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:C0023241 (Legionella)
6,990 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During the five-year period 1984-1988 we received 192 specimens from 180 patients infected with the human immunodeficiency virus (HIV) for investigation of Legionella infection. The majority of specimens were bronchoalveolar lavage (BAL) fluids (84%), but tracheal suctions and lung tissue from autopsies were also examined. The diagnostic methods used were a direct immunofluorescence assay (DFA) for the detection of Legionella antigen, and culture on buffered charcoal yeast extract (BCYE-alpha) media. All specimens were also examined for the presence of other bacterial lung pathogens, and all BAL specimens additionally for Pneumocystis carinii and mycobacteria. Legionellosis was not found to be common among HIV-infected patients, as only six specimens (3%) from six patients were found positive by DFA, and no specimens were culture-positive for Legionella species. Dual infection with Legionella and P. carinii occurred in two patients. Clinical data of the six patients are presented, and currently used methods for diagnosing legionellosis are discussed.
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PMID:Legionellosis in patients with HIV infection. 207 6

Certain types and causes of pneumonia are unique to the immunocompromised host. The most frequent causes are cytomegalovirus, Pneumocystis carinii, varicella zoster virus, Candida species and Aspergillus species. Lymphoid interstitial pneumonia has recently been recognized in children with the acquired immunodeficiency syndrome. With the exception of varicella-zoster pneumonitis, an invasive procedure, such as open lung biopsy, is required to establish a definitive diagnosis. Infrequent causes of pneumonitis in immunocompromised children include Toxoplasma gondii; Cryptosporidium; Herpes simplex; adenovirus, gram-negative bacillary infections (Pseudomonas aeruginosa, Klebsiella pneumoniae, Escherichia coli, Legionella pneumophilia); Nocardia spp; zygomycetes, and Cryptococcus neoformans. The discovery of any of the aforementioned pneumonias suggests the patient may have a serious underlying immunodeficiency.
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PMID:Pneumonia in the immunocompromised child. 282 16

The acquired immunodeficiency syndrome (AIDS) is a devastating new disease caused by the human immunodeficiency virus (HIV). This retrovirus causes profound immunoincompetence in its infected hosts, who are thereafter susceptible to develop myriad severe and relapsing protozoal, fungal, bacterial, viral, and arthropodal opportunistic infections, as well as unusual malignancies. The more than 50,000 patients who have developed AIDS in the United States have produced a sudden unexpected deluge of diagnostic dilemmas that are stressing laboratories of pathology everywhere. This paper describes the gross and microscopic pathology of the numerous complications in patients infected by HIV: (a) the prodromal AIDS-related complex with persistent generalized lymphadenopathy, (b) lymphoid infiltration of salivary gland and lung, including the complex of lymphoid interstitial pneumonitis-pulmonary lymphoid hyperplasia, (c) extranodal non-Hodgkin's lymphomas, (d) multifocal mucocutaneous and visceral Kaposi's sarcoma, (e) small cell undifferentiated (oat cell) carcinomas, (f) protozoal infections caused by Pneumocystis carinii, Toxoplasma gondii, Acanthamoeba, Cryptosporidium species (sp.), and Isospora belli, (g) the causes of chronic enteritis, (h) mycotic infections caused by Candida sp., Cryptococcus neoformans, Histoplasma capsulatum, Coccidioides immitis, and Sporothrix schenckii, (i) bacterial infections caused by Mycobacterium avium-intracellulare, M. tuberculosis, M. kansasii, Nocardia sp., Listeria monocytogenes, Legionella sp., Treponema pallidum, and others, (j) viral infections caused by cytomegalovirus, herpes simplex and zoster, polyomavirus (progressive multifocal leukoencephalopathy), hepatitis B, molluscum contagiosum, and papillomavirus, (k) oral hairy leukoplakia, (l) subacute encephalopathy, and (m) Norwegian scabies.
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PMID:The pathology of AIDS. 283 78

Host defense mechanisms spaced along the respiratory tree and in the alveolar spaces effectively remove or contend with micro-organisms that enter the airways, so serious lung infections occur rarely in healthy people. Special circumstances, such as virgin exposure to a virulent microbe or a large innoculum of a pathogen, can result in illness, but usually routine surveillance host defenses are protective and suffice to keep colonizing airway flora in check. When pneumonia develops or recurrent sinopulmonary infection exists, however, some element of the normal defense apparatus may have failed or is inadequate. This review highlights several components of the apparatus, that is immunoglobulins IgG and IgA and the interaction of alveolar macrophages and lymphocytes, and examines deficiencies in their function that may result in infection. Along the conducting airways, poor mucociliary clearance and/or deficiencies in certain IgG subclass antibodies or destruction of IgA may predispose to sinopulmonary infections; these may be a manifestation of a hereditary disease. In pneumonia the alveolar macrophage is positioned as the central cell which must respond in several directions. This scavenger phagocyte first intercepts the microbe and either can kill or contain it or must call in some other phagocytic cell or inflammatory mediator(s) for assistance. Opsonic antibodies (IgG) and other nonimmune opsonins (complement and surfactant or fibronectin fragments) facilitate phagocytosis, but an absence of antibody may permit infection to develop with encapsulated bacteria (pneumococcus). Insufficient bone marrow reserves of PMNs or a paucity of chemotactic factors to attract them into the alveoli is a situation that may permit gram-negative bacilli and fungal organisms to flourish. Inability of immune T-lymphocytes to energize macrophages, through soluble cellular mediators that provide cell-mediated immunity and activation, makes containment of certain intracellular microbes impossible for these phagocytes (Legionella or mycobacteria). Likewise, concomitant infection of macrophages with viruses (human immunodeficiency virus, and cytomegalovirus or herpes viruses) plus an excessive T-lymphocyte suppressor cell influence may make P. carinii and common bacterial and fungal organisms difficult to contain in the lungs of AIDS patients. Consideration about what the lung host deficiency might be can make therapy more specific through immunization to develop special antibodies, replacement of certain immunoglobulins (IgG subclasses), or selective administration of cell mediators (gamma-interferon or interleukins).
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PMID:Host defense impairments that may lead to respiratory infections. 331 80

The primary manifestation of the immunodeficiencies is undue susceptibility to infection. This means too many, too severe, too prolonged, too complicated and too unusual infections. Infections in immunodeficiency have a characteristic cause depending on the nature of the immune deficiency. Antibody deficiencies are associated with infections with gram-positive infections. Cellular immune deficiencies are associated with mycobacterial, protozoan, fungus, virus, and opportunistic bacterial infection. Phagocytic disorders are associated with staphylococcal, fungal, and gram-negative organisms. Complement disorders are associated by neisserial infections. Infections have also been implicated in the pathogenesis of some immunodeficiencies in some circumstances. These include human T lymphotropic virus type III (HTLV-III), rubella virus, cytomegalovirus, and Epstein-Barr virus. Several infectious syndromes in specific immunodeficiencies have been identified. Examples include enteric cytopathic human orphan (ECHO) virus encephalitis in agammaglobulinemia, and meningococcal meningitis in C6 deficiency. Infections can also be induced by live vaccines given in immunodeficiency (e.g., paralytic polio in agammaglobulinemia.) Unusual infectious syndromes will be illustrated including parainfluenza infection in severe combined and immunodeficiency, Legionella pneumonia in chronic granulomatous disease, and Cryptosporidium infection in hyper-IgM immunodeficiency.
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PMID:Infectious complications of the primary immunodeficiencies. 352 71

Roxithromycin is a derivative of the macrolide antibacterial erythromycin with in vitro antibacterial activity resembling that of the parent compound. The drug has activity against some Staphylococcus spp., many Streptococcus spp., Moraxella (Branhamella) catarrhalis, Mycoplasma pneumoniae, Legionella pneumophila and Chlamydia trachomatis as well as many less common organisms. Measured using recently proposed guidelines, roxithromycin has in vitro activity against Haemophilus influenzae. In comparison with that of its parent compound, the pharmacokinetic profile of roxithromycin is characterised by high plasma, tissue and body fluid concentrations and a long half-life permitting an extended dosage interval. Roxithromycin has proven clinical efficacy in upper and lower respiratory infections, skin and soft tissue infections, urogenital infections and orodental infections, and appears to be as effective as more established treatments including erythromycin, amoxicillin/clavulanic acid and cefaclor. The drug has also shown promise in a variety of more specialised indications including opportunistic infections in human immunodeficiency virus (HIV)-positive patients and as part of a Helicobacter pylori eradication regimen. Roxithromycin is very well tolerated with an overall incidence of adverse events of approximately 4%. Thus, roxithromycin is an attractive therapeutic alternative in its established indications, especially when the option of once-daily administration is considered.
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PMID:Roxithromycin. An update of its antimicrobial activity, pharmacokinetic properties and therapeutic use. 752 29

This cross-sectional and prospective one year study evaluated adults admitted to an inner city hospital with community-acquired pneumonia. The study used extensive diagnostic methods to evaluate the etiologies of community-acquired pneumonia in hospitalized patients with differing immunologic status. Of 385 study patients, concurrent problems associated with immunosuppression were noted in 221 (57%) patients, 180 of whom were human immunodeficiency virus (HIV)-infected. The five most common causes of community-acquired pneumonia were: Streptococcus pneumoniae, Pneumocystis carinii, aspiration, Hemophilus influenzae, and gram-negative bacilli. Only 8.3% of patients had either Legionella, Chlamydia pneumoniae or Mycoplasma pneumoniae. Despite use of state-of-the-art diagnostic techniques, no diagnosis was made in 46 of 180 (25.6%) HIV-infected patients, 56 of 164 (34.1%) immunocompetent patients, and 20 of 41 (48.8%) non-HIV-infected immunosuppressed patients. The diagnostic yield of pre-antibiotic sputum culture for conventional bacteria was 99/155 (63.9%) compared to 52 of 169 patients (32.7%) with adequate post-antibiotic sputum culture (p < 0.0001). Although S. pneumonia continues to be the most commonly identified etiologic agent of community-acquired pneumonia, it is surpassed by P. carinii in the HIV-infected patient population. The apparent decline in the frequency of S. pneumoniae in our series presumably reflects administration of antibiotics prior to procurement of sputum culture. The paucity of atypical agents in this study support the current American Thoracic Society guidelines for selective use of macrolide therapy in immunocompetent adults hospitalized with community-acquired pneumonia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Community-acquired pneumonia: impact of immune status. 755 87

We describe a case of pneumonia with pleural effusion due to Legionella pneumophila serogroup Lansing 3 in a human immunodeficiency virus-infected person. The 55-year-old man had been treated with immunosuppressive agents for hypersensitivity pneumonitis.
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PMID:Pneumonia with pleural effusion due to Legionella pneumophila serogroup Lansing 3. 762 88

Salmonellae possess the ability to adhere to and invade macrophages and in so doing trigger a number of intracellular events that are associated with cellular activation. As an initial approach to defining the mechanisms by which invasive salmonellae alter macrophage function, we have explored the impact of Salmonella infection on the production of human immunodeficiency virus (HIV) in U1 cells, a promonocytic cell line latently infected with the virus. Infection of U1 cells with a pathogenic strain of Salmonella enteritidis resulted in a marked induction of macrophage activation and HIV production. The stimulatory effect of salmonellae was mediated by signals other than lipopolysaccharide. Salmonella mutants with specific defects in invasion or intracellular survival were markedly less effective in the induction of HIV production. In contrast to S. enteritidis, strains of Yersinia enterocolitica, Legionella pneumophila, and Escherichia coli did not induce HIV production. However, all of these bacteria induced comparable levels of gene expression mediated by the HIV long terminal repeat. The results of this study are consistent with the notion that invasive salmonellae possess the ability to activate the macrophage by at least one mechanism that is not shared with several other species of gram-negative bacteria. Furthermore, the expression of this unique property is maximal with Salmonella strains that are not only invasive but also capable of prolonged survival within the macrophage. Our results indicate that the U1 cell line may be a very useful model system with which to examine the biochemical pathways by which internalized salmonellae modulate the activation state of the macrophage.
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PMID:Regulation of macrophage activation and human immunodeficiency virus production by invasive Salmonella strains. 772 90

Using a microagglutination test, the prevalence of antibodies against three species (10 groups) of Legionella was determined in 300 healthy donors, 120 non-pneumonic patients with immunodeficiency and 158 patients with pneumonia. The results showed that there were significant differences among all groups on positive rate and GMT in three groups. Lp6 was the highest, Lp1 and Lp8 came second. There were significant differences among three groups in positive rate and GMT to Lp1, Lp2, Lp6 and Lp8, in the group of patients with pneumonia was highest, the group of non-pneumonic patients with immunodeficiency was second and healthy group was the lowest. It was suggested that the infection with Lp6, Lp1, Lp8 was predominant in population in Dalian area. The latent infection, subclinical infection and legionella pneumonia in population might be existence simultaneously. Using test-tube agglutination, the paired sera collected from 74 pneumonic patients were studied, it was showed that 5.4% of admitted pneumonic patients was legionellosis.
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PMID:[Comparative study on Legionella infection in different groups of population in Dalian area]. 785 59


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