Ameba-associated microorganisms and diagnosis of nosocomial pneumonia.To elucidate the role of ameba-associated microorganisms (AAMs) as etiologic agents of pneumonia, we screened for Legionella Legionella /Le·gion·el·la/ (le?jah-nel´ah) a genus of gram-negative, aerobic, rod-shaped bacteria (family Legionellaceae), normal inhabitants of lakes, streams, and moist soil; they have often been isolated from cooling-tower water, spp., Parachlamydia acanthamoeba Acanthamoeba /Acan·tha·moe·ba/ (ah-kan?thah-me´bah) a genus of free-living ameboid protozoa (order Amoebida) found usually in fresh water or moist soil. Certain species, such as A. astronyxis, A. castellanii, A. culbertsoni, A. , Afipia sp., Bosea spp., Bradyrhizobium spp., Mesorhizobium amorphae, Rasbo bacterium, Azorhizobium caulinodans, Acanthamoeba polyphaga mimivirus, and conventional microorganisms in 210 pneumonia patients in intensive-care units by using culture, polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is , and serologic testing. These resulted in 59 diagnoses in 40 patients. AAMs and non-AAMs were implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. in 10.5% of the patients. The infectious agents were identified in 15 patients: Acanthamoeba polyphaga mimivirus, 8; Legionella pneumophila Legionella pneumophila is a thin, pleomorphic, flagellated Gram-negative bacterium of the genus Legionella.[1] L. pneumophila is the primary human pathogen in this group and is the causative agent of legionellosis or Legionnaires' disease. , 3; L. anisa, 1; Parachlamydia sp., 1; Bosea massiliensis, L. worsleiensis, L. quinlivanii, and L. rubrilucens, 1; and M. amorphae and R. bacterium, 1. A. polyphaga mimivirus was the fourth most common etiologic agent, with a higher seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided than noted in healthy controls. This finding suggested its clinical relevance. Therefore, AAM n. 1. A Dutch and German measure of liquids, varying in different cities, being at Amsterdam about 41 wine gallons, at Antwerp 36½, at Hamburg 38¼. might cause nosocomial pneumonia nosocomial pneumonia An infection of lungs–bronchoalveolar unit–in a Pt who has been hospitalized ≥ 48 hrs, and directly attributable to pathogens acquired during the hospital visit Etiology Pseudomonas spp, S aureus, Legionella and should be suspected when conventional microbiologic results are negative. ********** Pneumonia is a major cause of illness and death throughout the world (1). Approximately 600,000 persons with pneumonia are hospitalized each year, and 64 million days of restricted activity occur because of this disease (2). Pneumonia is associated with high death rates, in particular, 30% for community-acquired pneumonia community-acquired pneumonia Pneumonia caused by an infection currently present in the community; CAP is the most common cause of infectious death–US, and number 6 killer overall; of the 57% of CAPs in which a pathogen is identified, S pneumoniae (3). Hospital-acquired pneumonia hospital-acquired pneumonia Nosocomial pneumonia Infectious disease Pulmonary infection acquired during a hospital stay which is often more severe than community-acquired pneumonia Risk factors Immune compromise, alcoholism, elderly, aspiration due to intubation. occurs in 0.5% to 1% of hospitalized patients, which represents 10%-15% of all nosocomial infections Nosocomial infections Infections that were not present before the patient came to a hospital, but were acquired by a patient while in the hospital. Mentioned in: Enterobacterial Infections, Staphylococcal Infections ; pneumonia is the most common cause of nosocomial infection Nosocomial infection An infection that can be acquired in a hospital. ABPA is a nosocomial infection. Mentioned in: Allergic Bronchopulmonary Aspergillosis, Hospital-Acquired Infections, Pseudomonas Infections in intensive-care units (ICUs) (4). The etiologic agent of community-acquired pneumonia remains unknown in 20% to 50% of cases (5), and several pathogens that may cause pneumonia seem to be underestimated (6-8). Microbiologically contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. water distribution systems have been linked to outbreaks of hospital- and community-acquired pneumonia (9,10). Water-associated microorganisms, such as Legionella spp., Pseudomonas Pseudomonas A genus of gram-negative, nonsporeforming, rod-shaped bacteria. Motile species possess polar flagella. They are strictly aerobic, but some members do respire anaerobically in the presence of nitrate. spp., Stenotrophomonas spp., Burkholderia spp., and Acinetobacter spp Acinetobacter spp Bacteriology A widely distributed bacterium found in moist hospital environments, which may establish itself in the respiratory flora and on the skin of Pts with prolonged hospitalization, often via contaminated medical instruments–eg, ., colonize col·o·nize v. col·o·nized, col·o·niz·ing, col·o·niz·es v.tr. 1. To form or establish a colony or colonies in. 2. To migrate to and settle in; occupy as a colony. 3. hospital water supplies and have been causally associated with cases of hospitalacquired pneumonia (10). There is also a growing concern that water-associated microorganisms, for example, Legionella spp., Afipia spp., Bosea spp., Bradyrhizobium spp., Mesorhizobium spp., Rasbo bacterium, Parachlamydia spp., and Acanthamoeba polyphaga mimivirus, may be associated with amebas (11-13). We previously demonstrated that patients with nosocomial pneumonia who received care in a hospital near a contaminated water distribution system showed strong serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. evidence of exposure to these microorganisms (14). Specimens from 12 (40%) of 30 patients in an ICU ICU intensive care unit. ICU abbr. intensive care unit ICU see intensive care unit. ICU seroconverted to microorganisms known to survive in an aquatic environment in the intracellular niche provided by free-living Acanthamoebae (15). These seroconversions were associated with ventilator-associated pneumonia Ventilator-associated pneumonia (VAP) is a sub-type of hospital-acquired pneumonia (HAP) which occurs in people who are on mechanical ventilation through an endotracheal or tracheostomy tube for at least 48 hours. , especially in patients for whom no etiologic agent was found by usual microbiologic investigations. We have also reported serologic evidence of exposure to an emerging giant virus that is resistant to phagocytic phag·o·cyt·ic adj. 1. Of or relating to phagocytes. 2. Of, relating to, or characterized by phagocytosis. phagocytic emanating from or pertaining to phagocytes. destruction by ameba, which we named A. polyphaga mimivirus (www-micro.msb.le.ac.uk/ 3035/VirusGroups.html), in 26 patients with ventilator-associated pneumonia at another ICU (12,13,16). Using this rationale, we evaluated infections with ameba-associated microorganisms (AAM) in a larger series of patients with pneumonia hospitalized in Marseille, France. Our goal was to identify typical pathogens as well as emerging AAMs (12-15,17-20). Materials and Methods Study Population All patients admitted to the ICU of Sainte-Marguerite Hospital in Marseille, France, with clinically suspected pneumonia over an 18-month period ending in June 2003 were enrolled in a prospective study. For all patients, the clinical suspicion clinical suspicion A working hypothesis about a Pt's diagnosis, which is then tested with appropriately targeted tests to arrive at a definitive diagnosis; a CS is based on a constellation of findings in a Pt that suggests to the physician a limited palette of of pneumonia was based on the presence of new or progressive pulmonary infiltrates on chest radiograph radiograph /ra·dio·graph/ (-graf?) the film produced by radiography. ra·di·o·graph n. along with 2 of the following features: pyrexia pyrexia /py·rex·ia/ (pi-rek´se-ah) pl. pyrex´iae fever.pyrex´ial py·rex·i·a n. See fever. py·rex with a temperature [greater than or equal to] 38.5[degrees]C, purulent pu·ru·lent adj. Containing, discharging, or causing the production of pus. Purulent Consisting of or containing pus Mentioned in: Lacrimal Duct Obstruction purulent containing or forming pus. tracheobronchial tracheobronchial /tra·cheo·bron·chi·al/ (-brong´ke-al) pertaining to the trachea and bronchi. tra·che·o·bron·chi·al adj. Of or relating to the trachea and the bronchi. secretions, and leukocytosis Leukocytosis Definition Leukocytosis is a condition characterized by an elevated number of white cells in the blood. Description Leukocytosis is a condition that affects all types of white blood cells. with a total peripheral leukocyte count leukocyte count see White cell count [greater than or equal to] 12,000/[mm.sup.3]. All episodes of suspected ventilator-associated pneumonia with fever and pulmonary density were retrospectively reevaluated and all differential diagnoses were excluded (21). Since patients might have been treated for pneumonia more than once during the 18-month study period, episodes rather than individual patients were the unit of analysis. Beginning from the time of admission, all occasions on which pneumonia had been diagnosed in individual patients were considered a single episode of pneumonia unless the interval between 2 such occasions exceeded 30 days. Excluded from the final analyses were patients who did not recover between 2 episodes of pneumonia. Data Collection Samples used for this study resulted from the current residual sampling strategy of the ICU; no supplement sampling was performed for the study. The identity of patients who provided samples and questionnaire information before the study remained confidential according to French law. We collected clinical data by using a standardized questionnaire that included sociodemographic data (age, sex), medical history (chronic obstructive bronchopneumonia bronchopneumonia: see pneumonia. , asthma, cystic fibrosis cystic fibrosis (sĭs`tĭk fībrō`sĭs), inherited disorder of the exocrine glands (see gland), affecting children and young people; median survival is 25 years in females and 30 years in males. , smoking and alcohol habits, immunosuppression immunosuppression Suppression of immunity with drugs, usually to prevent rejection of an organ transplant. Its aim is to allow the recipient to accept the organ permanently with no unpleasant side effects. , cancer, HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. infection, malnutrition, tuberculosis), hospitalization data (surgery, inhalation therapy inhalation therapy n. The therapeutic use of gases or of aerosols by inhalation. , duration of ventilation, and antimicrobial drug use), and type of pneumonia (nosocomial nosocomial /noso·co·mi·al/ (nos?o-ko´me-il) pertaining to or originating in a hospital. nos·o·co·mi·al adj. 1. Of or relating to a hospital. 2. or community acquired). Acute respiratory distress syndrome acute respiratory distress syndrome n. See adult respiratory distress syndrome. (ARDS Ards District (pop., 2001: 73,244), Northern Ireland. Formerly part of County Down, Ards was established as a district in 1973. Much of its land is devoted to crops and pasture. Newtownards, settled c. 1608 by Scots, is its administrative seat and manufacturing centre. ) was defined according to the American-European consensus (22). Information on immunosuppression was obtained for patients with a history of cancer, organ transplants, splenectomy Splenectomy Definition Splenectomy is the surgical removal of the spleen, which is an organ that is part of the lymphatic system. The spleen is a dark-purple, bean-shaped organ located in the upper left side of the abdomen, just behind the bottom of the , HIV infection (when the CD4+ T-cell count was <200 cells/[micro]L), and immunosuppressor or steroid treatment ([greater than or equal to] 0.5 mg/kg prednisone prednisone (prĕd`nĭsōn): see corticosteroid drug. for [greater than or equal to] 30 days or [greater than or equal to] 5 mg/kg prednisone for [greater than or equal to] 5 days). Study Design The diagnostic strategy included bronchoalveolar lavage Bronchoalveolar lavage A way of obtaining a sample of fluid from the airways by inserting a flexible tube through the windpipe. Used to diagnose the type of lung disease. (BAL (1) (Basic Assembly Language) The assembly language for the IBM 370/3000/4000 mainframe series. (2) (Branch And Link) An instruction used to transfer control to another part of the program. BAL - Basic Assembly Language ) fluid, blood cultures, and serologic and urine samples. BAL was performed by wedging the bronchoscope bronchoscope (brŏng`kəskōp'), long, tubular instrument with a light at the tip that is inserted through the windpipe and bronchial tubes to examine these structures. into a subsegment of the area of the lung when greatest abnormality was seen on a radiograph, or when the disease was diffuse, into the lingual lingual /lin·gual/ (ling´gwal) 1. pertaining to or near the tongue. 2. in dental anatomy, facing the tongue or oral cavity. lin·gual adj. 1. or right middle lobe. Normal saline normal saline Physiologic saline solution, see there was sequentially instilled in 20-mL aliquots and sectioned into sterile traps for microbiologic testing for AAMs. This testing included culturing onto an agar base containing buffered charcoal yeast extract and enriched with [alpha]-ketoglutarate and L-cysteine (23) (Oxoid, Dardilly, France) with cefamandole, polymyxin B, and anisomycin for Legionella spp. cultivation; coculture with amebas as previously reported (24,25) for AAM; and TaqMan real-time polymerase chain reaction In Molecular Biology, real-time polymerase chain reaction, also called quantitative real time polymerase chain reaction (QRT-PCR) or kinetic polymerase chain reaction assay for enhanced detection of AAMs (Legionella pneumophila, L. anisa, Parachlamydia spp., Bosea spp., and A. polyphaga mimivirus). DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. was extracted from BAL samples by using the QIAMP tissue kit (Qiagen, Hilden, Germany) according to the manufacturer's instructions. Acute- and convalescent-phase serum samples were drawn into vacutainer tubes (Becton Dickinson, Rutherford, NJ, USA) and tested by immunofluorescence Immunofluorescence A technique that uses a fluorochrome to indicate the occurrence of a specific antigen-antibody reaction. The fluorochrome labels either an antigen or an antibody. assay for antibodies to L. pneumophila, L. anisa, L. bozemanii, L. longbeachae, L. micdadei, and other AAMs (15,18), including Parachlamydia acanthamoeba (strain BN 9 and "Hall's coccus coccus Spherical bacterium. Many species have characteristic arrangements that are useful in identification. Pairs of cocci are called diplococci; rows or chains, streptococci (see streptococcus); grapelike clusters, staphylococci (see "), Afipia birgiae, A. broomeae, A. clevelandensis, A. fells, A. fells genospecies A, Afipia genospecies 1-3, A. massilliae, Azorhizobium caulinodans, Bosea eneae, B. massiliensis, B. thiooxydans, B. vestrisii, Bradyrhizobium japonicum, B. liaoningense, L. quinlivanii, L. rubrilucens, L. worsleiensis, Mesorhizobium amorphae, Rasbo bacterium, and Acanthamoeba polyphaga mimivirus (13,15). A urine sample was tested for L. pneumophila serogroup 1 antigen by enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. (26) (Binax, Inc., Portland, ME, USA). Data on non-AAMs isolated from BAL or blood cultures were obtained by conventional or specific procedures (culture performed on Lowenstein-Jensen medium Lowenstein-Jensen medium one containing eggs for the cultivation of mycobacteria. , shell-vial culture for cytomegalovirus cytomegalovirus (sī'təmĕg'əlōvī`rəs), member of the herpesvirus family that can cause serious complications in persons with weakened immune systems. , and inoculation inoculation, in medicine, introduction of a preparation into the tissues or fluids of the body for the purpose of preventing or curing certain diseases. The preparation is usually a weakened culture of the agent causing the disease, as in vaccination against onto continuous cell lines for indirect immunofluorescence assay for herpes simplex virus Herpes simplex virus A virus that can cause fever and blistering on the skin, mucous membranes, or genitalia. Mentioned in: Conjunctivitis herpes simplex virus ). Mycoplasma pneumonia Mycoplasma pneumonia An incomplete bacterium that infects the lung. Mentioned in: Erythema Multiforme mycoplasma pneumonia , Chlamydia pneumoniae Chlamydia pneumoniae C psittaci TWAR A pathogen that causes pneumonia, asymptomatic RTIs, pharyngitis, otitis media , C. psittacci, Coxiella burnetii Coxiella burnetii Infectious disease The single species of genus Coxiella, family Rickettsiaceae, a short, rod-shaped bacterium; it is global in distribution, causes Q fever, spreads by aerosol, primarily infects cattle, sheep, goats, multiplies well in the , influenza viruses A and B, and adenovirus adenovirus Any of a group of spheroidal viruses, made up of DNA wrapped in a protein coat, that cause sore throat and fever in humans, hepatitis in dogs, and several diseases in fowl, mice, cattle, pigs, and monkeys. were also identified. Main Outcome Measures Two groups of microorganisms were defined. The first was AAM (Legionella spp., Afipia spp., Bosea spp., Bradyrhizobium spp., Mesorhizobium spp., Rasbo bacterium, Parachlamydia spp., and A. polyphaga mimivirus). The second group was other water-associated microorganisms (Pseudomonas aeruginosa Pseudomonas aeruginosa A normal soil inhabitant and human saprophyte that may contaminate various solutions in a hospital, causing opportunistic infection in weakened Pts Clinical Infective endocarditis in IVDAs, RTIs, UTIs, bacteremia, meningitis, 'malignant' and AAM). Diagnosis of AAM infection was classified as having a strong or low level of evidence. The role of an infectious agent in the diagnosis reflected several factors, which included the relationship of the anatomic site of detection to the lung, reliability of the method, and whether the putative agent was a known cause of pneumonia. Strong evidence for AAM included 1) positive BAL culture, 2) 4-fold increase in antibody titer antibody titer The amount of a specific antibody present in the serum, usually as a result of an acquired infection; titers for IgM usually rise abruptly at the time of infection–acute phase and fall slowly; during the 'convalescent' phase, IgG ↑ and is between acute- and convalescent-phase serum samples or seroconversion seroconversion /se·ro·con·ver·sion/ (-con-ver´zhun) the change of a seronegative test from negative to positive, indicating the development of antibodies in response to immunization or infection. from 0 to 1:128 for L. pneumophila, L. anisa, L. bozemanii, L. micdadei, and L. longbeachae; and from 0 to 1: 100 for L. quinlivanii, L. rubrilucens, L. worsleiensis, Afipia spp., Bosea spp., Bradyrhizobium spp., Mesorhizobium spp., Parachlamydia spp., R. bacterium, and A. polyphaga mimivirus; and 3) positive results for L. pneumophila antigen. A low level of evidence for AAM included a stable antibody titer of [greater than or equal to] 1:256 for L. pneumophila, L. anisa, L. bozemanii, L. micdadei, and L. longbeachae; [greater than or equal to] 1:400 for L. quinlivanii, L. rubrilucens, L. worsleiensis, Afipia spp., Bosea spp., Bradyrhizobium spp., Mesorhizobium spp., R. bacterium, and A. polyphaga mimivirus; and [greater than or equal to] 1:200 for P. acanthamoeba. Statistical Analysis Results are expressed as mean [+ or -] standard deviation In statistics, the average amount a number varies from the average number in a series of numbers. (statistics) standard deviation - (SD) A measure of the range of values in a set of numbers. (SD). Continuous variables were compared by using the Student t-test or the nonparametric Mann Whitney U test when they could not be judged normal. Categoric variables were compared by using the [chi square chi square (kī), n a nonparametric statistic used with discrete data in the form of frequency count (nominal data) or percentages or proportions that can be reduced to frequencies. ] test or Fisher exact test when appropriate. Statistical significance was established at p<0.05. All analyses were performed with SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. version 10 software (SPSS Inc., Chicago, IL, USA). Results A total of 157 patients with 210 episodes of pneumonia were included in the study. The frequency of pneumonia episodes per patient was 1 in 123 patients, 2 in 22 patients, 3 in 7 patients, 4 in 3 patients, and 5 in 2 patients. The mean [+ or -] SD age was 61.6 + 16.1 years (range 19-99) and 73.8% of the patients were male. Samples were collected in 62 episodes of community-acquired pneumonia, 120 episodes of nosocomial pneumonia, and 28 episodes of mixed pneumonia (community-acquired, complicated with a nosocomial infection). Data collected for 201 episodes of pneumonia indicated a prevalence of 18.4% with chronic obstructive bronchopneumonia, 6.5% with asthma, 0.5% with cystic fibrosis, 41.8% with smoking habits (19% in males vs. 26% in females; p = 0.004), 17.4% with alcohol consumption, 37.3% with immunosuppression (3 cases of prolonged steroid treatment for inflammatory disease [1.5%], 3 HIV infections [1.5%], 2 splenectomies [1.0%], 3 lung transplants [1.5%], 8 kidney transplants [4.0%] and 57 cancers [28.4%]), 6.0% with malnutrition, 5.5% with a history of tuberculosis, 29.8% with previous surgery (62/208), 38.4% with probable or certain inhalation therapy (78/203), and 38.9% with antimicrobial drug therapy for >1 week (70/180). The mean [+ or -] SD duration of hospitalization and ventilation was 22.9 [+ or -] 32.6 days (range 0-371) and 16.3 [+ or -] 19.9 days (range 0-101 days), respectively. Data on antimicrobial treatment before BAL was available for 208 patients. Of these, 116 (55.8%) received an antimicrobial drug, 16 (7.7%) an antiviral drug, and 18 (8.7%) an antimycotic drug. Some patients had several definite or possible pathogens. A total of 230 documentations corresponding to 40 etiologic agents were identified in 152 (72.4%) of 210 episodes of pneumonia. Eighty-six (41.0%) BAL specimens were contaminated with fungi. Table 1 summarizes the non-AAMs identified as definite (28 in 27 [12.9%] of 210 episodes) or possible (143 in 115 [54.8%] of 210 episodes). Laboratory investigations for AAMs detected 59 diagnoses in 40 (19.0%) patients. More than 1 AAM was observed in 56 episodes of pneumonia (26.7%); 39 (18.6%) had 2 AAMs, 11 (5.2%) had 3 AAMs, 3 (1.4%) had 4 AAMs, 2 (1.0%) had 5 AAMs, and 1 (0.5%) had 6 AAMs. Ten patients had serologic evidence of mixed infections with AAMs. Of the 40 patients with documented AAM infections, 18 (8.6% of our series) had evidence of AAMs (Table 2); 9 of these patients showed a high level of evidence. Evidence of pneumonia caused by unique AAMs was obtained in 13 patients. Of these, 5 had pneumonia caused by A. polyphaga mimivirus, 5 caused by L. pneumophila, 2 caused by L. bozemanii, and 1 caused by Parachlamydia sp. Mixed infections in these patients with 2, 3, and 5 AAMs were observed in 1, 2, and 2 patients, respectively. A unique AAM was observed in 13 patients (5 with A. polyphaga mimivirus, 5 with L. pneumophila, 2 with L. bozemanii, and 1 with Parachlamydia sp.). A total of 22 (10.5%) of 210 episodes of pneumonia were observed in which both AAMs and conventional microorganisms were detected (Table 3). Six patients had diagnoses of AAM infection with a high level of evidence. Three of these 6 patients also had definite diagnoses of pneumonia caused by AAMs, and 3 others had a possible diagnosis of pneumonia caused by non-AAMs. Sixteen patients had diagnoses of pneumonia caused by AAMs with a low level of evidence. Three of these patients also had definite diagnoses of pneumonia caused by non-AAMs, and 13 had possible diagnoses of pneumonia caused by non-AAMs. Fifteen patients were identified as having definite cases of pneumonia caused by AAMs. This subgroup (of whom 1 had a definite diagnosis of S. aureus The aureus (pl. aurei) was a gold coin of ancient Rome valued at 25 silver denarii. The aureus was regularly issued from the 1st century BC to the beginning of the 4th century AD, when it was replaced by the solidus. infection and 1 of C. pneumoniae infection), included 8 patients with pneumonia caused by A. polyphaga mimivirus, 3 with pneumonia caused by L. pneumophila, and 5 who seroconverted. Those who seroconverted included any patient with seroconversion for L. anisa, Parachlamydia sp., B. massiliensis, L. worsleiensis, L. quinlivanii, L. rubrilucens, M. amorphae, and R. bacterium. In addition, 1 who seroconverted also had a diagnosis of infection with P. aeruginosa and B. alpica. Eleven patients had possible infections with Legionella sp. (L. pneumophila in 7, L. bozemanii in 3, and L. anisa in 1), and 19 patients had possible infections with atypical organisms (A. polyphaga mimivirus in 7, B. japonicum in 6, B. massiliensis in 4, B. liaoningense in 3. B. thiooxydans in 3, R. bacterium in 3, Parachlamydiae sp. in 2, and L. rubrilucens in 1). The frequency of infections with AAMs is summarized in Table 4. A. polyphaga mimivirus, which was identified in 15 (7.1%) of 210 episodes of pneumonia, was the most common AAM. Legionella sp. were identified in 14 episodes. Three of these patients had mixed infections (L. pneumophila and L. anisa in 1, L. pneumophila and L. rubrilucens in 1, and L. quilivanii, L. rubrilucens, and L. worsleiensis in 1). L. pneumophila, which was identified in 10 (4.8%) of 210 episodes, was the second most frequently documented AAM. Bradyrhizobium sp. was identified in 9 patients; 6 of them were also infected with B. japonicum. Five of 8 patients infected with Bosea sp. were also infected with B. massiliensis. Four patients had serologic evidence of mixed infection with B. japonicum and B. massiliensis. The 7 most common etiologic agents were P. aeruginosa (20.5%), S. aureus (13.8%), herpes simplex virus (8.1%), A. polyphaga mimivirus (7.1%), cytomegalovirus (6.2%), Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. (5.7%), and L. pneumophila (4.8%). If one considers only diagnoses with a high level of evidence, the 4 most common etiologic agents were P. aeruginosa (4.8%), A. polyphaga mimivirus (3.8%), E. coli E. coli: see Escherichia coli. E. coli in full Escherichia coli Species of bacterium that inhabits the stomach and intestines. E. coli can be transmitted by water, milk, food, or flies and other insects. (1.9%), and L. pneumophila (1.4%). A diagnosis was more frequent in a nosocomial context than outside a hospital (79.1% vs. 54.8%, p<[10.sup.-3]), especially for P. aeruginosa (p<[10.sup.-6]). Water-associated microorganisms were less likely to be identified in a community-acquired context than in a nosocomial context (30% vs. 50%, p = 0.005). Duration of hospitalization and ventilation were longer for patients infected with the water-associated microorganisms than for patients not infected (29 days vs. 19 days p = 0.015 and 21 days vs. 13 days, p = 0.008, respectively). Therapy with antimicrobial agents and a history of cancer were also more frequent in patients infected with water-associated microorganisms (54% vs. 30%, p = 0.001 and 39% vs. 22%, p = 0.014, respectively). Patients who seroconverted for A. polyphaga mimivirus used alcohol more frequently than others in the study (44% vs. 18%, p = 0.05). Discussion We conducted this study to determine the role of AAMs as causative agents of pneumonia in patients in an ICU. Concerns have been reported about the role of inline medication nebulizers contaminated with water-associated microorganisms, AAMs, or both (11,14,15). Other microorganisms, including Legionella-like amebal pathogens, P. acanthamoeba, Afipia sp., Bosea sp., Bradyrhizobium sp., Mesorhizobium sp., and A. polyphaga mimivirus, have also been reported (14,19,20,27). Our results indicate that AAMs represented 25.3% (59/233) of all documented causes of pneumonia and that 19.0% (40/210) of all episodes of pneumonia were associated with AAMs. Marrie et al. reported that Legionella-like amebal pathogens might play a role in pneumonia, usually as co-infecting organisms (18). In 18 patients (8.6%), the role of AAMs were well documented. Nine of these patients had a high level of evidence for AAMs. Both conventional microorganisms and AAMs were implicated in 22 (10.5%) cases. However, 6 of them had high levels of evidence for AAM infections. Three of these 6 patients had documented infections with L. pneumophila, L. anisa, and A. polyphaga mimivirus and low levels of infection with herpes simplex virus, S. marcescens, and P. aeruginosa. The serologic evidence obtained from these patients demonstrates only that they were infected by these bacteria or a cross-reactive microorganism microorganism /mi·cro·or·gan·ism/ (-or´gah-nizm) a microscopic organism; those of medical interest include bacteria, fungi, and protozoa. , not that these bacteria caused their pneumonia. However, the fact that only 8.6% had only indirect evidence of AAM infection raises questions about the potential pathogenic role of AAMs in pneumonia. A. polyphaga mimivirus was the fourth most common cause of pneumonia in our study. This finding suggests that this organism may be clinically relevant. However, several lines of evidence now indicate that ameba-resisting microorganisms other than Legionella sp. are associated with both community- and hospital-acquired pneumonia (19,28). La Scola et al. (13) and Marrie et al. (18) have reported that the seroprevalence of Legionella was higher than that of other AAMs. Except for L. pneumophila findings, our results agree. The seroprevalence of Legionella (7.1%) in our series was lower than that reported by others in community-acquired (9.7%) and hospital-acquired (19.2%) pneumonia (13). However, this prevalence was significantly higher (p<0.002) than that observed (2.3%) in a healthy control population (13). These data also suggest that some patients with ventilator-associated pneumonia might have been in contact with A. polyphaga mimivirus or other cross-reactive antigens. These results raise questions about the pathogenic potential of the largest virus known or cross-reactive antibodies to an unknown organism (13). We observed a significantly lower prevalence of seroconversion (p<[10.sup.-2]) for other AAMs than was found in a previous series: 32 (15.2%) of 210 serologically diagnosed cases of AAM pneumonia compared with 12 (40.0%) patients hospitalized in another ICU (15). The serologic evidence (e.g., seroconversion) obtained in this study strongly suggests that this patient population may have been exposed to the most common water ameba-associated bacteria in their environment (15). No environmental investigations were performed in our epidemiologic survey epidemiologic survey, n See research, epidemiologic survey. . The lower seroprevalence of AAMs in our patients suggest that they may have had less exposure in our hospital ICU compared with that observed in previous studies. Interest in free-living amebas has grown over the last decade with reports of their pathogenic potential (11,29) and the role of amebas as reservoirs for L. pneumophila and other AAMs (12-15,17,27,30,31). Since respiratory care protocols use only sterile water, 2 possible routes of infection with AAMs include a breach in protocol enforcement and handborne AAMs. Adherence to these protocols and use of water filters ensures better protection of water supplies, as is the case in our ICU. An interesting finding was that [approximately equal to]44.8% of the patients with severe pneumonia had mixed causes. AAM was implicated in 12.9% of these patients. Fagon et al. reported that only one third of the therapeutic regimens proposed for pneumonia patients needing ventilators were effective (32). Because the recommended empiric approaches in guidelines are based on microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. patterns derived from several epidemiologic surveys (33), clinicians need to know the local, regional, and global patterns of microbial populations and the possibility of emerging pathogens such as AAMs. If these microorganisms are human pathogens, they will influence the choice of antimicrobial drugs for empiric treatment because most are resistant to carboxypenicillins, ureidopenicillins, third-generation cephalosporins Cephalosporins Definition Cephalosporins are medicines that kill bacteria or prevent their growth. Purpose Cephalosporins are used to treat infections in different parts of the body—the ears, nose, throat, lungs, sinuses, and , and fluoroquinolones, which are commonly used in the ICU. AAMs may cause ventilator-associated pneumonia and should be suspected when results of conventional microbiologic investigations are negative (11,15,19,28). A diagnosis is rarely available at the time treatment with antimicrobial agents is begun. Thus, the prevailing situation warrants better diagnosis of pneumonia and identification of new lung pathogens such as AAMs. Recognizing the emerging pathogens responsible for pneumonia should be a major public health concern because the knowledge of predominant microbial patterns will help provide the basis for rational empiric antimicrobial treatment. Acknowledgment We thank M. Khan for reviewing the manuscript. References (1.) Bartlett JG, Dowell SF, Mandell LA, File TM Jr, Musher mush 1 n. 1. A thick porridge or pudding of cornmeal boiled in water or milk. 2. Something thick, soft, and pulpy. 3. Informal Mawkish sentimentality, affection, or amorousness. tr.v. DM, Fine MJ. Practice guidelines practice guidelines Medical practice A set of recommendations for Pt management that identifies a specific or range of range of management strategies. See Peer review organization, Practice standards. Cf 'Cookbook' medicine. for the management of community-acquired pneumonia in adults. Infectious Diseases Society of America The Infectious Diseases Society of America (IDSA) is a medical association representing physicians, scientists and other health care professionals who specialize in infectious diseases. . Clin Infect Dis. 2000;31:347-82. (2.) Marrie TJ. Community-acquired pneumonia in the elderly. Clin Infect Dis. 2000;31:1066-78. (3.) Ruiz M, Ewing S, Torres A, Arancibia F, Francesc M, Mensa MENSA. This comprehends all goods and necessaries for livelihood. Obsolete. J, et al. Severe community-acquired pneumonia. Risk factors and follow-up epidemiology. Am J Respir Crit Care Med. 1999;160:923-9. (4.) Cook D. Ventilator associated pneumonia: perspectives on the burden of illness. Intensive Care Med. 2000;26:31-7. (5.) Marrie TJ, Durant H, Yates L. Community-acquired pneumonia requiring hospitalization: 5 years prospective study. Rev Infect Dis. 1989;11:586-99. (6.) Papazian L, Fraisse A, Garbe L, Zandotti C, Thomas P, Saux P, et al. Cytomegalovirus: an unexpected cause of ventilator-associated pneumonia. Anesthesiology anesthesiology (ăn'ĭsthē'zēŏl`əjē), branch of medicine concerned primarily with procedures for rendering patients insensitive to pain, and for supporting life systems under the strains of anesthesia and surgery. . 1996;84:280-7. (7.) Chastre J, Fagon JY. Ventilator-associated pneumonia. Am J Respir Crit Care Med. 2002; 165:867-903. (8.) Bruynseels P, Jorens PG, Demey HE, Goossens H, Pattyn SR, Elseviers MM, et al. Herpes simplex virus in the respiratory tract respiratory tract n. The air passages from the nose to the pulmonary alveoli, including the pharynx, larynx, trachea, and bronchi. Respiratory tract of critical care patients: a prospective study. Lancet. 2003;362:1536-41. (9.) Anaissie E J, Penzak SR, Dignani MC. The hospital water supply as a source of nosocomial infections: a plea for action. Arch Intern Med. 2002; 162:1483-92. (10.) Rutala WA, Weber DJ. Water as a reservoir of nosocomial pathogens. Infect Control Hosp Epidemiol. 1997;18:609-16. (11.) Greub G, Raoult D. Microorganisms resistant to free-living amoebae. Clin Microbiol Rev. 2004; 17:413-33. (12.) La Scola B, Audic S, Robert C, Jungang L, de Lamballerie X, Drancourt M, et al. A giant virus in amoebae. Science. 2003;299:2033. (13.) La Scola B, Marrie TJ, Auffray JP, Raoult D. Mimivirus in pneumonia patients. Emerg Infect Dis. 2005; 11:449-52. (14.) La Scola B, Mezi L, Auffray JP, Berland Y, Raoult D. Patients in the intensive care unit are exposed to amoeba-associated pathogens. Infect Control Hosp Epidemiol. 2002;23:462-5. (15.) La Scola B, Boyadjiev i, Greub G, Khamis A, Martin C, Raoult D. Amoeba-resisting bacteria and ventilator-associated pneumonia. Emerg Infect Dis. 2003;9:815-21. (16.) Raoult D, Audic S, Robert C, Abergel C, Renesto P, Ogata H, et al. The 1.2-megabase genome sequence of Mimivirus. Science. 2004;306:1344-50. (17.) La Scola B, Mezi L, Weiller PJ, Raoult D. Isolation of Legionella anisa using an amoebic a·moe·bic adj. Variant of amebic. coculture procedure. J Clin Microbiol. 2001;39:365-6. (18.) Marrie TJ, Raoult D, La Scola B, Birtles RJ, de Carolis E, The Canadian Community-Acquired Pneumonia Study Group. Legionella-like and other amoebal pathogens as agents of community-acquired pneumonia. Emerg Infect Dis. 2001 ;7:1026-9. (19.) Greub G, Berger P, Papazian L, Raoult D. Parachlamydiaceae as rare agents of pneumonia. Emerg Infect Dis. 2003;9:755-6. (20.) Greub G, Raoult D. Parachlamydiaceae: potential emerging pathogens. Emerg Infect Dis. 2002;8:625-30. (21.) Meduri GU, Mauldin GL, Wunderink RG, Leeper KV, Jones CB, Tolley E et al. Causes of fever and pulmonary densities in patients with clinical manifestations of ventilator-associated pneumonia. Chest. 1994;106:221-35. (22.) Bernard GR, Artigas A, Brigham KL, the Consensus Committee. The American-European consensus conference on ARDS: definitions, mechanisms, relevant outcomes, and the clinical trial co-ordination. Am J Respir Crit Care Med. 1994;149:818-24. (23.) Winn WC. Legionella. In: Press A, Murray PR, Baron E J, Pfaller MA, Tenover FC, Yolken RH, editors. Manual of clinical microbiology. 6th ed. Washington: American Society for Microbiology The American Society for Microbiology (ASM) is a scientific organization, based in the United States although with over 43,000 members throughout the world. It is the largest single life science professional organization and its members include those whose interests encompass basic ; 1995. p. 533-44. (24.) La Scola B, Michel G, Raoult D. Isolation of Legionella pneumophila by centrifugation Centrifugation A mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal of shell vial cell cultures from multiple liver and lung abscesses. J Clin Microbiol. 1999;37:785-7. (25.) Rowbotham TJ. Isolation of Legionella pneumophila from clinical specimens via amoeba amoeba: see ameba. amoeba One-celled protozoan that can form temporary extensions of cytoplasm (pseudopodia) in order to move about. Some amoebas are found on the bottom of freshwater streams and ponds. and the interaction of those and other isolates with amoebae. J Clin Pathol. 1983;36:978-86. (26.) Berdal BP, Farshy CE, Feeley JC. Detection of Legionella pneumophila antigen in urine by enzyme-linked-immunospecific assay. J Clin Microbiol. 1979;9:575-8. (27.) La Scola B, Raoult D. Afipia felis in hospital water supply in association with free-living amoebae. Lancet. 1999;353:1330. (28.) Martin W J, Smith TF. Rapid detection of cytomegalovirus in brochoalveolar lavage lavage /la·vage/ (lah-vahzh´) 1. the irrigation or washing out of an organ, as of the stomach or bowel. 2. to wash out, or irrigate. lav·age n. specimens by a monoclonal antibody monoclonal antibody, an antibody that is mass produced in the laboratory from a single clone and that recognizes only one antigen. Monoclonal antibodies are typically made by fusing a normally short-lived, antibody-producing B cell (see immunity) to a fast-growing method. J Clin Microbiol. 1986;23:1006-8. (29.) Szenasi Z, Yagiat EK, Nagy E. Isolation, identification and increasing importance of "free-living" amoebae causing human disease. J Med Microbiol. 1998;47:5-16. (30.) Winiecka-Krusnell J, Linder E. Free-living amoebae protecting Legionella in water: the tip of an iceberg? Scand J Infect Dis. 1999;31:383-5. (31.) Winiecka-Krusnell J, Linder E. Bacterial infections of free-living amoebae. Res Microbiol. 2001; 152:6134. (32.) Fagon JY, Chastre J, Hance AJ, Domart Y, Trouillet JL, Gilbert C. Evaluation of clinical judgment in the identification and treatment of nosocomial pneumonia in ventilated ven·ti·late tr.v. ven·ti·lat·ed, ven·ti·lat·ing, ven·ti·lates 1. To admit fresh air into (a mine, for example) to replace stale or noxious air. 2. patients. Chest. 1993;103:547-53. (33.) British Thoracic Society The British Thoracic Society (BTS) is a specialist medical society in the United Kingdom in the field of respiratory medicine. The society was formed in 1982 by the amalgamation of the British Thoracic Association and the Thoracic Society. Standards of Care Standards of care are medical or psychological treatment guidelines, and can be general or specific. They specify appropriate treatment protocols based on scientific evidence, and collaboration between medical and/or psychological professionals involved in the treatment of a given Committee. BTS BTS - Bug Tracking System guidelines for the management of community acquired pneumonia in adults. Thorax thorax, body division found in certain animals. In humans and other mammals it lies between the neck and abdomen and is also called the chest. The skeletal frame of the thorax is formed by the sternum (breastbone) and ribs in front and the dorsal vertebrae in back. . 2001 ;56(Suppl 4): 1-64. Pierre Berger, * ([dagger]) Laurent Papazian, ([double dagger]) Michel Drancourt, * ([dagger]) Bernard La Scola, * ([dagger]) Jean-Pierre Auffray, ([double dagger]) and Didier Raoult * ([dagger]) * Centre Hospitalier Universitaire La Timone, Marseille, France; ([dagger]) Universite de la Mediterranee, Marseille, France; and ([double dagger]) Hopital Sainte-Marguerite, Marseille, France Address for correspondence: Didier Raoult, Unite des Rickettsies, Faculte de Medecine, Universite de la Mediterranee, 27 Bd Jean Moulin, 13385 Marseille CEDEX 05, France; fax: 33-4-91-83-03-90; email: didier. raoult@medecine.univ-mrs.fr Dr Berger is an investigator in infectious disease Infectious disease A pathological condition spread among biological species. Infectious diseases, although varied in their effects, are always associated with viruses, bacteria, fungi, protozoa, multicellular parasites and aberrant proteins known as prions. epidemiology at the Unite des Rickettsies, Universite de la Mediterranee, in Marseille, France. His research interest is diagnostic strategy.
Table 1. Identification of 26 nonameba-associated microorganisms in 210
episodes of pneumonia
Definite, * Possible, ([dagger])
Microorganism no. (%) no. (%)
Community-acquired pneumonia
Bacteria
Acinetobacter baumanii 2 (1.4)
Chlamydia pneumoniae 1 (3.6) 2 (1.4)
C. psittacci 1 (3.6) 2 (1.4)
Enterobactercloacae 1 (0.7)
E. faecalis 1 (0.7)
Escherichia coli 2 (7.1) 2 (1.4)
Haemophilus influenzae 1 (3.6) 3 (2.1)
Mycobacterium tuberculosis 1 (3.6)
Pseudomonas aeruginosa 1 (3.6) 2 (1.4)
Serratia marcescens 1 (0.7)
Staphylococcus aureus 1 (3.6) 5 (3.5)
Streptococcus agalactiae 1 (0.7)
S. pneumoniae 3 (2.1)
Fungi
Pneumocystis carinii 3 (10.7)
Viruses ([double dagger])
Cytomegalovirus 2 (1.4)
Herpes simplex virus 1 4 (2.8)
Ventilator-associated pneumonia
Bacteria
A. baumanii 1 (0.7)
Balneatrix alpica 1 (3.6)
C. pneumoniae 1 (0.7)
Citrobacter koseri 1 (0.7)
Clostridium freundii 1 (0.7)
Coxiella burnetii 1 (0.7)
Enterobacter aerogenes 4 (2.8)
E. cloacae 5 (3.5)
E. coli 2 (7.1) 6 (4.2)
H. influenzae 1 (0.7)
Proteus mirabilis 3 (3.1)
Pseudomonas aeruginosa 9 (32.1) 31 (21.7)
Raoultella omithinolytica 1 (0.4)
S. marcescens 2 (1.4)
S. aureus 2 (7.1) 21 (14.7)
S. epidermidis 1 (3.6) 1 (0.7)
Stenotrophomonas maltophilia 5 (3.5)
S. agalactiae 1 (0.7)
S. pneumoniae 1 (3.6) 2 (1.4)
Fungi
Candida albicans 1 (3.6)
Viruses ([double dagger])
Cytomegalovirus 11 (7.7)
Herpes simplex virus 1 13 (9.1)
Total 28 (100.0) 143 (100.0)
Microorganism Total, no. (%)
Community-acquired pneumonia
Bacteria
Acinetobacter baumanii 2 (1.2)
Chlamydia pneumoniae 3 (1.8)
C. psittacci 3 (1.8)
Enterobactercloacae 1 (0.6)
E. faecalis 1 (0.6)
Escherichia coli 4 (2.3)
Haemophilus influenzae 4 (2.3)
Mycobacterium tuberculosis 1 (0.6)
Pseudomonas aeruginosa 3 (1.8)
Serratia marcescens 1 (0.6)
Staphylococcus aureus 6 (3.6)
Streptococcus agalactiae 1 (0.6)
S. pneumoniae 3 (1.8)
Fungi
Pneumocystis carinii 3 (1.8)
Viruses ([double dagger])
Cytomegalovirus 2 (1.2)
Herpes simplex virus 1 4 (2.3)
Ventilator-associated pneumonia
Bacteria
A. baumanii 1 (0.6)
Balneatrix alpica 1 (0.6)
C. pneumoniae 1 (0.6)
Citrobacter koseri 1 (0.6)
Clostridium freundii 1 (0.6)
Coxiella burnetii 1 (0.6)
Enterobacter aerogenes 4 (2.3)
E. cloacae 5 (2.9)
E. coli 8 (4.7)
H. influenzae 1 (0.6)
Proteus mirabilis 3 (1.8)
Pseudomonas aeruginosa 40 (23.4)
Raoultella omithinolytica 1 (0.6)
S. marcescens 2 (1.2)
S. aureus 23 (13.6)
S. epidermidis 2 (1.2)
Stenotrophomonas maltophilia 5 (2.9)
S. agalactiae 1 (0.6)
S. pneumoniae 3 (1.8)
Fungi
Candida albicans 1 (0.6)
Viruses ([double dagger])
Cytomegalovirus 11 (6.4)
Herpes simplex virus 1 13 (7.6)
Total 171 (100.0)
* Detection of M. tuberculosis or P. carinii by bronchioalveolar lavage
(BAL); simultaneous positive culture with BAL and blood culture;
positive for influenza viruses A and B, adenovirus, or C. burnetii
(immunoglobulin G2 [IgG2] titer [greater than or equal to] 1200, IgM2
[greater than or equal to] 1:50); 4-fold increase in antibody titer
between acute- and convalescent-phase serum; or seroconversion from 0
to 1:128 for C. psittacci, from 0 to 1:256 for C. pneumoniae, from 0 to
1 for M. pneumoniae, and from 0 to 1:100 for B. alpica.
([dagger]) Detection of a potentially pathogenic microorganism (M.
tuberculosis and P. carinii) by BAL and single or stable antibody titer
[greater than or equal to] 1:512 for Chlamydia spp., [greater than or
equal to] 1:2 for M. pneumoniae, and [greater than or equal to] 1:400
for 8. alpica.
([double dagger]) No epidemic of influenza virus A/B or adenovirus was
observed during the 18-month study period.
Table 2. Description of 18 cases of pneumonia with only identification
of ameba-associated microorganisms
High level of evidence Low level of evidence No.
Acanthamoeba polyphaga
mimivirus 5 *
Legionella pneumophila 1 ([dagger])
L. pneumophila L. anisa 1
Parachlamydia sp. Bosea thiooxydans, L. 1
boozemanii
Bosea massiliensis, L.
quinlivanii, L.
rubrilucens, L.
Worsleiensis Bradyrhizobium japonicum 1
L. pneumophila 4 *
L. bozemanii 2
Parachlamydia sp. 1
B. thiooxydans, B. japonicum, 1
Rasbo bacterium
L. pneumophila, L. 1
rubrilucens, B. massiliensis,
B. japonicum, R. bacterium
* One case of community-acquired pneumonia.
([dagger]) Community-acquired pneumonia.
Table 3. Description of 22 cases of pneumonia with identification of
ameba-associated and nonameba-associated microorganisms *
Ameba-associated level of evidence
High Low
Acanthamoeba polyphaga L. Pneumophila ([dagger])
mimivirus ([dagger]) L. pneumophila
A. polyphaga mimivirus Bosea massiliensis,
Mesorhizobium amorphae, Bradyrhizobium japonicum ([dagger])
Rasbo bacterium Parachlamydia sp.
Legionella pneumophila A. polyphaga mimivirus
L. anisa ([dagger]) A. polyphaga mimivirus
A. polyphaga mimivirus A. polyphaga mimivirus
A. polyphaga mimivirus
A. polyphaga mimivirus
A. polyphaga mimivirus
Bosea thiooxydans,
A. polyphaga mimivirus
B. massiliensis, B. japonicum,
R. bacterium
B. massilensis, B. japonicum
Bradyrhizobium liaoningense
B. liaoningense
B. liaoningense
Nonameba-associated identification
Definite Possible
Staphylococcus aureus ([dagger]) HSV1
Chlamydia pneumoniae Serratia marcescens ([dagger])
Pseudomonas aeruginosa, P. aeruginosa
Balneatrix alpica Streptococcus pneumoniae
P. Aeruginosa ([dagger]) Enterobacter cloacae,
Candida albicans C. pneumoniae
Escherichia coli ([dagger]) CMV
E. cloacae
E. aerogenes, P. aeruginosa
P. aeruginosa
S. aureus
S. aureus
Proteus mirabilis, S. aureus
HSV1
S. aureus
P. Aeruginosa
Stenotrophomonas maltophilia
* HSV1, herpes simplex virus 1; CMV, cytomegalovirus.
([dagger]) Community-acquired pneumonia.
Table 4. Identification of ameba-associated microorganisms in
pneumonia and level of evidence
High, no. Low, no. Total, no.
Microorganism (%) (%) (%)
Community-acquired
pneumonia
Bacteria
Bosea massiiiensis 1 (2.5) 1 (1.7)
Bradyrhizobium 1 (2.5) 1 (1.7)
japonicum
Legionella anisa 1 (5.3) 1 (1.7)
L. pneumophila 1 (5.3) 2 (5.0) 3 (5.1)
Virus
Acanthamoeba 2 (10.5) 2 (3.4)
polyphaga mimivirus
Ventilator-associated
pneumonia
Bacteria
B. massiiiensis 1 (5.3) 3 (3.7) 4 (6.8)
B. thiooxydans 3 (3.7) 3 (5.1)
B. japonicum 5 (12.5) 5 (8.5)
B. liaoningense 3 (7.5) 3 (5.1)
L. anisa 1 (2.5) 1 (1.7)
L. bozemanii 3 (7.5) 3 (5.1)
L. pneumophila 2 (10.5) 5 (12.5) 7 (11.9)
L. quinlivanii 1 (5.3) 1 (1.7)
L. rubrilucens 1 (5.3) 1 (2.5) 2 (3.4)
L. worsleiensis 1 (5.3) 1 (1.7)
Mesorhizobium 1 (5.3) 1 (1.7)
amorphae
Parachlamydiae 1 (5.3) 2 (5.0) 3 (5.1)
acanthamoebae
Rasbo bacterium 1 (5.3) 3 (7.5) 4 (6.8)
Virus
A. polyphaga mimivirus 6 (31.6) 7 (17.5) 13 (22.0)
Total 19 (100) 40 (100) 59 (100)
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