Global ETD Search

11	Experimental acute otitis media : aspects on treatment, protection and structural changes Westman, Eva January 2003 (has links) <p>Acute otitis media (AOM) is a common disease in childhood and is one of the most common causes for outpatient antibiotic treatment. The major aetiological agents of AOM have varied over the decades. Now the three most common pathogens are <i>Streptococcus pneumoniae</i>, <i>Haemophilus influenzae</i> and <i>Moraxella catarrhalis</i>. The resistance patterns of these organisms have also varied from the beginning of the antibiotic era to the situation we have today with an increasing incidence of penicillin-resistant <i>S. pneumoniae</i> and a moderate to high frequency of beta-lactamase production in <i>H. influenzae</i> and <i>M. catarrhalis</i>. In Sweden we have continued to use the Scandinavian treatment policy of penicillins as the first-line antibiotic treatment of AOM, which has been implemented with good results in the past. The question is if this policy will continue to have acceptable treatment results.</p><p>In order to investigate aspects of treatment, protection and structural changes in AOM, an animal model was used.</p><p>Amoxicillin treatment of AOM caused by <i>H. influenzae</i> was studied. Amoxicillin treatment was shown to shorten the duration of the infection and to reduce the morphological changes normally observed after an untreated AOM. The influence of antibiotic treatment on recurrent AOM was evaluated. Amoxicillin treatment did not lead to less protection against reinfection. Abstaining from antibiotics did not improve the levels of serum IgG antibodies. The IgG levels were significantly higher in treated animals after rechallenge. AOM caused by <i>H</i>. <i>influenzae</i> with a non-beta-lactamase-mediated resistance to beta-lactams was investigated and it was observed that during amoxicillin treatment the chromosomal changes mediating resistance were possibly advantageous for the bacterium. In cultures from children with AOM, there is sometimes growth of several bacteria. The possibility of a sheltering effect of beta-lactamase-producing <i>H. influenzae</i> on a penicillin-sensitive <i>S. pneumoniae</i> in a mixed infection was investigated, and amoxicillin was shown to eradicate the pneumococci from the middle ear despite the presence of beta-lactamase. An increasingly cultured bacterium in nasopharynx and in AOM is <i>M. catarrhalis</i>. It is now beta-lactamase-producing in almost 100% of cases and is thus not eradicated by penicillins. An animal model of AOM caused by beta-lactamase-producing <i>M. catarrhalis</i> was established to study the course of this infection with the possibility of evaluating aspects of virulence between AOM pathogens. The AOM observed was a self-limiting disease.</p><p>The results obtained in this study in a rat model support the continuing use of penicillins as first-line drugs in the treatment of AOM. Penicillins are not sufficient to treat all causative agents, but the majority of pathogens including the most virulent bacteria are eradicated from the middle ear. </p> Otorhinolaryngology acute otitis media penicillins rat treatment protection beta-lactamase Moraxella catarrhalis Haemophilus influenzae Otorhinolaryngologi Otorhinolaryngology Otorhinolaryngologi
12	Analys av antikroppar mot Moraxella catarrhalis hos patienter med multipelt myelom, Waldenströms makroglobulinemi och monoklonal gammopati av oklar signifikans med ”enzyme-linked immunosorbent assay” Erman, Evelina January 2010 (has links) Försämrat immunförsvar och ökad risk att drabbas av bakterie- och virusinfektioner förekommer hos patienter med blodsjukdomarna multipelt myelom, Waldenströms makroglobulinemi samt hos vissa patienter med blodsjukdomen monoklonal gammopati av oklar signifikans. Infektionerna kräver ofta antibiotikabehandling och behandling med antivirala medel. I dagsläget är det svårt att förutsäga vilka av patienterna som kommer att drabbas av svåra och ibland livshotande infektioner. Därför ges många av patienterna förebyggande antibiotikabehandling. I studiens början sattes en enzyme-linked immunosorbent assay (ELISA) för detektion av antikroppar mot Moraxella catarrhalis upp. I studien undersöktes om antikroppstitrar i serum mot bakterien Moraxella catarrhalis var lägre hos patientgrupperna än hos friska kontrollpersoner i samma ålder och om variationer förekom mellan patientgrupperna samt hur kontrollgrupper i olika åldrar skiljde sig från varandra. Kontrollgrupperna som undersöktes var mellan 20-40 år, 40-60 år samt 60 år och äldre. Resultatet var att patienterna med multipelt myelom hade lägst antikroppstitrar, patienter med monoklonal gammopati av oklar signifikans hade något högre och patienter med Waldenströms makroglobulinemi hade ännu högre antikroppstitrar. Kontrollgruppen äldre än 60 år hade högre antikroppstitrar än både kontrollgruppen 20-40 år och 40-60 år. Lägst antikroppstitrar hade kontrollgrupp 40-60 år men ingen signifikant skillnad påvisades mellan kontrollgrupp 20-40 år och 40-60 år. Moraxella catarrhalis multipelt myelom Waldenströms makroglobulinemi enzyme-linked immunosorbent assay ELISA NATURAL SCIENCES NATURVETENSKAP
13	Experimental acute otitis media : aspects on treatment, protection and structural changes Westman, Eva January 2003 (has links) Acute otitis media (AOM) is a common disease in childhood and is one of the most common causes for outpatient antibiotic treatment. The major aetiological agents of AOM have varied over the decades. Now the three most common pathogens are Streptococcus pneumoniae, Haemophilus influenzae and Moraxella catarrhalis. The resistance patterns of these organisms have also varied from the beginning of the antibiotic era to the situation we have today with an increasing incidence of penicillin-resistant S. pneumoniae and a moderate to high frequency of beta-lactamase production in H. influenzae and M. catarrhalis. In Sweden we have continued to use the Scandinavian treatment policy of penicillins as the first-line antibiotic treatment of AOM, which has been implemented with good results in the past. The question is if this policy will continue to have acceptable treatment results. In order to investigate aspects of treatment, protection and structural changes in AOM, an animal model was used. Amoxicillin treatment of AOM caused by H. influenzae was studied. Amoxicillin treatment was shown to shorten the duration of the infection and to reduce the morphological changes normally observed after an untreated AOM. The influence of antibiotic treatment on recurrent AOM was evaluated. Amoxicillin treatment did not lead to less protection against reinfection. Abstaining from antibiotics did not improve the levels of serum IgG antibodies. The IgG levels were significantly higher in treated animals after rechallenge. AOM caused by H. influenzae with a non-beta-lactamase-mediated resistance to beta-lactams was investigated and it was observed that during amoxicillin treatment the chromosomal changes mediating resistance were possibly advantageous for the bacterium. In cultures from children with AOM, there is sometimes growth of several bacteria. The possibility of a sheltering effect of beta-lactamase-producing H. influenzae on a penicillin-sensitive S. pneumoniae in a mixed infection was investigated, and amoxicillin was shown to eradicate the pneumococci from the middle ear despite the presence of beta-lactamase. An increasingly cultured bacterium in nasopharynx and in AOM is M. catarrhalis. It is now beta-lactamase-producing in almost 100% of cases and is thus not eradicated by penicillins. An animal model of AOM caused by beta-lactamase-producing M. catarrhalis was established to study the course of this infection with the possibility of evaluating aspects of virulence between AOM pathogens. The AOM observed was a self-limiting disease. The results obtained in this study in a rat model support the continuing use of penicillins as first-line drugs in the treatment of AOM. Penicillins are not sufficient to treat all causative agents, but the majority of pathogens including the most virulent bacteria are eradicated from the middle ear. Otorhinolaryngology acute otitis media penicillins rat treatment protection beta-lactamase Moraxella catarrhalis Haemophilus influenzae Otorhinolaryngologi Otorhinolaryngology Otorhinolaryngologi
14	Moraxella Catarrhalis Induces Mast Cell Activation and Nuclear Factor Kappab-Dependent Cytokine Synthesis Krishnaswamy, G., Martin, R., Walker, E., Li, C., Hossler, F., Hall, K., Chi, D. S. 01 January 2003 (has links) Human mast cells are often found perivascularly and at mucosal sites and may play crucial roles in the inflammatory response. Recent studies have suggested a prominent role for mast cells in host defense. In this study, we analyzed the effects of a common airway pathogen, Moraxella catarrhalis and a commensal bacterium, Neiserria cinerea, on activation of human mast cells. Human mast cell leukemia cells (HMC-1) were activated with either phorbol myristate acetate (PMA) and calcium ionophore or with varying concentrations of heat-killed suspensions of bacteria. Supernatants were assayed for the cytokines interleukin-4 (IL-4), granulocyte macrophage colony stimulating factor (GM-CSF), IL-6, IL-8, IL-13 and monocyte chemotactic protein-1 (MCP-1). Nuclear proteins were isolated and assayed by electrophoretic mobility shift assay (EMSA) for nuclear factor kappaB (NF-κB) nuclear binding activity. In some experiments, NF-κB inhibitor, Bay-11 was added to determine functional significance. Both M. catarrhalis and N. cinerea induced mast cell activation and selective secretion of two key inflammatory cytokines, IL-6 and MCP-1. This was accompanied by NF-κB activation. Neither spun bacterial supernatants nor bacterial lipopolysaccharide induced cytokine secretion, suggesting need for direct bacterial contact with mast cells. Scanning electron microscopy revealed active aggregation of bacteria over mast cell surfaces. The NF-κB inhibitor, Bay-11, inhibited expression of MCP-1. These findings suggest the possibility of direct interactions between human mast cells and common bacteria and provide evidence for a novel role for human mast cells in innate immunity. cytokines inflammation interleukin 6 mast cells monocyte chemotactic protein-1 moraxella catarrhalis neiserria cinerea nuclear factor kappaB signaling mechanisms
15	Mechanisms of induction of CCL20/MIP3-α in lung epithelial cells by Moraxella catarrhalis Serrano Aybar, Pablo 12 November 2008 (has links) No description available. Cellular Biology Molecular Biology Moraxella catarrhalis TLR4 TLR2 lung epithelial cells CCL20/MIP3-&945 A549 cells
16	Moraxella catarrhalis-induced innate immune responses in human pulmonary epithelial cells and monocytes Chen, Miao January 2009 (has links) No description available. Biology Biomedical Research Health Immunology Microbiology Molecular Biology COPD CD14 Moraxella catarrhalis pulmonary epithelial cells inflammation innate immunity
17	Moraxella (Branhamella) Catarrhalis: A Molecular Epidemiology Study Gill, Lyndell R. 01 May 1995 (has links) Moraxella (Branhamella) catarrhalis is the third-most-frequently isolated microorganism associated with acute exacerbations of chronic bronchitis in patients during their stay at the Mountain Home VA Medical Center (MHVAMC). In order to develop a practical, epidemiologically-meaningful typing method for M. (B.) catarrhalis, we tested two methods based on analysis of chromosomal DNA for typeability, reproducibility, and ability to differentiate between unrelated strains (discriminatory power, D). M. (B.) catarrhalis isolants from MHVAMC from 7/1/87-6/30/88 were grown overnight in broth and embedded in agarose. DNA was isolated by standard methods. The DNA was subjected to: (1) restriction endonuclease digestion (with either Bgl II or Pme I) followed by pulsed-field gel electrophoresis (PFGE) and (2) restriction endonuclease digestion (with Hae III), followed by horizontal gel electrophoresis, Southern transfer and hybridization with a M. (B.) catarrhalis-specific DNA probe (M46). Reliable and reproducible patterns were produced from 144 of 159 isolants (91%) using Hae III, 155 of 159 (97%) using Pme I, and all isolants using Bgl II. Three clusters of isolants, Groups A (n = 18), B (n = 18), and C (n = 12) were detected. Within each group, isolants were identical by all typing methods tested. Chart review revealed no apparent epidemiologic link for Group A, while in Group B, 16 of 18 patients were housed on two wards, and in Group C, all cases occurred within two months, suggesting epidemiologic links within Groups B and C. Comparisons of results from isolants from various wards and isolants from outpatients were used to determine D of each method. Digestion with Pme I followed by PFGE was the most discriminating technique (D = 0.978) followed by Bgl II with PFGE (D = 0.962), then M46 probe hybridization (D = 0.929). The restriction endonucleases Pme I and Bgl II were highly discriminating and useful in the epidemiologic typing of M. (B.) catarrhalis. While useful, the M46 probe following Hae III digestion was not as discriminating. Biological sciences Branhamella catarrhalis Bronchitis Health and environmental sciences Microbiology Molecular biology Moraxella catarrhalis Pathology Public health Microbiology Molecular Biology Pathology Public Health
18	From Micrococcus to Moraxella. The Reemergence of Branhamella Catarrhalis Berk, S L. 01 November 1990 (has links) No description available. Canada Germany history 19th century history 20th century humans moraxella catarrhalis (classification pathogenicity) pneumonia (history microbiology) respiratory tract infections (history microbiology) United States QCOM

Search results