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Target Concepts:
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Query: UMLS:C0014118 (
endocarditis
)
15,629
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Over the last three decades, the literature pointed out the implications of Aeromonas species in human pathology. These species were described as being involved in intestinal (several outbreaks of acute gastroenteritis of choleric/dysenteric form or chronic diarrhoea, ulcerative colitis, etc.) in normal adults or children, as well as in extraintestinal infections in immunocompromised hosts. This last aspect included a large range of cutaneous injuries (micronecrosis, abscesses, bums, cellulites, furunculosis), joint, bones, respiratory, urinary tract, ocular infections up to meningitis,
endocarditis
, peritonitis, hepatobilliary disease, endotoxic shock and septicemia (as consequence of leech microvascular surgery). During the last decade, the literature reported a high mortality in Aeromonas infections determined by certain phenospecies (A. hydrophila and A. veronii) especially in extraintestinal infections in immunocompromised patients. In microbiologists' opinion this high rate of mortality was probably due to poor knowledge concerning the aspects of antibioresistance in Aeromonas strains, to empiric treatments with antibiotics to which these bacteria exhibiting constitutive resistance lead to insuccessful results, and at last to the increasing trend of aeromonads resistance to certain antibiotics after 1996. The literature mentioned also that for a great number of Beta-lactamase producing Aeromonas strains, the use of microdilution method (by comparison to disk diffusion in agar medium) giving false results made more difficult the true knowledge of Aeromonas antibioresistance patterns. At the same time, in 2002, the literature mentioned 4 ecological compartments considered as "reservoirs for dissemination and transfer of microbial antibioresistance i.e. humans, animals, plants and natural soil and water. In the last time, more and more data of the literature revealed that some bacteria with role of reservoir of antibioresistance in the natural environment, even without a direct medical impact, however they could play an indirect one remaining permanent sources of R genes for bacterial strains with pathogenic abilities implicated in human pathology (i.e. Aeromonas infections in man related to different professional activities such as fishing, surfing, swimming, diving, etc.). The purpose of this work was to determine the aspects related to constitutive and acquired antibioresistance in 35 A. hydrophila strains isolated in aquatic environment of Danube Delta (10 salmaster waters, 5 aquatic plants, 5 fish intestinal content, 5 fish sapling, 5 snake and oyster shells). The strains were biochemically identified by using API20E and API20NE kits. The antibioresistance spectrum was determined by disk diffusion method following NCCLS 2000 recommendations. The choice and disposal of antibiotics on the Mueller Hinton plate was done to allow the interpretive reading and the phenotypic detection of different antibioresistance mechanisms, as follows: beta-lactamases (PEN, ME, AMX, AMC, CAZ) and carbapenemase (
IMP
) production; porin deficiency (FOX); efflux mechanism (C, TE, NOR). All tested strains exhibited high resistance to penicillin, aspect pleading for constitutive penicillinase production in Aeromonas strains. With reference to other penicillins (ME, AMX, AMC) and cephalosporins (CAZ, FOX) the tested strains exhibited 2 different antibioresistance patterns: AMX-R, AMC-S, CAZ-S (65%) indicating the presence of beta-lactamase sensitive to inhibitors and AMX-R, AMC-R, CAZ-S (22%) indicating the presence of beta-lactamase resistant to inhibitors. Resistance to FOX in 8% of strains signifies a phenotypical marker for the presence of porin deficiency. Only one Aeromonas strain (2.8%) was resistant to
IMP
. Three strains (8%) were simultaneous resistant to TE and TMP/SMX, NOR and CHL probably due to the presence of a resistance plasmid (codifying an efflux/ enzymatic mechanism). These aspects are pleading for the necessity to investigate the bacterial antibioresistance patterns of bacterial strains isolated from the environment, in the purpose to identify the factors responsible for the spreading of certain antibioresistance mechanisms in the external medium as risk factors for the colonization process with possible impact upon the human pathology.
...
PMID:Aspects of constitutive and acquired antibioresistance in Aeromonas hydrophila strains isolated from water sources. 1600 42
Increasing reports of Acinetobacter infections that cause pneumonia, meningitis,
endocarditis
, and bacteriaemia underline the clinical importance of this pathogen. Members of the genus Acinetobacter, particularly Acinetobacter baumannii, are now recognized as significant nosocomial pathogens, particularly for the subset of critically-ill patients requiring mechanical ventilation in hospital intensive care units. A. baumannii has itself a quite high level of naturally-occurring antibiotic resistance. The organism can survive for long periods in the hospital environment including dry and humid areas. One of the most worrying antibiotic resistance problems in A. baumannii is the increasing trend of carbapenem resistance, present also in few Croatian hospitals. Infections caused by this Gram-negative bacillus are common in the intensive care units anticipated by colonized patients. The increasing trend of carbapenem resistance in A. baumannii could be mediated from metallo-beta-lactamases (VIM,
IMP
, and SIM), carbapenem-hydrolyzing oxacillinases (OXA), porin modifications for influx of carbapenems (33-kDa CarO protein) and/or often combined mechanisms of resistance. The investigation of the background of carbapenem resistance in relevant clinical isolates of A. baumannii from Split University Hospital confirmed present of carbapenem-hydrolyzing oxacillinases OXA-107 representing a more recent evolutionary adaptation OXA-51-like enzyme to antibiotic challenge with carbapenems.
...
PMID:[The review of carbapenem resistance in clinical isolates of Acinetobacter baumannii]. 2003 29
Acinetobacter baumannii
is a common cause of serious nosocomial infections. Although community-acquired infections are observed, the vast majority occur in people with preexisting comorbidities.
A. baumannii
emerged as a problematic pathogen in the 1980s when an increase in virulence, difficulty in treatment due to drug resistance, and opportunities for infection turned it into one of the most important threats to human health. Some of the clinical manifestations of
A. baumannii
nosocomial infection are pneumonia; bloodstream infections; lower respiratory tract, urinary tract, and wound infections; burn infections; skin and soft tissue infections (including necrotizing fasciitis); meningitis; osteomyelitis; and
endocarditis
.
A. baumannii
has an extraordinary genetic plasticity that results in a high capacity to acquire antimicrobial resistance traits. In particular, acquisition of resistance to carbapenems, which are among the antimicrobials of last resort for treatment of multidrug infections, is increasing among
A. baumannii
strains compounding the problem of nosocomial infections caused by this pathogen. It is not uncommon to find multidrug-resistant (MDR, resistance to at least three classes of antimicrobials), extensively drug-resistant (XDR, MDR plus resistance to carbapenems), and pan-drug-resistant (PDR, XDR plus resistance to polymyxins) nosocomial isolates that are hard to treat with the currently available drugs. In this article we review the acquired resistance to carbapenems by
A. baumannii
. We describe the enzymes within the OXA, NDM, VIM,
IMP
, and KPC groups of carbapenemases and the coding genes found in
A. baumannii
clinical isolates.
...
PMID:Carbapenemases: Transforming
Acinetobacter baumannii
into a Yet More Dangerous Menace. 3238 24
