Staci S Reynolds1,2, Patricia Woltz3, Edward Keating4, Janice Neff3, Jennifer Elliott3, Daniel Hatch5, Qing Yang5, Bradi B Granger5,6. 1. Duke University School of Nursing, 307 Trent Drive, Durham, NC, 27710, USA. staci.reynolds@duke.edu. 2. Duke University Hospital, 2310 Erwin Road, Durham, NC, 27710, USA. staci.reynolds@duke.edu. 3. WakeMed Health & Hospitals, 3000 New Bern Avenue, Raleigh, NC, 27610, USA. 4. Duke University Hospital, 2310 Erwin Road, Durham, NC, 27710, USA. 5. Duke University School of Nursing, 307 Trent Drive, Durham, NC, 27710, USA. 6. Duke University Health System, 2310 Erwin Road, Durham, NC, 27710, USA.
Abstract
BACKGROUND: Central line-associated bloodstream infections (CLABSIs) result in approximately 28,000 deaths and approximately $2.3 billion in added costs to the U.S. healthcare system each year, and yet, many of these infections are preventable. At two large health systems in the southeast United States, CLABSIs continue to be an area of opportunity. Despite strong evidence for interventions to prevent CLABSI and reduce associated patient harm, such as use of chlorhexidine gluconate (CHG) bathing, the adoption of these interventions in practice is poor. The primary objective of this study was to assess the effect of a tailored, multifaceted implementation program on nursing staff's compliance with the CHG bathing process and electronic health record (EHR) documentation in critically ill patients. The secondary objectives were to examine the (1) moderating effect of unit characteristics and cultural context, (2) intervention effect on nursing staff's knowledge and perceptions of CHG bathing, and (3) intervention effect on CLABSI rates. METHODS: A stepped wedged cluster-randomized design was used with units clustered into 4 sequences; each sequence consecutively began the intervention over the course of 4 months. The Grol and Wensing Model of Implementation helped guide selection of the implementation strategies, which included educational outreach visits and audit and feedback. Compliance with the appropriate CHG bathing process and daily CHG bathing documentation were assessed. Outcomes were assessed 12 months after the intervention to assess for sustainability. RESULTS: Among the 14 clinical units participating, 8 were in a university hospital setting and 6 were in community hospital settings. CHG bathing process compliance and nursing staff's knowledge and perceptions of CHG bathing significantly improved after the intervention (p = .009, p = .002, and p = .01, respectively). CHG bathing documentation compliance and CLABSI rates did not significantly improve; however, there was a clinically significant 27.4% decrease in CLABSI rates. CONCLUSIONS: Using educational outreach visits and audit and feedback implementation strategies can improve adoption of evidence-based CHG bathing practices. TRIAL REGISTRATION: ClinicalTrials.gov, NCT03898115 , Registered 28 March 2019.
RCT Entities:
BACKGROUND: Central line-associated bloodstream infections (CLABSIs) result in approximately 28,000 deaths and approximately $2.3 billion in added costs to the U.S. healthcare system each year, and yet, many of these infections are preventable. At two large health systems in the southeast United States, CLABSIs continue to be an area of opportunity. Despite strong evidence for interventions to prevent CLABSI and reduce associated patient harm, such as use of chlorhexidine gluconate (CHG) bathing, the adoption of these interventions in practice is poor. The primary objective of this study was to assess the effect of a tailored, multifaceted implementation program on nursing staff's compliance with the CHG bathing process and electronic health record (EHR) documentation in critically illpatients. The secondary objectives were to examine the (1) moderating effect of unit characteristics and cultural context, (2) intervention effect on nursing staff's knowledge and perceptions of CHG bathing, and (3) intervention effect on CLABSI rates. METHODS: A stepped wedged cluster-randomized design was used with units clustered into 4 sequences; each sequence consecutively began the intervention over the course of 4 months. The Grol and Wensing Model of Implementation helped guide selection of the implementation strategies, which included educational outreach visits and audit and feedback. Compliance with the appropriate CHG bathing process and daily CHG bathing documentation were assessed. Outcomes were assessed 12 months after the intervention to assess for sustainability. RESULTS: Among the 14 clinical units participating, 8 were in a university hospital setting and 6 were in community hospital settings. CHG bathing process compliance and nursing staff's knowledge and perceptions of CHG bathing significantly improved after the intervention (p = .009, p = .002, and p = .01, respectively). CHG bathing documentation compliance and CLABSI rates did not significantly improve; however, there was a clinically significant 27.4% decrease in CLABSI rates. CONCLUSIONS: Using educational outreach visits and audit and feedback implementation strategies can improve adoption of evidence-based CHG bathing practices. TRIAL REGISTRATION: ClinicalTrials.gov, NCT03898115 , Registered 28 March 2019.
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