total 79 patients included exclusive 29 patients, diarrhea occurred in 1 patient, sweating and cough in 1 patient, rash with fever in 4 patients, vascular pain in 2 patients, and leukopenia was observed in 1 patient, eosinophilia in 1 patient, and increase of GOT and LDH were observed in each 2 patients. The other adverse reactions were not experienced.
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PMID:[Laboratory and clinical evaluation of cefoxitin in children (author's transl)]. 728 31

Sudden, explosive headache is rather rare. Though dramatic for the patient and the physician, it does not necessarily herald an intracranial catastrophe. Benign and dangerous thunderclap headaches cannot be distinguished from the features of headache itself, but rather on the basis of the situation, the additional symptoms and the findings. This means that every sudden headache should be considered potentially dangerous and be investigated immediately. The dangerous forms comprise intermittent hydrocephalus, acute bacterial meningitis and above all vascular complications. Subarachnoid hemorrhage frequently must be ruled out by computed tomography and lumbar puncture. Intracerebral, especially cerebellar hemorrhage, as well as hypertensive crisis require immediate treatment. Fatal cerebral embolism complicating spontaneous dissection of craniocervical arteries (carotid or vertebral arteries) can be prevented by early anticoagulant therapy. To confirm diagnosis, additional investigations such as CT, lumbar puncture or cerebrovascular ultrasound, and in rare cases MRI, should be performed early as the available time for effective therapy in many situations is short. Many of the benign forms of sudden headache can be diagnosed with a focused interview (cold or drug induced and food dependent headaches, sinusitis, glaucoma). Others, such as neuralgia, cough and coital headache, can be diagnosed as benign only when additional investigations have ruled out symptomatic forms.
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PMID:[Acute headache]. 848 83

We described a 4-month-old boy with cerebral infarction due to streptococcal meningitis. He complained of cough and high fever for 2 days. On the next day he admitted to our hospital because of bad humor, drowsiness, and vomiting associated with high fever, respiratory failure and loss of consciousness. On admission, he had opisthotonic posturing, anisocoria and elevated deep tendon reflexes with left side dominance. The cerebrospinal fluid showed increased cells (564/mm3), protein (295 mg/dl), and decreased sugar (1 mg/dl). Streptococcus pneumoniae was detected in the cerebrospinal fluid. Despite intensive treatment by antibiotics, glycerol, and dexamethasone, general condition was worsened, MRI showed a high intense area along the territory of bilateral anterior cerebral arteries and left middle cerebral artery 3-D time-of-flight MRA revealed a decreased signal of these arteries, confirming cerebral infarction. Recanalization of the arteries were observed 17 days after the first MRA examination. Since complication of cerebral infarction influences the prognosis of meningitis, repetitive MRA is very beneficial in patients with bacterial meningitis in order to evaluate the vascular lesion.
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PMID:[Usefulness of MRA in an infant with cerebral infarction due to streptococcal meningitis]. 894 Aug 80

A 23-year-old woman with mild psychomotor retardation presented with fever, coughing, reduced consciousness and a stiff neck. A chest X-ray revealed an infiltrate in the left lower lobe; the cerebrospinal fluid was cloudy with a mild pleocytosis. Ceftriaxone was prescribed and the fever subsided. On the second day of admission she had a seizure, and a paraparesis emerged. Despite changes in the antibiotic regimen, her clinical condition hardly improved. On the fifth day, antibodies against Mycoplasma pneumoniae were found to be strongly positive and the diagnosis was M. pneumoniae infection. This accounted for the pneumonia together with meningoencephalitis and a transverse myelitis. The antibiotics were switched to doxycycline and the clinical condition improved dramatically. Six weeks after discharge, the patient had made a complete recovery. In patients suffering from meningitis with an atypical presentation, uncommon causes of infection should be considered. Together with a pneumonia, M. pneumoniae, Chlamydia pneumoniae, Legionella pneumophila and Listeria monocytogenes should be high on the list of potential causes for bacterial meningitis.
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PMID:[Clinical reasoning and decision-making in practice. A young woman with fever, shortness of breath, and reduced consciousness]. 1289 64

We report a case of sphenoid sinusitis which could be diagnosed by orbital CT after detecting Strepotococcus pneumoniae from blood culture. A previously healthy 47 year-old Japanese male was admitted to our hospital with severe left-sided headache of 2 days duration. From 9 days before hospitalization (1st day), the patient complained of cough and sputum. On physical examination, his neck was supple and his temperature was 38.3 degrees C. The rest of the examination was normal. A chest radiograph, sinus radiograph, and head computed tomographic (CT) scan without contrast material disclosed no abnormalities. Lumbar puncture was done and cerebrospinal fluid was clear and cell counts and the levels of glucose and protein were normal. The peripheral white blood cell count was 14,400/fl, and the C-reactive protein level was 9.6 mg/dl. After blood, urine, pharyngeal mucus and cerebrospinal fluid cultures were obtained, empirical antibiotic therapy with 2 gms of piperacillin twice daily was begun. He complained sever left-sided retro-orbital headahe on the next day too. The lumbar puncture and head CT scan with contrast material was done again but gave no diagnostic clues. The examinations by the otolaryngologist, ophthalmologist and dentist found no abnormal findings. On the 3rd hospitalized day, Strepotococcus pneumoniae was detected from the blood culture taken on the 1st hospitalized day. A CT scan focused on orbita was done and revealed a low density area of the left sphenoid sinus. The dose of piperacillin was increased to 4 gms twice daily and continued for 24 days. The patient's headache improved and piperacillin was changed to oral levofloxacin 100 mg, three times daily on the 26th day. The medication was stopped on the 73th day. Isolated sphenoid sinusitis is rare, but crtitical complications such as cranial nerve involvement, brain abscess, and bacterial meningitis may happen. It is necessary to also think of sphenoid sinusitis in practices of patients with severe headache.
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PMID:[A case of sphenoid sinusitis which could be diagnosed by orbital computed tomography after detected Strepotococcus pneumoniae from blood culture]. 1597 60

Meningitis is a bacterial, viral or fungal infection of the protective membrane meninges covering the brain and spinal cord. Viral and other forms of meningitis are mild and get cured within one or two week without any treatment. Whereas, bacterial meningitis can prove lethal if not being diagnosed or treated in time. Meningitis is a contagious infection and can spread from one person to another through coughing, sneezing or close contact. Usually the disease is diagnosed from cerebrospinal fluid (CSF) of the patients using culture, PCR, immunological and biochemical tests. All these methods suffer from one or more limitations. Our lab has developed a quick PCR based detection of Neisseria meningitidis (bacterial meningitis) directly from the patient CSF samples using specific primers of virulent rmpM gene. The overall analysis completes in 80 min for confirmation of the disease. Amplicon of 308 bp of rmpM gene does not show homology with other organisms and can be used as a genetic marker for human bacterial meningitis caused by Neisseria meningitidis.
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PMID:rmpM gene as a genetic marker for human bacterial meningitis. 2327 88

Hemorrhagic stroke is an extremely rare complication in bacterial meningitis. Therefore, the incidence and prognosis have not been fully clarified. In this case report, we describe a case of intracranial hemorrhage caused by bacterial meningitis, which originated from paranasal sinusitis. A man visited the hospital due to fever, nonproductive cough, and oppressive pain of cheek. He was diagnosed with purulent sinusitis and received antibiotics. However, he suddenly developed a severe headache and came to our department. Computed tomography scan revealed right subcortical hematoma. We performed hematoma evacuation, but headache and fever did not cease. From the analysis of the cerebrospinal fluid, he was diagnosed with cerebral hemorrhage caused by meningitis and treated with broad-spectrum antibiotics. Through this treatment, his condition rapidly improved. Hemorrhagic stroke is a rare complication of bacterial meningitis, but if this condition develops, then, there is a high risk of mortality and morbidity.
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PMID:Intracranial Hemorrhage Caused by Bacterial Meningitis: Case Report and Review of the Literature. 3093 42

Background: The discrimination of tuberculous meningitis and bacterial meningitis remains difficult at present, even with the introduction of advanced diagnostic tools. This study aims to differentiate these two kinds of meningitis by using the rule of clinical and laboratory features. Methods: A prospective observational study was conducted to collect the clinical and laboratory parameters of patients with tuberculous meningitis or bacterial meningitis. Logistic regression was used to define the diagnostic formula for the discrimination of tuberculous meningitis and bacterial meningitis. A receiver operator characteristic curve was established to determine the best cutoff point for the diagnostic formula. Results: Five parameters (duration of illness, coughing for two or more weeks, meningeal signs, blood sodium, and percentage of neutrophils in cerebrospinal fluid) were predictive of tuberculous meningitis. The diagnostic formula developed from these parameters was 98% sensitive and 82% specific, while these were 95% sensitive and 91% specific when prospectively applied to another 70 patients. Conclusion: The diagnostic formula developed in the present study can help physicians to differentiate tuberculous meningitis from bacterial meningitis in high-tuberculosis-incidence-areas, particularly in settings with limited microbiological and radiological resources.
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PMID:A Diagnostic Formula for Discrimination of Tuberculous and Bacterial Meningitis Using Clinical and Laboratory Features. 3201 Jun 36


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