Bacteremia Clinical Trial
Official title:
Dressing: Comparison of 3-day and 7-day Catheter Dressing Frequency and Efficacy of Antiseptic Impregnated Dressing in Preventing Catheter-related Infection in ICU
The purpose of this study is to determine whether a catheter dressing every 7th day is not inferior to a catheter dressing every 3 days and if Chlorhexidine impregnated sponges are effective in preventing catheter-related infections in ICUs.
Central venous catheters (CVCs) are often required for the care of patient admitted to the
intensive care unit (ICU), and are now indispensable in modern-day medical practice. In the
United States, it is estimated that 15 million CVC days occur each year in the ICU , and
that approximately 80,000 CVC-associated bloodstream infection (BSIs) occur each year [2].
Data from the NNIS system indicate that approximately 40% of the BSIs are associated with a
CVC in the ICU. This definition, however, include CVC-related BSIs (CRBSIs) and primary
BSIs. In other multicenter surveys, primary BSIs are the leading cause of BSIs (30-35%),
followed by CRBSIs (20-30%), and BSIs originating from pneumonia (20%) .
The attributable mortality of CRBSIs remains debated. It ranges from no increase in
mortality in some studies, up to an attributable mortality of 35% in others. In studies
adjusting for severity of illness, attributable mortality ranged between 0 and 11.5%. The
excess ICU length of stay is estimated 9-12 days.
The cost of CRBSIs is therefore substantial, and efforts are required to reduce the
incidence of theses infections. Several publications suggested that multiple strategies
should be implemented concomitantly. Besides the critical importance of staff education,
technology brings new materials that could decrease the risk for CRBSI. Several studies have
demonstrated that antimicrobial- or antiseptic-impregnated CVCs can decrease CRBSIs in the
ICU setting. Furthermore, cost-benefit analysis have suggested that the use of impregnated
CVCs was beneficial
The recent CDC Guidelines for the prevention of intravascular catheter-related infections
recommend the use of antimicrobial- or antiseptic-impregnated CVCs in patients whose CVC is
expected to remain in place for more than 5 days, and in ICUs where CRBSI rate remains above
the benchmark rates, despite implementing a comprehensive strategy. This restricted
recommended use is explained by the concern for emergence of resistance, the risk of adverse
effects and the costs of these materials.
CRBSI rates in France could be lower than those observed in the United States. Data from two
surveillance networks indicate that the rates of CRBSI range between 1 and 2 CRBSI per 1000
CVC days . Given these low rates, it is not clear that antimicrobial- or
antiseptic-impregnated CVCs would be cost-effective.
Since most organisms responsible for CRBSI originate from insertion site in short-term CVC,
there was a rationale to try to decrease bacterial colonization at cutaneous insertion site.
Among the other new materials under development, a chlorhexidine-impregnated sponge
(Biopatch TM), to be placed over the site of catheter insertion, has been proposed. In a
prospective, controlled, bicenter, randomized, non blinded study, dressing changes every
other day (control group) was compared to dressing changes every 7 days with Biopatch
(Biopatch group) (Maki and al., ICAAC 2000). 1,401 lines (either CVCs, peripheral arterial
catheters or pulmonary artery catheters) were included in 589 patients. Both groups of
patients were comparable. Using proportional hazard models, both CVC colonization and CRBSI
were significantly reduced in the Biopatch group, from 29% to 16% (HR, 0.62) for catheter
colonization, and from 3.3% to 1.2% (HR, 0.38) for CRBSI.
This study demonstrated a significant reduction of CRBSI using Biopatch. Given the results
presented at the ICAAC sessions, there is some concern, however, about the validity of the
protective effect of the Biopatch.
Firstly, the intervention group associated Biopatch and the extension of the time between
dressing changes, from 2 to 7 days. Preliminary data from cancer patients suggest that time
between dressing changes could be extended. In a randomized study, Benhamou et al have
recently compared a 4-day to a 15-day catheter-dressing change frequency in children
undergoing chemotherapy. They have shown that skin cultures (27 vs 23%) and bloodstream
infections (11 vs 13%) rates are not different between the 4-day and the 15-day groups. It
is therefore unclear that the reduction of CRBSI observed in the Biopatch group was only due
to the Biopatch.
Secondly, the control group in the Maki's study did not use a "placebo", i.e. a sponge not
impregnated with chlorhexidine. The study was therefore not blinded for the ICU staff. It is
strongly recommended to examine the catheter insertion site daily for local inflammatory
signs. Biopatch impede to monitor the insertion site, with a potential for underestimation
of local infections signs in these patients. It is possible that daily examination of the
insertion site in the control group would conduct to remove the CVC more frequently in these
patients, with a potential for higher rate of colonization. In addition, if a study is not
blinded, it is useful for the validity of the results that a group of investigators, blinded
to the randomized group, review the medical chart to classify catheter infection.
Thirdly, the rate if CRBSI was rather high in the control group (4.45 per 1000 line days).
It is not certain that the benefit of Biopatch will be the same in ICUs with lower rates of
CRBSI.
The aim of this study is therefore to evaluate the impact of Biopatch, and the impact of
dressing changes (every 3 or 7 days) on the reduction of CVC infection
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Factorial Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Prevention
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