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Query: UMLS:C0036690 (
sepsis
)
59,461
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
One hundred Escherichia coli isolates from human
septicemia
were characterized with respect to O serogroups 1, 2, 4, 6, 7, 8, 15, 18, 75 and 78, alpha-hemolysin, carboxylesterase B typing, cytotoxic necrotizing factor, F165 and CS31A fimbrial antigens, aerobactin production, colicins, and antibiotic sensitivity. A factorial analysis of correspondence and chi 2 tests indicated that most of E. coli isolates belonging to the studied O serogroups were positive for the virulence factors or markers alpha-haemolysin, carboxylesterase B2 type, cytotoxic necrotizing factor, F165 fimbrial antigen and were antibiotic-sensitive (Group I). These characteristics differentiated them from E. coli isolates from other O serogroups which were generally antibiotic resistant and negative for the cited virulence factors and markers (Group II).
Aerobactin
and colicin production did not differentiate the two E. coli groups. E. coli O serogroups 4 and 6 were highly represented in group I and were responsible for most of the differences between the two groups.
...
PMID:Factors and markers of virulence in Escherichia coli from human septicemia. 222 63
Employing chicken and several strains of mice, different routes (intraperitoneal, subcutaneous) of infections and isogenic pairs of strains, association of virulence markers with animal pathogenicity was studied in Escherichia coli. Mouse virulence of avian strains was less significant than the lethality for chicks of human strains. LD50 in various animals did not differ significantly. Strains with antigen K1 were more virulent for mice than their K1- derivatives. Loss of haemolysin (Hly), mannose resistant haemagglutinating capacity or antigen K5 less markedly decreased the virulence. As opposed to other virulence factors, increased virulence of K1+ strains could also be demonstrated in mouse
sepsis
assay based on bacterial counts in the liver. Loss of Hly alone did not influence the persistence in the liver, however, these strains killed less mice.
Aerobactin
acts together with other factors, it is not per se a virulence factor. In organotropic experiments 19 strains out of 36 belonging to serotypes O7:K1:H-, O18:K1:H-, O78:H- and spontaneously agglutinable K1+ cultures, caused ophthalmitis with purulent discharge, and 4 out of 22 strains that belonged to serotype O78:H- induced uncoordinated movement of mice. Because of its special organotropic affinity to the brain and as it caused two epidemics of meningitis among newborns in Hungary, serotype O78:H- has a special pathogenic property and differs from other O78 strains that were isolated in other countries.
...
PMID:Association of virulence markers with animal pathogenicity of Escherichia coli in different models. 227 Jul 40
Introduction:
Klebsiella pneumoniae
is one of the most important infectious agents in neonates. There are "classic" and hypervirulent strains of
K. pneumoniae
. The "classic" non-virulent strain of
K. pneumoniae
, producing extended-spectrum beta-lactamases (ESBLs), is associated with nosocomial infections. Hypervirulent
K. pneumoniae
strains are associated with invasive infections in previously healthy adult people, and most of them exhibit antimicrobial susceptibility. The role of virulent strains of
K. pneumoniae
(including hv-KP) in neonatal infections is unknown. The aim of the study was the assessment of the impact of virulence factors and antibiotic resistance of
K. pneumoniae
strains on clinical features and outcomes of neonatal infection.
Materials and Methods:
Two groups of infants were enrolled. The first group consisted of 10 neonates with
sepsis
caused by
K. pneumoniae
. The second group consisted of 10 neonates with urinary tract infection (UTI) caused by
K. pneumoniae
. We investigated the susceptibility of
K. pneumoniae
isolates to antibiotics, the ability of the microorganism to produce ESBL, and virulence factors, including the
rmpA
gene, aerobactin, and colibactin genes. In neonates with
sepsis
, we investigated
K. pneumoniae
isolates, which was taken from the blood, in neonates with UTI-from the urine.
Results:
In neonates with
sepsis
testing of
K. pneumoniae
isolates for ESBL production was positive in 60% of cases, in neonates with UTI-in 40% of cases. All blood and urine ESBL producing
K. pneumoniae
isolates were resistant to ampicillins, including protected ones, and third-generation cephalosporins. At the same time, these isolates were sensitive to meropenem, amikacin, and ciprofloxacin. The
rmpA
gene was detected in four blood, and three urine
K. pneumoniae
isolates. In neonates with
sepsis
rmpA
gene in two cases was detected in ESBL-producing
K. pneumoniae
isolates. They were infants with meningitis, and both cases were fatal. In the group of infants with UTI, the
rmpA
gene was detected only in
K. pneumoniae
isolates not producing ESBL.
Aerobactin
and colibactin genes were detected in two neonates with
sepsis
and in three neonates with UTI. In all cases, aerobactin and colibactin genes were detected only in
rmpA
-positive
K. pneumoniae
isolates. Out of three fatal outcomes, two cases were caused by hv-KP producing ESBL.
Conclusion:
The prevalence of virulent strains of
K. pneumoniae
among neonates with
sepsis
and other neonatal infection is higher than we think. The most severe forms of neonatal
sepsis
with an unfavorable outcome in our study were due to virulent strains of
K. pneumoniae
.
...
PMID:Virulence Factors and Antibiotic Resistance of
Klebsiella pneumoniae
Strains Isolated From Neonates With Sepsis. 3015 66
