Carbapenemase-producing Enterobacteriaceae (CPE) are a critical public health threat, particularly in healthcare settings where vulnerable patients are at increased risk of colonization and infection. In South Korea, the number of reported CPE cases has increased sharply in recent years, necessitating the implementation of high-impact, evidence-based strategies for prevention and control.
This multicenter, cluster-randomized crossover trial is being conducted in six intensive care units (ICUs) across three university-affiliated hospitals in South Korea. The primary aim of the study is to evaluate the effectiveness and safety of a bundled intervention consisting of daily chlorhexidine bathing and targeted antimicrobial and proton pump inhibitor (PPI) stewardship in reducing CPE colonization and infection.
Each participating hospital will contribute two ICUs. One ICU will initially serve as the intervention unit and the other as the control unit for six months, after which the roles will be crossed over for an additional six months. The intervention group will receive daily bathing using no-rinse, 4% chlorhexidine gluconate (CHG)-impregnated washcloths, along with antimicrobial and PPI stewardship interventions focused on reducing unnecessary use of carbapenems and PPIs. The control group will receive standard bathing without chlorhexidine, while receiving the same stewardship measures as the intervention group.
Primary outcomes include the incidence and prevalence of CPE colonization and CPE-attributable healthcare-associated infections (HAIs), such as bloodstream infections, hospital-acquired pneumonia, and urinary tract infections. Surveillance cultures will be obtained per institutional protocols and national guidelines, including rectal swabs at ICU admission and weekly thereafter.
Secondary outcomes include:
1. Assessment of residual CHG skin concentrations at 3-month intervals using standardized skin swabs and comparison of these concentrations with the minimum inhibitory concentrations (MICs) of CPE isolates obtained from clinical and surveillance cultures to evaluate the adequacy of chlorhexidine exposure.
2. Evaluation of adherence to CHG bathing protocols through quarterly feedback of CHG skin concentration results to ICU staff.
3. Assessment of adverse skin reactions associated with CHG bathing to evaluate its safety in critically ill patients.
Skin swab samples will be obtained from the neck, axilla, and groin using a standardized technique. CHG concentrations will be analyzed via a semiquantitative colorimetric assay. CPE isolates will undergo broth microdilution testing to determine the MICs of CHG, following modified Clinical and Laboratory Standards Institute (CLSI) guidelines. CPE isolates will undergo broth microdilution MIC testing based on modified CLSI guidelines.
In parallel, antimicrobial and PPI utilization will be monitored using antibiotic use density (AUD) metrics. Stewardship interventions will focus on minimizing unnecessary use of carbapenems and PPIs, particularly for ventilator-associated pneumonia prophylaxis, and promoting use of alternatives where appropriate. Monthly trends in AUDs will be tracked for carbapenems, ampicillin/sulbactam, ceftazidime/avibactam, cefiderocol, colistin, and other key antibiotics, as well as PPIs and H2 blockers.
This study is designed to provide high-quality evidence on the effectiveness and feasibility of bundled interventions for the prevention of CPE transmission and infection in high-risk ICU settings. Findings from this trial may inform national infection control guidelines and support the broader implementation of CHG-based decolonization and stewardship strategies in similar healthcare environments.
