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Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A controlled evaluation was made of the efficacy of
copper
-silver ionization in eradicating
Legionella
pneumophila from a hospital water supply.
Copper
-silver ionization units were installed on the hot water recirculation line of one building with water fixtures positive for
Legionella
species. Another building with the same water supply served as a control.
Legionella
species persisted within the system when
copper
and silver concentrations were < 0.3 and < 0.03 ppm, respectively. When
copper
and silver concentrations were > 0.4 and > 0.04 ppm, respectively, there was a significant decrease in
Legionella
species colonization, but the percentage of water fixtures positive for organisms was unchanged in the control building. When the ionization unit was inactivated, water fixtures continued to be free of
Legionella
species for 2 additional months.
Copper
-silver ionization can eradicate L. pneumophila in a water distribution system. The advantages of
copper
-silver ionization include relatively low cost, straightforward installation, easy maintenance, nontoxic by-products and the presence of a disinfecting residual.
...
PMID:Controlled evaluation of copper-silver ionization in eradicating Legionella pneumophila from a hospital water distribution system. 813 11
Legionella
pneumophila, the causative agent of
Legionnaires' disease
, contains two superoxide dismutases (SODs), a cytoplasmic iron enzyme (FeSOD) and a periplasmic
copper
-zinc SOD. To study the role of the FeSOD in L. pneumophila, the cloned FeSOD gene (sodB) was inactivated with Tn903dIIlacZ, forming a sodB::lacZ gene fusion. By using this fusion, expression of sodB was shown to be unaffected by a variety of conditions, including several that influence sod expression in Escherichia coli: aeration, oxidants, the redox cycling compound paraquat, manipulation of iron levels in the medium, and the stage of growth. A reproducible twofold decrease in sodB expression was found during growth on agar medium containing charcoal, a potential scavenger of oxyradicals, in comparison with growth on the same medium without charcoal. No induction was seen during growth in human macrophages. Additional copies of sodB+ in trans increased resistance to paraquat. Construction of a sodB mutant was attempted by allelic exchange of the sodB::lacZ fusion with the chromosomal copy of sodB. The mutant could not be isolated, and the allelic exchange was possible only if wild-type sodB was present in trans. These results indicate that the periplasmic
copper
-zinc SOD cannot replace the FeSOD. The data strongly suggest that sodB is an essential gene and that FeSOD is required for the viability of L. pneumophila. In contrast, Sod- mutants of E. coli and Streptococcus mutans grow aerobically and SOD is not required for viability in these species.
...
PMID:The iron superoxide dismutase of Legionella pneumophila is essential for viability. 820 58
A gas chromatographic-mass spectrometric method was used to detect
Legionella
pneumophila in biofilms in potable water containing a complex microbial consortium. The unique 3-hydroxy and 2,3-dihydroxy fatty acids of the L. pneumophila lipopolysaccharides (LPS) were detected in both the planktonic phase of the continuous culture model and in the biofilms forming on both
copper
and polyethylene substrata. The technique confirmed that lower numbers of
Legionella
colonised and grew on
copper
in comparison to polyethylene and offers promise for routine detection of
Legionella
in biofilms in the environment.
...
PMID:Detection of Legionella pneumophila in biofilms containing a complex microbial consortium by gas chromatography-mass spectrometry analysis of genus-specific hydroxy fatty acids. 826 63
Twelve patients in a large teaching hospital contracted
Legionnaires' disease
over a period of 11 months. The source was a domestic hot water system in one of the hospital blocks, which was run at a temperature of 43 degrees C. Five different subtypes of
Legionella
pneumophila serogroup 1 have been isolated from water in different parts of the hospital, over a period of time. Only one subtype, Benidorm RFLP 14, was implicated in disease. Circumstantial evidence suggested that the outbreak may have been due to recent colonization of the hot water system with a virulent strain of
Legionella
pneumophila. The outbreak was controlled by raising the hot water temperature to 60 degrees C, but careful surveillance uncovered two further cases in the following 30 months. Persistent low numbers of
Legionella
pneumophila were isolated from the domestic hot water of wards where
Legionnaires' disease
had been contracted, until an electrolytic unit was installed releasing silver and
copper
ions into this supply.
...
PMID:Outbreak of Legionnaires' disease at University Hospital, Nottingham. Epidemiology, microbiology and control. 843 14
Copper
-zinc superoxide dismutases (CuZnSODs) are infrequently found in bacteria although widespread in eukaryotes.
Legionella
pneumophila, the causative organism of
Legionnaires' disease
, is one of a small number of bacterial species that contain a CuZnSOD, residing in the periplasm, in addition to an iron SOD (FeSOD) in their cytoplasm. To investigate CuZnSOD function, we purified the enzyme from wild-type L. pneumophila, obtained amino acid sequence data from isolated peptides, cloned and sequenced the gene from a L. pneumophila library, and then constructed and characterized a CuZnSOD null mutant. In contrast to the cytoplasmic FeSOD, the CuZnSOD of L. pneumophila is not essential for viability. However, CuZnSOD is critical for survival during the stationary phase of growth. The CuZnSOD null mutant survived 10(4)- to 10(6)-fold less than wild-type L. pneumophila. In wild-type L. pneumophila, the specific activity of CuZnSOD increased during the transition from exponential to stationary-phase growth while the FeSOD activity was constant. These data support a role of periplasmic CuZnSOD in survival of L. pneumophila during stationary phase. Since L. pneumophila survives extensive periods of dormancy between growth within hosts. CuZnSOD may contribute to the ability of this bacterium to be a pathogen. In exponential phase, wild-type and CuZnSOD null strains grew with comparable doubling times. In cultured HL-60 and THP-1 macrophage-like cell lines and in primary cultures of human monocytes, multiplication of the CuZnSOD null mutant was comparable to that of wild type. This indicated that CuZnSOD is not essential for intracellular growth within macrophages or for killing of macrophages in those systems.
...
PMID:Periplasmic copper-zinc superoxide dismutase of Legionella pneumophila: role in stationary-phase survival. 862 84
A facultative intracellular parasite
Legionella
pneumophila has two kinds of superoxide dismutase (SOD), iron-containing superoxide dismutase (Fe-SOD) and
copper
,zinc-containing one (Cu,Zn-SOD). We cloned both SOD genes of L. pneumophila and determined their DNA sequences. The Fe-SOD gene (sodB), isolated by functional complementation of a SOD-deficient Escherichia coli strain, encoded a protein of 192 amino acids conserving the Fe-SOD-specific amino acid residues. A clone containing entire Cu,Zn-SOD gene (sodC) was constructed by connecting two contiguous DNA fragments; one with a lower part of the gene was obtained by colony hybridization with a probe acquired by polymerase chain reaction (PCR) with degenerate oligonucleotide primers corresponding to conserved regions of known Cu,Zn-SOD genes and the other with an upper part of the gene was by IPCR (inverted PCR). The sodC gene encoded a protein of 162 amino acids, of which the first 20 amino acids inferred a signal peptide similar to other bacterial Cu,Zn-SODs reported previously. Both clones expressed their SOD activities in E. coli K-12 through their own plausible promoters. We examined for SOD genes on chromosomes of several
Legionella
species. All chromosomes were hybridized with Fe-SOD gene of L. pneumophila, but Cu,Zn-SOD gene did not hybridize to the chromosomes of other than L. pneumophila strains.
...
PMID:Cloning and nucleotide sequences of iron and copper-zinc superoxide dismutase genes of Legionella pneumophila and their distribution among Legionella species. 908 94
In vitro studies were performed to give information about the required metal concentrations in decontaminating
Legionella
-loaded warm water systems with the electrochemical generation of Ag+ and
Cu2+
ions. The influence of Ag and Cu ions, as single compounds and in combination, on the survival of
Legionella
pneumophila (serogroup 6) was determined in tap water at 45 degrees C. Marked differences were detected in the action of these metals. Ag produced a much stronger inhibition than Cu. No additive effect was demonstrated when using Ag/Cu-combinations in the ratio of 1:10. In this case only the Ag-induced inhibition was detected. After 1 h of incubation at 45 degrees C a concentration of 80 + 800 micrograms/L Ag + Cu was needed to produce the maximal inhibitory effect (a 5 log decrease). An identical effect was seen after exposure to 20 + 200 micrograms/L Ag + Cu in the long-term action (24 h of incubation). The minimum inhibitory concentration after long-term incubation was 5 + 50 micrograms/L Ag + Cu. These metal concentrations produced a 1 log reduction. The in vitro results are discussed under consideration of earlier investigations after metering Ag and Cu into a
Legionella
-loaded water system and generated the following conclusions: In the beginning highly contaminated water systems at 45 degrees C need concentrations between 40 and 80 micrograms/L Ag + 400 to 800 micrograms/L Cu to kill Legionellas. After effective reduction of
Legionella
concentration of at least some logarithmic powers a slow constant maintenance concentration of 5 to 20 micrograms/L Ag + 50 to 200 micrograms/L Cu could be applied. At 22 degrees C the in vitro inactivation response is much lower. On the other hand in warm water systems with temperatures of 50 to 60 degrees C lower metal concentrations are sufficient.
...
PMID:[Effect of silver and copper ions on survival of Legionella pneumophila in tap water]. 940 4
One
copper
-silver ionization system was sequentially installed onto the hot-water recirculation lines of two hospital buildings colonized with
Legionella
pneumophila, serogroup 1. A third building with the same water supply and also colonized with
Legionella
served as a control. Four weeks after activation of the system, distal site positivity for
Legionella
in the first test building dropped to zero. After operating for 16 weeks, the system was disconnected and installed onto the second test building. Twelve weeks of disinfection reduced the distal site positivity for
Legionella
in the second test building to zero.
Legionella
recolonization did not occur in the first test building for 6-12 weeks and in the second test building for 8-12 weeks after inactivation of the system. The control building remained
Legionella
-positive throughout the experimental period. A significantly higher
copper
concentration was found in the biofilm taken from a sampling device than in that from water. This is likely to be the reason that the
copper
-silver ionization system had the residual effect of preventing early recolonization. Our study raises the possibility that one
copper
-silver unit could be rotated among several buildings to maintain a
Legionella
-free environment. Such an approach may be cost-effective for buildings housing individuals at low risk for contracting legionnaires' disease.
...
PMID:Intermittent use of copper-silver ionization for Legionella control in water distribution systems: a potential option in buildings housing individuals at low risk of infection. 945 22
Legionella
have a predilection for infecting immunocompromised patients, and transplant recipients have the highest risk.
Legionella
spp have been the most common cause of nosocomial pneumonia among transplant recipients at selected medical centers. Diagnosis is dependent on the ability of the clinical microbiology laboratory to isolate the organism by culture; therefore, the disease is easily overlooked. The mode of transmission of
Legionella
pneumophila is likely aspiration in transplant recipients. Clinical manifestations are similar to that of other bacterial pneumonias, although diarrhea is often prominent. The quinolone antibiotics (especially ciprofloxacin) are the antibiotics of choice because, unlike the macrolides or rifampin, they do not interact with the immunosuppressive agents used to counter rejection. Prevention of nosocomial legionellosis involves disinfection of the hospital's potable water system. Effective disinfection methods include superheat and flush or
copper
-silver ionization; hyperchlorination is no longer recommended. Routine culture surveillance directed at the hospital water supply for
Legionella
is mandatory in hospitals caring for transplant patients.
...
PMID:Legionella: a major opportunistic pathogen in transplant recipients. 964 91
Hospital-acquired legionnaires' disease arises from the presence of
Legionella
in hospital water systems.
Legionella
not only persists in hot water tanks but is also found in the biofilm throughout the entire water distribution system. Conditions within water systems that promote
Legionella
colonization include water temperature, configuration and age of the hot water tank, physicochemical constituents of the water, plumbing materials, and commensal microflora. Hospital-acquired legionnaires' disease has been prevented by instituting control measures directed at the water distribution system. These include superheat-and-flush,
copper
/silver ionization, ultraviolet light, instantaneous heating systems, and hyperchlorination. Each of the above disinfection methods has been proven to be effective in the short-term, but long-term efficacy has been difficult due to limitations associated with each method. The complexities of
Legionella
disinfection, including advantages and disadvantages of each method, are reviewed. A successful
Legionella
prevention program requires cooperation and communication among hospital administrative personnel, engineers, and infection control staff. Routine environmental surveillance cultures for
Legionella
are the critical component for successful long-term disinfection. Culture results document the efficacy of the disinfection method and alert the hospital staff to consider
Legionella
in hospitalized patients with pneumonia.
...
PMID:Disinfection of water distribution systems for Legionella. 964 93
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