Legionnaires' Disease
Legionella
Legionella pneumophila
Air Conditioning
Legionella longbeachae
Water Microbiology
Baths
Water Supply
Disease Outbreaks
Hartmannella
Serotyping
Community-Acquired Infections
Bilateral pleuritis caused by Legionella micdadei. (1/160)
A 58-year-old woman was hospitalized because of progressive respiratory distress. She had a history of myasthenia gravis and invasive thymoma. After thymectomy, she had been administered oral prednisolone and intrathoracic anti-cancer drugs postoperatively. Her chest radiograph revealed bilateral pleural effusions. Legionella micdadei (L. micdadei) was isolated from the pleural effusions, and she was diagnosed as pleuritis caused by L. micdadei. She died despite intensive therapy with mechanical ventilation, drainage tube in the chest and intravenous erythromycin. Although only two cases of Legionellosis caused by L. micdadei have been reported in Japan, clinicians should be aware of L. micdadei as one of the candidates for infection in immunosuppressed hosts. (+info)Usefulness of fatty acid composition for differentiation of Legionella species. (2/160)
Numerical analysis of fatty acid methyl ester (FAME) profiles of 199 isolates and 76 reference strains, belonging to all validly described species of the genus Legionella that can be cultured in laboratory media, was used to differentiate between the species of this genus. With the exception of the strains that autofluoresced red, it was possible to differentiate all the other Legionella species. The strains of the species L. bozemanii, L. dumoffii, L. feeleii, L. gormanii, L. maceachernii, L. micdadei, and L. quinlivanii did not form single clusters, showing some degree of variability in the fatty acid compositions. The strains of the blue-white autofluorescent species had very similar fatty acid compositions and were difficult to distinguish from each other. Nine isolates had fatty acid profiles unlike those of any of the validly described species and may represent different FAME groups of known species or undescribed Legionella species. The method used in this study was useful for screening and discriminating large number of isolates of Legionella species. Moreover, the results obtained can be included in a database of fatty acid profiles, leading to a more accurate automatic identification of Legionella isolates. (+info)Detection of Legionella species in respiratory specimens using PCR with sequencing confirmation. (3/160)
Legionella spp. are a common cause of community-acquired respiratory tract infections and an occasional cause of nosocomial pneumonia. A PCR method for the detection of legionellae in respiratory samples was evaluated and was compared to culture. The procedure can be performed in 6 to 8 h with a commercially available DNA extraction kit (Qiagen, Valencia, Calif.) and by PCR with gel detection. PCR is performed with primers previously determined to amplify a 386-bp product within the 16S rRNA gene of Legionella pneumophila. We can specifically detect the clinically significant Legionella species including L. pneumophila, L. micdadei, L. longbeachae, L. bozemanii, L. feeleii, and L. dumoffii. The assay detects 10 fg (approximately two organisms) of legionella DNA in each PCR. Of 212 clinical specimens examined by culture, 100% of the culture-positive samples (31 of 31) were positive by this assay. By gel detection of amplification products, 12 of 181 culture-negative samples were positive for Legionella species by PCR, resulting in 93% specificity. Four of the 12 samples with discrepant results (culture negative, PCR positive) were confirmed to be positive for Legionella species by sequencing of the amplicons. The legionella-specific PCR assay that is described demonstrates high sensitivity and high specificity for routine detection of legionellae in respiratory samples. (+info)Search for agents causing atypical pneumonia in HIV-positive patients by inhibitor-controlled PCR assays. (4/160)
Pneumonia is one of the most frequent complications in acquired immunodeficiency syndrome-patients with Pneumocystis carinii as the leading cause. The true prevalence of atypical agents such as Chlamydia pneumoniae, C. trachomatis, Legionella pneumophila and Mycoplasma pneumoniae in this population of patients is unknown as the currently used method for diagnosing these agents is measurement of antibody levels. However, this method is of limited value in human immunodeficiency virus (HIV)-positive patients who may have a compromised antibody response. To evaluate the prevalence of Chlamydia spp., Legionella spp. and M. pneumoniae in HIV-infected patients with pulmonary disease, this retrospective study has applied inhibitor-controlled polymerase chain reaction analyses on 103 bronchoalveolar lavage (BAL) fluids representing 103 episodes of pneumonia in 83 HIV-positive patients. L. pneumophila was detected in 1% of the BAL fluids and M. pneumoniae was found as a coexisting pathogen in 2% of the samples. Chlamydia spp. could not be detected in any of the BAL fluids. By culture and staining methods 106 other microorganisms were detected with P. carinii and Streptococcus pneumoniae as the most frequently occurring. Pneumonia due to Chlamydia pneumoniae, Legionella pneumophila or Mycoplasma pneumoniae seems to be rare in Danish human immunodeficiency virus-infected patients, but might be considered as a possible cause in cases of treatment failure. (+info)Occurrence and distribution of Legionella species in composted plant materials. (5/160)
Legionellae were found in many samples of composted plant matter obtained from home gardeners and from facilities which undertook bulk composting. The predominant species isolated from these composts was Legionella pneumophila, the strains of which belonged to serogroups other than serogroup 1. Other Legionella species were present in many samples. Legionella longbeachae serogroup 1, which is implicated in human infections in South Australia, was present in samples obtained from two of six facilities composting large volumes of material and from 3 of 30 gardeners. Many of the species or strains isolated from composts have not been implicated as causative agents of legionellosis in South Austrailia, but some cause infection in healthy and immunosuppressed persons. (+info)Rapid identification of clinically relevant Legionella spp. by analysis of transfer DNA intergenic spacer length polymorphism. (6/160)
Analysis of PCR-amplified transfer DNA (tDNA) intergenic spacers was evaluated as a rapid method for identification to the species level of 18 species of Legionella known as human pathogens. Type strains (n = 19), reference strains (n = 16), environmental strains (n = 31), and clinical strains (n = 32) were tested. PCR products using outwardly directed tDNA consensus primers were separated on polyacrylamide gels and analyzed with automated laser fluorescence. Test results were obtained in 8 h starting with 72-h-old bacterial growth on solid medium. Species-specific patterns were obtained for all 18 Legionella species tested: Legionella anisa, L. bozemanii serogroups 1 and 2, L. cincinnatiensis, L. dumoffii, L. feeleii serogroups 1 and 2, L. gormanii, L. hackeliae serogroups 1 and 2, L. jordanis, L. lansingensis, L. longbeachae serogroups 1 and 2, L. lytica, L. maceachernii, L. micdadei, L. oakridgensis, L. parisiensis, L. pneumophila serogroups 1 to 14, L. sainthelensi serogroup 2, L. tucsonensis, and L. wadsworthii. Computer-assisted matching of tDNA-intergenic length polymorphism (ILP) patterns identified all 63 environmental and clinical strains to the species level and to serogroup for some strains. tDNA-ILP analysis is proposed as a routinely applicable method which allows rapid identification of environmental and clinical isolates of Legionella spp. associated with legionellosis. (+info)Isolation of Legionella anisa using an amoebic coculture procedure. (7/160)
Conventional diagnostic tests for legionellosis were negative for a 61-year-old immunocompromised man with pneumonia. However, coculture of a sputum sample with Acanthamoeba polyphaga amoebae led to the recovery of Legionella anisa. This procedure may be a sensitive and convenient diagnostic method, especially for non-Legionella pneumophila species infections that can be diagnosed only by culture. (+info)Emerging waterborne infections in health-care settings. (8/160)
Water is used in vast quantities in health-care premises. Many aquatic microorganisms can survive and flourish in water with minimal nutrients and can be transferred to vulnerable hospital patients in direct (e.g., inhalation, ingestion, surface absorption) and indirect ways (e.g., by instruments and utensils). Many outbreaks of infection or pseudoinfection occur through lack of prevention measures and ignorance of the source and transmission of opportunistic pathogens. (+info)Legionellosis is a bacterial infection caused by the species Legionella, most commonly Legionella pneumophila. It can manifest in two main clinical syndromes: Legionnaires' disease and Pontiac fever.
Legionnaires' disease is a severe form of pneumonia characterized by cough, high fever, chills, muscle aches, and headaches. Other symptoms may include chest pain, shortness of breath, confusion, and gastrointestinal problems such as diarrhea, nausea, and vomiting. It is often associated with exposure to contaminated water sources like cooling towers, hot tubs, and decorative fountains.
Pontiac fever, on the other hand, is a milder form of legionellosis that causes flu-like symptoms without pneumonia. Symptoms typically include fever, chills, headache, and muscle aches, but they usually resolve within 2 to 5 days without specific treatment.
Both forms of legionellosis are transmitted through inhalation of contaminated aerosols or droplets, and prompt diagnosis and appropriate antibiotic therapy are essential for the management of Legionnaires' disease.
Legionnaires' disease is a severe and often lethal form of pneumonia, a lung infection, caused by the bacterium Legionella pneumophila. It's typically contracted by inhaling microscopic water droplets containing the bacteria, which can be found in various environmental sources like cooling towers, hot tubs, whirlpools, decorative fountains, and large plumbing systems. The disease is not transmitted through person-to-person contact. Symptoms usually appear within 2-10 days after exposure and may include cough, fever, chills, muscle aches, headache, and shortness of breath. Some individuals, particularly those with weakened immune systems, elderly people, and smokers, are at higher risk for developing Legionnaires' disease. Early diagnosis and appropriate antibiotic treatment can improve the chances of recovery. Preventive measures include regular testing and maintenance of potential sources of Legionella bacteria in buildings and other facilities.
Legionella is the genus of gram-negative, aerobic bacteria that can cause serious lung infections known as legionellosis. The most common species causing disease in humans is Legionella pneumophila. These bacteria are widely found in natural freshwater environments such as lakes and streams. However, they can also be found in man-made water systems like cooling towers, hot tubs, decorative fountains, and plumbing systems. When people breathe in small droplets of water containing the bacteria, especially in the form of aerosols or mist, they may develop Legionnaires' disease, a severe form of pneumonia, or Pontiac fever, a milder flu-like illness. The risk of infection increases in individuals with weakened immune systems, chronic lung diseases, older age, and smokers. Appropriate disinfection methods and regular maintenance of water systems can help prevent the growth and spread of Legionella bacteria.
"Legionella pneumophila" is a species of Gram-negative, aerobic bacteria that are commonly found in freshwater environments such as lakes and streams. It can also be found in man-made water systems like hot tubs, cooling towers, and decorative fountains. This bacterium is the primary cause of Legionnaires' disease, a severe form of pneumonia, and Pontiac fever, a milder illness resembling the flu. Infection typically occurs when people inhale tiny droplets of water containing the bacteria. It is not transmitted from person to person.
Air conditioning is the process of controlling and maintaining a comfortable indoor environment through the regulation of temperature, humidity, air movement, and cleanliness. It typically involves the use of mechanical systems that circulate and treat air to meet specific comfort requirements. The goal of air conditioning is to provide a comfortable, healthy, and productive indoor environment while also saving energy and reducing environmental impact.
In medical terms, air conditioning can be particularly important in healthcare settings such as hospitals and clinics, where maintaining proper temperature and humidity levels is essential for the health and well-being of patients and staff. Proper air conditioning can help prevent the growth of bacteria, viruses, and mold, reduce the spread of airborne particles, and minimize the risk of infection and illness.
Air conditioning systems in healthcare facilities may include specialized components such as HEPA filters, UV germicidal irradiation, and humidity control to provide a higher level of air quality and protection against infectious diseases. Regular maintenance and testing of these systems is also critical to ensure their proper functioning and to maintain a safe and healthy indoor environment.
Legionella longbeachae is a species of gram-negative, aerobic bacteria that can cause respiratory infections in humans. It is one of the several species within the genus Legionella, which includes the more well-known Legionella pneumophila, the primary cause of Legionnaires' disease.
Legionella longbeachae is commonly found in soil and compost, particularly in moist or wet environments. It can be transmitted to humans through inhalation of aerosolized water droplets or soil particles contaminated with the bacteria. This can occur during activities such as gardening, landscaping, or handling contaminated potting mixes or composts.
The infection caused by Legionella longbeachae is known as Pontiac fever or legionellosis, which typically presents as a milder respiratory illness compared to Legionnaires' disease. Symptoms may include fever, cough, headache, muscle aches, and shortness of breath. In some cases, particularly among individuals with weakened immune systems, the infection can progress to pneumonia, leading to severe illness or even death.
Preventive measures for Legionella longbeachae infections involve using appropriate personal protective equipment (PPE) when handling contaminated soil or compost and ensuring adequate ventilation during such activities. Additionally, wet or moist environments where the bacteria may thrive should be properly maintained to minimize the risk of infection.
Water microbiology is not a formal medical term, but rather a branch of microbiology that deals with the study of microorganisms found in water. It involves the identification, enumeration, and characterization of bacteria, viruses, parasites, and other microscopic organisms present in water sources such as lakes, rivers, oceans, groundwater, drinking water, and wastewater.
In a medical context, water microbiology is relevant to public health because it helps to assess the safety of water supplies for human consumption and recreational activities. It also plays a critical role in understanding and preventing waterborne diseases caused by pathogenic microorganisms that can lead to illnesses such as diarrhea, skin infections, and respiratory problems.
Water microbiologists use various techniques to study water microorganisms, including culturing, microscopy, genetic analysis, and biochemical tests. They also investigate the ecology of these organisms, their interactions with other species, and their response to environmental factors such as temperature, pH, and nutrient availability.
Overall, water microbiology is a vital field that helps ensure the safety of our water resources and protects public health.
A bath generally refers to the act of immersing or cleaning the body in a mixture of water and sometimes other substances, such as soap or essential oils. In a medical context, there are several types of therapeutic baths that may be prescribed for various purposes:
1. Sitz bath: A shallow bath that only covers the hips and buttocks, used to treat conditions like hemorrhoids, anal fissures, or other localized infections.
2. Hydrotherapy bath: A therapeutic bath using water at different temperatures, pressures, or with added substances (e.g., Epsom salts, essential oils) for relaxation, pain relief, or to improve circulation and promote healing.
3. Balneotherapy: The use of mineral-rich waters from natural springs or artificial mineral baths for therapeutic purposes, often used in the treatment of skin conditions, arthritis, or musculoskeletal disorders.
4. Medicated bath: A bath with added medical substances (e.g., medicated oils, salts) to treat various skin conditions, promote relaxation, or relieve pain.
5. Whirlpool bath: A therapeutic bath using water jets to create a swirling motion and provide hydrotherapy benefits for relaxation, pain relief, or improved circulation.
It is essential to follow medical advice when taking therapeutic baths, as incorrect usage can lead to adverse effects.
I'm sorry for any confusion, but "water supply" is not a medical term per se. It is a general term used to describe the system or arrangement providing water for consumption or use, such as a public water supply system or a private well. However, in a medical context, it could refer to the source of water used in a healthcare facility for drinking, cooking, cleaning, and patient care, which must meet certain quality standards to prevent infection and ensure safety.
A disease outbreak is defined as the occurrence of cases of a disease in excess of what would normally be expected in a given time and place. It may affect a small and localized group or a large number of people spread over a wide area, even internationally. An outbreak may be caused by a new agent, a change in the agent's virulence or host susceptibility, or an increase in the size or density of the host population.
Outbreaks can have significant public health and economic impacts, and require prompt investigation and control measures to prevent further spread of the disease. The investigation typically involves identifying the source of the outbreak, determining the mode of transmission, and implementing measures to interrupt the chain of infection. This may include vaccination, isolation or quarantine, and education of the public about the risks and prevention strategies.
Examples of disease outbreaks include foodborne illnesses linked to contaminated food or water, respiratory infections spread through coughing and sneezing, and mosquito-borne diseases such as Zika virus and West Nile virus. Outbreaks can also occur in healthcare settings, such as hospitals and nursing homes, where vulnerable populations may be at increased risk of infection.
Hartmannella is a genus of free-living amoebae, which are single-celled organisms found in soil and water. These amoebae are known to be able to ingest bacteria and other small particles as part of their feeding process. While they are generally harmless to humans, some species of Hartmannella have been associated with certain types of human illnesses, such as Acanthamoeba keratitis, a rare but serious eye infection that can cause blindness if left untreated. However, it is important to note that Hartmannella itself is not typically considered a pathogenic genus and is mainly studied in the context of environmental and microbiological research.
Serotyping is a laboratory technique used to classify microorganisms, such as bacteria and viruses, based on the specific antigens or proteins present on their surface. It involves treating the microorganism with different types of antibodies and observing which ones bind to its surface. Each distinct set of antigens corresponds to a specific serotype, allowing for precise identification and characterization of the microorganism. This technique is particularly useful in epidemiology, vaccine development, and infection control.
Bacterial antibodies are a type of antibodies produced by the immune system in response to an infection caused by bacteria. These antibodies are proteins that recognize and bind to specific antigens on the surface of the bacterial cells, marking them for destruction by other immune cells. Bacterial antibodies can be classified into several types based on their structure and function, including IgG, IgM, IgA, and IgE. They play a crucial role in the body's defense against bacterial infections and provide immunity to future infections with the same bacteria.
I'm sorry for any confusion, but "rain" is not a medical term. In general, rain refers to water droplets that fall from the sky as part of the Earth's weather cycle. These drops form when moisture in the air condenses and cools, creating clouds which eventually become heavy enough to release the collected water.
If you have any medical concerns or questions, I'd be happy to try and help answer those for you!
Bacterial antigens are substances found on the surface or produced by bacteria that can stimulate an immune response in a host organism. These antigens can be proteins, polysaccharides, teichoic acids, lipopolysaccharides, or other molecules that are recognized as foreign by the host's immune system.
When a bacterial antigen is encountered by the host's immune system, it triggers a series of responses aimed at eliminating the bacteria and preventing infection. The host's immune system recognizes the antigen as foreign through the use of specialized receptors called pattern recognition receptors (PRRs), which are found on various immune cells such as macrophages, dendritic cells, and neutrophils.
Once a bacterial antigen is recognized by the host's immune system, it can stimulate both the innate and adaptive immune responses. The innate immune response involves the activation of inflammatory pathways, the recruitment of immune cells to the site of infection, and the production of antimicrobial peptides.
The adaptive immune response, on the other hand, involves the activation of T cells and B cells, which are specific to the bacterial antigen. These cells can recognize and remember the antigen, allowing for a more rapid and effective response upon subsequent exposures.
Bacterial antigens are important in the development of vaccines, as they can be used to stimulate an immune response without causing disease. By identifying specific bacterial antigens that are associated with virulence or pathogenicity, researchers can develop vaccines that target these antigens and provide protection against infection.
Community-acquired infections are those that are acquired outside of a healthcare setting, such as in one's own home or community. These infections are typically contracted through close contact with an infected person, contaminated food or water, or animals. Examples of community-acquired infections include the common cold, flu, strep throat, and many types of viral and bacterial gastrointestinal infections.
These infections are different from healthcare-associated infections (HAIs), which are infections that patients acquire while they are receiving treatment for another condition in a healthcare setting, such as a hospital or long-term care facility. HAIs can be caused by a variety of factors, including contact with contaminated surfaces or equipment, invasive medical procedures, and the use of certain medications.
It is important to note that community-acquired infections can also occur in healthcare settings if proper infection control measures are not in place. Healthcare providers must take steps to prevent the spread of these infections, such as washing their hands regularly, using personal protective equipment (PPE), and implementing isolation precautions for patients with known or suspected infectious diseases.
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