The novel chlorhexidine-impregnated dressing, replaced weekly, was as effective as cutaneous disinfection with 10% PI and redressing the site every 3 to 7 days for preventing CRBSI and BSI without a source in critically ill neonates requiring prolonged central venous access. The risk of local contact dermatitis under the chlorhexidine dressing limits its use in low birth weight infants who require prolonged central access during the first 2 weeks of life.
ABSTRACT. Objective. Critically ill neonates are at high risk for vascular catheter-related bloodstream infection (CRBSI), most often caused by coagulase-negative staphylococci. Most CRBSIs with long-term devices derive from intraluminal contaminants. The objective of this study was to ascertain the safety and the efficacy of a vancomycin-heparin lock solution for prevention of CRBSI.Methods. A prospective, randomized double-blind trial was conducted during 2000 -2001 at a community hospital level III NICU. Very low birth weight and other critically ill neonates with a newly placed peripherally inserted central venous catheter were randomized to have the catheter locked 2 or 3 times daily for 20 or 60 minutes with heparinized normal saline (n ؍ 43) or heparinized saline that contained vancomycin 25 g/mL (n ؍ 42). The origin of each nosocomial bloodstream infection (BSI) was studied by culturing skin, catheter hubs, and implanted catheter segments and blood cultures, demonstrating concordance by restriction-fragment DNA subtyping. Surveillance axillary and rectal cultures were performed to detect colonization by vancomycin-resistant organisms. The main outcome measures were (1) CRBSIs and (2) colonization or infection by vancomycin-resistant Gram-positive bacteria.Results. Two (5%) of 42 infants in the vancomycinlock group developed a CRBSI as compared with 13 (30%) of 43 in the control group (2.3 vs 17.8 per 1000 catheter days; relative risk: 0.13; 95% confidence interval: 0.01-0.57). No vancomycin-resistant enterococci or staphylococci were recovered from any cultures. Vancomycin could not be detected in the blood of infants who did not receive systemic vancomycin therapy. Twenty-six neonates (8 vancomycin-lock group, 18 control group) had at the end of a catheter-lock period asymptomatic hypoglycemia that resolved promptly when glucose-containing intravenous fluids were restarted.Conclusions. Prophylactic use of a vancomycin-heparin lock solution markedly reduced the incidence of CRBSI in high-risk neonates with long-term central catheters and did not promote vancomycin resistance but was associated with asymptomatic hypoglycemia. The use of an anti-infective lock solution for prevention of CRBSI with long-term intravascular devices has achieved proof of principle and warrants selective application in clinical practice. V ery low birth weight and other critically ill neonates require prolonged vascular access, which is now most widely achieved in current practice with peripherally inserted central venous catheters. 1 Prolonged vascular access in high-risk neonates is associated with a high risk for catheterrelated bloodstream infection (CRBSI), 2-6 which increases antibiotic exposure, length of stay, hospital costs, and mortality. 7-10 A bloodstream infection can occur during central venous therapy in as many as 20% to 30% of low birth weight neonates. 3,[5][6][7][8]10 For microorganisms to cause CRBSI, they first must gain access to the extraluminal or intraluminal surfaces of the implanted device, where ...
We conclude that an early 3-day course of dexamethasone therapy increases survival without CLD, reduces CLD, and reduces late dexamethasone therapy in high-risk, low birth weight infants who receive surfactant therapy for respiratory distress syndrome. Potential benefits of early dexamethasone therapy at the dosing schedule used in this trial need to be weighed against the risk for early intestinal perforation.
Most catheter-related BSIs in neonates with PICCs are caused by CoNS and derive from intraluminal contamination. Strategies for prevention of catheter-related BSI directed at this predominant mechanism of infection are most likely to be effective.
Objective: The purpose of this pilot trial was to determine whether rates of contact dermatitis following cutaneous antisepsis for central catheter placement were similar among neonates treated with chlorhexidine gluconate and povidone-iodine. Chlorhexidine gluconate absorption was also evaluated.Study Design: Infants weighing X1500 g and X7 days of age were randomized to a 10% povidone-iodine or 2% chlorhexidine gluconate site scrub before catheter placement. Primary outcomes evaluated included dermatitis, catheter colonization and chlorhexidine gluconate absorption.Result: A total of 48 neonates were enrolled. Colonization rates were similar among treatment groups (P<0.6). Dermatitis did not occur at chlorhexidine gluconate (central catheters, n ¼ 24; peripheral catheters, n ¼ 29) sites. Seven neonates had measurable chlorhexidine gluconate concentrations (range 13 to 100 ng ml À1 ) during catheterization.
Conclusion:In this small trial chlorhexidine gluconate antisepsis was tolerated by study neonates. Chlorhexidine gluconate was cutaneously absorbed. Larger trials are needed to determine efficacy and tolerance of chlorhexidine gluconate in neonates.
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