Short peripheral intravenous catheters (PVC) are the most frequently used invasive medical devices in hospitals. Unfortunately, PVCs often fail before the end of treatment due to the occurrence of complications, which can be mechanical, vascular or infectious. Complications lead to infusion failure and device replacement, which results in interrupted therapy, pain associated with resiting and increased health care costs for resources and staff time. Catheter related bloodstream infections (CR-BSIs) prolong hospitalization and increase treatment costs and mortality. Prevention of these complications is based on the respect of hygiene rules and the use of bio-compatible catheters. The choice of the antiseptic solution for skin disinfection is key. Similarly, the use of new technologies such as catheters designed to minimize blood exposure, zero-reflux needleless-connectors, disinfecting caps, and flushing PVCs before and after each medication administration to maintain catheter patency are of theoretical interest, but little scientific data support their use in routine. The primary objectives of this study are, first, to demonstrate that skin preparation with 2% chlorhexidine (CHG)-70% isopropanol decreases the risk of PVC colonization compared to skin preparation with 5% povidone iodine (PVI)-69% ethanol. Second, to demonstrate that use of a bundle of technologies including a new PVC, zero-reflux needless-connectors, disinfecting caps, and single-use prefilled flush syringes extends the time between catheter insertion and catheter failure. The secondary objectives are to compare between the four study group incidence of phlebitis, accidental catheter removal, infiltration, catheter occlusion, CR-BSI, local infection, all-cause bloodstream infections, catheter colonization, duration of catheter remaining in place without complication, length of hospital stay, safety and patient satisfaction. The CLEAN 3 study is an open-label, single centre, investigator-initiated, randomised, four-parallel group, two-by-two factorial trial. Patients requiring PVC for an expected 48 h will be randomised in one of four groups according to skin disinfection method and type of devices used. Randomization will be carried out through a secure web-based randomization system. Inclusions are expected to begin in January 2019 and continue until July 2019, once the number of catheters required has been reached. Patients will be enrolled at the Emergency department of the Poitiers University Hospital before being hospitalised in one of five wards (neurology, neurology, pneumology, internal medicine and downstream emergency unit).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
1,000
Povidone-Iodine-Alcohol will be used to disinfect the skin
Chlorhexidine-Alcohol will be used to disinfect the skin
Pose of Insyte Autoguard BC Winged
Pose of Nexiva single port catheter
University Hospital of Poitiers
Poitiers, France
Incidence of catheter-related infectious complications
Incidence of catheter-related infectious complications, and include catheter colonisation, local infection and CR-BSI
Time frame: 8 days
Time between catheter insertion and catheter failure
Time between catheter insertion and catheter failure: defined as any premature removal of PVC before end of treatment, other than for routine replacement, and includes phlebitis, infiltration, occlusion, accidental catheter removal, local infection and CR-BSI whichever occurred first
Time frame: 8 days
Number of phlebitis
Number of phlebitis defined as two or more of the following present simultaneously: (1) patient-reported pain or tenderness (on questioning, then palpation by the research nurse) with a severity of two or more on a ten-point scale; (2) erythema extending at least 1 cm from the insertion site; (3) swelling, extending at least 1 cm from the insertion site; (4) purulent discharge; or (5) palpable venous cord beyond the intravenous catheter tip
Time frame: 8 days
Number of accidental catheter removal
Time frame: 8 days
Number of infiltration
Number of infiltration, defined as the infusion of non-blistering drug leaking through the normal vascular channel and resulting in the swelling of tissue peripheral to the puncture site
Time frame: 8 days
Number of catheter occlusion
Number of catheter occlusion defined as the inability of the catheter to flush (not able to intravenously inject 1ml of normal saline within 30 s)
Time frame: 8 days
Number of CR-BSI
Number of CR-BSI, defined as (1) at least one positive blood culture from a peripheral vein and (2) clinical signs of infection (ie, fever \[body temperature \>38°5\], hypothermia \[body temperature \<36°5\], chills, or hypotension \[Systolic blood pressure \<90 mm Hg\]) and (3) no other apparent source for the bloodstream infection except the PVC (in situ within 48 h of the bloodstream infection); and (4) a colonized intravenous catheter tip culture with the same organism (same species) as identified in the blood. For commensal micro-organisms (coagulase-negative staphylococci, Corynebacterium spp. \[except C. jeikeium\], Lactobacillus spp., Bacillus spp. and Propionibacterium spp., or viridans group Streptococcus isolates and C. perfringens) at least two positive blood cultures will be required.
Time frame: 8 days
Number of local infection
Number of local infection, defined as organisms grown from purulent discharge with no evidence of associated bloodstream infection
Time frame: 8 days
Number of all-cause bloodstream infections
Number of all-cause bloodstream infections, defined as any positive blood culture drawn from a peripheral vein while intravenous catheter in situ or for 48 h after removal. For commensal micro-organisms (coagulase-negative staphylococci, Corynebacterium spp. \[except C. jeikeium\], Lactobacillus spp., Bacillus spp. and Propionibacterium spp., or viridans group Streptococcus isolates and C. perfringens) at least two positive blood cultures will be required
Time frame: 8 days
Number of catheter colonization
Number of catheter colonization defined as the culture of intravascular catheter tip showing at least 1000 colony-forming units per ml (cfu/ml).
Time frame: 8 days
Number of pathogens involved in catheter colonization, local infections, CR-BSI and all-cause bloodstream infections
Time frame: 8 days
Number of days the catheter remaining in place without complication
Time frame: 8 days
Length of Hospital stay censored at day 28
Time frame: 28 days
Incidence of local and systemic side effects possibly linked to antiseptic use
Time frame: 8 days
Patient's evaluation of the pain at the insertion of the catheter using visual analogue scale (VAS)
Visual analogue scale is increased from 0 to 10, 0 is the better outcome (no pain) and 10 is the worse outcome
Time frame: 8 days
Patient's satisfaction at catheter removal using visual analogue scale (VAS)
Visual analogue scale is increased from 0 to 10, 0 is the worse outcome (no satisfaction) and 10 is the better outcome
Time frame: 8 days
Evaluation impact of venous line on patients' mobility at catheter removal using visual analogue scale
Visual analogue scale is increased from 0 to 10, 0 is the better outcome (no impact of patients'mobility) and 10 is the worse outcome
Time frame: 8 days
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