Enterobacteriaceae Infections Clinical Trial
Official title:
Epidemiology of Extended-spectrum ß-lactamase (ESBL)-Producing Enteric Gram-negative Bacilli in Swiss Children
Objectives:
The aim of the study is to determine the molecular epidemiology and genetic variability of
ESBL-producing enterobacteriaceae (E-ESBL) among children in Switzerland and to estimate the
associated clinical burden of disease.
The investigators' hypotheses are:
1. The genetic variability (and especially the distribution of strains harbouring the
CTX-M genes) among children is similar to that observed in adults;
2. The overall burden of disease is still low in Switzerland compared to neighbouring
countries. However, treatment of severe E-ESBL infections is challenging;
3. The recommended oral treatment procedure with 3rd generation cephalosporins for febrile
urinary tract infection may contribute to increased prevalence of E-ESBL in the long
term.
The study is scheduled to start July 1st, 2008, and end June 30th, 2010.
Background & Rationale:
Increasing resistance to antibiotics is a growing problem in public health and is associated
with treatment failures, increased health care costs, and prolonged hospital stays. Over the
past years, one mechanism of resistance has been of particular concern: ESBL, which is
produced mainly by Escherichia coli and Klebsiella species but also found in other gram
negative bacteria. ESBLs are plasmid-encoded ß-lactamases conferring resistance to
penicillins, cephalosporins and aztreonam.
ESBL-producing enterobacteria are usually susceptible to carbapenems, such as ertapenem,
imipenem or meropenem. Thus, treatment with carbapenems remains safe if the presence of ESBL
is recognized. However, the confirmation of ESBL is not always a routine procedure in all
laboratories. Furthermore, ESBL strains with high resistance to ertapenem and decreased
activity to imipenem and meropenem have already been described. The mechanism among these
strains however, appears to be a combination of the expression of ESBL and impermeability or
increased efflux for carbapenems. Infection with ESBL-producing E. coli or K. pneumoniae is
potentially hazardous for patients. Mortality is significantly higher following a
bloodstream infection caused by ESBL producing E. coli compared to non-ESBL producing
strains.
ESBLs are encoded on plasmids: classically, these plasmid mediated enzymes have been of the
TEM and SHV type. However, in recent years CTX-M-type ESBLs have been increasingly
identified worldwide throughout the world. CTX-M enzymes predominantly hydrolyze cefotaxime,
but are weakly active against ceftazidime. However, some ESBLs of the CTX-M family also
display increased hydrolytic activities against ceftazidime, as is the case for CTXM-15 and
CTX-M-32.
The prevalence of ESBL producing enterobacteria and particularly E. coli has significantly
increased in recent years. This increase is primarily due to the spread of ESBL of the
CTX-M-type. Genes encoding CTX-M enzymes are associated with mobile genetic elements
allowing these enzymes to spread throughout the community. Well established primer sets are
used in polymerase chain reaction (PCR) tests for the detection of the blaTEM, blaSHV, and
blaCTX-M genes, and are used to differentiate ESBL strains.
ESBL-producing organisms were first detected in Europe in the 1980s. Although the initial
reports came from Germany, the vast majority of descriptions in that first decade came from
France. Consequently, it was not surprising that the first large outbreak occurred in France
in 1986. Other outbreaks with ESBL-producing organisms have now been reported from almost
every European country. In southern Europe, the prevalence of ESBL in hospitals is estimated
around 25% for Klebsiella species, while in the community it is 1.7% for E. coli, and 4% for
K. pneumoniae. In the USA, ESBL-producing organisms were first reported in 1988. Similarly
to Europe, these strains expanded over the following years, and in 2002, 6.1% of the K.
pneumoniae isolates were found to be resistant to third-generation cephalosporins.
Furthermore, in at least one tenth of intensive care units, ESBL producing K. pneumoniae
quickly exceeded 25% of all isolated strains. In contrast, in regular inpatient areas
prevalence rates remained around 5.7% of all isolated K. pneumoniae. ESBL strains have also
been documented in South Africa, Israel, Saudi Arabia, and a variety of North African
countries. In South America, the SENTRY antimicrobial surveillance program recovered ESBL in
up to 10% of E. coli and 55% of K. pneumoniae. National surveys in Asia have revealed the
presence of ESBL-producers in 5 to 8% of E. coli in Korea, Japan, Malaysia, and Singapore
and in 12 to 24% in Thailand, Taiwan, the Philippines, and Indonesia. The prevalence in
China ranged between 27% and 34% for E. coli and up to 38.3% for K. pneumoniae already in
2002.
This worldwide distribution is reflected by the fact that ESBL producing enterobacteria are
present in the community, and in adult as well as in children's hospitals. However, in this
younger population, ESBL-producing strains are isolated not exclusively but essentially in
neonatology, where various outbreaks have been described.
Studies in neonates in India revealed ESBL-strains in half of the infants with early-onset
sepsis, and in 82% with late-onset sepsis. A study of blood samples from suspected cases of
neonatal sepsis detected ESBL in 87% of Klebsiella spp., 73% of Enterobacter spp. and 64% of
E. coli strains.
If considering resistance to 3rd generation cephalosporins as an indicator for ESBL, the
prevalence of ESBL producing E.coli and Klebsiella pneumoniae among children in Switzerland
was estimated 2.2% and 4.3% in 2006, respectively (www.search.ifik.unibe.ch). The frequency
of ESBL producing enterobacteria in Geneva in the same year was 1.8% for E. coli and 4.9%
for Klebsiella spp. (personal communication Dr. P. Rohner). In the Department of Paediatrics
in Geneva, the majority of ESBL producers were found among children from "Terre des Hommes",
a non-profit humanitarian organization, which brings African children to Switzerland for
cardiac surgery. These children all had a history of multiple hospital stays in their
country of origin, and possibly repeated antimicrobial therapies. However, most ESBL strains
can be expected from urinary tract infections on a national basis. The new recommendations
of the entire oral treatment with 3rd generation cephalosporins without initial intravenous
application for uncomplicated febrile urinary tract infections in children will be effective
by 2008. Therefore, most children will be treated fully on an outpatient basis by their
paediatricians or general practitioners. Treatment over all might increase by the simplified
therapeutic procedure and some general practitioners might switch from
trimethroprim-sulfamethoxazole to 3rd generation cephalosporins.
Risk factors for ESBL colonization or infection are well defined and similar to other
resistant microorganisms such as methicillin-resistant S. aureus (MRSA): serious illness
with prolonged hospital stays, invasive medical devices (urinary catheters, endotracheal
tubes, central venous lines), and repeated or prolonged antibiotic use, especially 3rd
generation cephalosporins. Selective antibiotic pressure is clearly associated with the
emergence and dissemination of ESBL-producing enterobacteria. Children with bloodstream
infections due to ESBL producing K. pneumoniae were almost 6 times more likely of prior
exposure to an extended-spectrum cephalosporin in the 30 days before infection.
Enterobacteria can be transferred by direct contact or through fomites. Various outbreaks
have been described incriminating sources such as other patients, artificial fingernails or
ultrasonography gel. The identification of ESBL-producing bacteria should prompt the use of
isolation and contact precaution measures. The application of such measures together with
antibiotic stewardship was successful to overcome most outbreaks with ESBL-producing
enterobacteria. However, the success of infection control measures depends largely on the
recognition of risk and of carrier states. Therefore, not only infected children should be
tracked but colonized patients as well, as they are capable of transmitting ESBL-producing
bacteria to vectors such as health-care workers, or directly to other patients.
Finally, additional costs and use of resources are important and ESBL infections are
expensive. Average infection-related costs per patient are significantly greater for ESBL
patients than for control patients without ESBL. Additional costs attributed to the
infection of an ESBL producer were estimated to 16'450 $ per patient and hospital stay. This
cost increase was mainly due to increased length of stay.
The prospective surveillance of ESBL-producing enterobacteria in Switzerland is essential
because ESBL-producing enterobacteria represent already a threat for the patients. This
includes delayed treatment and therefore cure, and increased health costs. ESBL will
probably be even more of a concern if no action is taken now in order to decrease its
prevalence.
Methods:
All children aged 0 to 16 years admitted to a paediatric ward and either colonized or
infected with an ESBL-producing strain will be included in the study. Identification of
ESBL-producing strains will be performed in local microbiology laboratories using the local
available detection methods. All strains will then be collected at the investigation centre
for microbiological confirmation of ESBL-production and analysis of the genes associated
with ESBL phenotype by sequencing. Because microbiological methods differ between
laboratories, the investigation centre will therefore directly contact the local
microbiology laboratories in order to obtain information about specific methods used to
isolate the ESBL strains and feedback will be given after examination of the strains at the
study centre. Hospitals reporting cases to SPSU will receive a case report form (CRF) for
each patient in order to get patient data, medical history and implemented infection control
measures. Strains isolated as potential ESBL should be stored and some colonies be sent to
the study centre for microbiological analysis. The shipment will be organised and paid by
the study centre. The shipment of stains is on a voluntary basis but recommended for quality
control and to analyse the molecular resistance mechanisms. In order to ease logistic
obstacles, hospitals are asked to only provide contact information of their respective
laboratories; these however will be addressed directly by the study centre in order to
obtain microbiological information and to organize shipment of the strains. Data management
and entry will be performed by the study centre. This is an observational study. The study
design with SPSU precludes any intervention.
Analysis:
Demographics will be reported by using standard descriptive statistics (mean, median,
percentage) for the following variables: age (gestational age), sex, country of origin, last
stay outside Switzerland, past hospitalisations, direct transfer from a hospital abroad,
prior antibiotic use, and history of urinary tract infections. Risk factor analysis for ESBL
infection vs. ESBL colonisation will be provided using standard statistical methods such as
logistic regression analysis for the following variables: age (gestational age), gender,
main diagnosis, comorbidity, immune-deficiency, length of hospital stay, length of neonatal
stay, length of intensive care unit stay, medical devices (central venous lines,
endotracheal tubes, urinary catheters), and antibiotic use (especially third generation
cephalosporins). Furthermore, information about isolation precaution measures and outbreak
investigation will be collected.
Case Definition:
All children (age range: birth until 16 years of age) colonized or infected with any
ESBL-producing enterobacteria according to antibiotic testing of local microbiology
laboratory, will be included. All isolated strains will be sent to the University Hospitals
of Geneva's Microbiology Laboratory (Head: Prof. J. Schrenzel) for confirmation by specific
ESBL culture techniques (double disc diffusion technique) and for identification of
resistance genes by in-house sequencing. There are no exclusion criteria.
Ethical issues:
This is a descriptive study without having any direct effect on patient care. All
information obtained in this study is already documented in the patients' chart and
therefore no signed consent form will be asked. All data will be analysed anonymously and
stored in a safe, password-protected computer. We will obtain an approval from the Ethical
Committee of the University Hospitals of Geneva before the beginning of the study.
;
Observational Model: Ecologic or Community, Time Perspective: Prospective
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