Enhanced terminal room disinfection is a novel, promising, but still unproven strategy for the prevention of healthcare-associated infections (HAIs) due to selected multidrug-resistant (MDR) bacterial pathogens. The investigators will perform a large prospective, multicenter study enhanced terminal room disinfection to 1) determine the efficacy and feasibility of enhanced terminal room disinfection strategies to prevent HAIs and 2) determine the impact of environmental contamination on acquisition of MDR-pathogens among hospitalized patients.
Meticulous and consistent use of hand hygiene before and after patient care remains the cornerstone of infection prevention in all health care settings. However, clean hands are not sufficient to prevent all healthcare-associated infections (HAIs), as 1) hands of healthcare workers easily become contaminated from contact with contaminated environmental surfaces in patient rooms after appropriate hand hygiene has been performed and before direct patient care and 2) direct contact by patients with preexisting contaminated environmental surfaces in their hospital rooms can lead to colonization or infection. Thus, novel strategies are needed to prevent HAIs, particularly those caused by multidrug-resistant (MDR) pathogens that persist in the environment such as methicillin-resistant Staphylococcus aureus (MRSA), vancomycin-resistant Enterococci (VRE), Clostridium difficile, and Acinetobacter. Enhanced environmental disinfection methods may lead to reduced risk of exposure to or acquisition of HAIs and MDR-pathogens and overcome a critical issue facing healthcare today - hospitals rooms are often poorly cleaned and disinfected. Enhanced terminal room disinfection strategies using bleach and/or UV-C emitting devices have been investigated only in experimental conditions; the efficacy, effectiveness, and feasibility of enhanced terminal room disinfection to prevent HAIs are unknown. Thus, the scientific evidence for such interventions currently is insufficient for their inclusion in evidence-based guidelines. This study will investigate the hypothesis that enhanced terminal room disinfection protocols (using chlorine-based cleaning agents with or without UV-C light-emitting devices) will decrease the overall risk of HAIs in the hospital and, more specifically, in subsequent patients who are cared for in the same room. This prospective investigation will employ a crossover design utilizing four room cleaning/disinfection protocols in 9 hospitals, including 2 tertiary care, 1 VA, and 6 community hospitals. Phase T2 data from this study will be useful in assessing the clinical efficacy and feasibility of individual disinfection strategies. Thus, the goals of the investigators proposed research are to 1) determine the efficacy and feasibility of enhanced terminal room disinfection strategies to prevent HAIs and 2) determine the impact of environmental contamination on acquisition of MDR-pathogens among hospitalized patients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
21,395
Rooms from which a patient with a target organisms has been discharged (ie, a "seed" room) will be cleaned using quaternary-ammonium containing solutions. Room cleaning will proceed following standard cleaning protocols established at each study hospital.
Rooms from which a patient with a target organisms has been discharged (ie, a "seed" room) will be cleaned using bleach containing solutions. Room cleaning will proceed following standard cleaning protocols established at each study hospital.
Rooms from which a patient with a target organisms has been discharged (ie, a "seed" room) will be cleaned using quaternary-ammonium containing solutions. Room cleaning will proceed following standard cleaning protocols established at each study hospital. Then, the UV-C light-emitting device will be brought to the room to irradiate the room until 12,000 uWs/cm2 (for vegetative bacteria) or 22,000 uWs/cm2 (for C. difficile) has been delivered to entire room.
Rooms from which a patient with a target organisms has been discharged (ie, a "seed" room) will be cleaned using bleach containing solutions. Room cleaning will proceed following standard cleaning protocols established at each study hospital. Then, the UV-C light-emitting device will be brought to the room to irradiate the room until 12,000 uWs/cm2 (for vegetative bacteria) or 22,000 uWs/cm2 (for C. difficile) has been delivered to entire room.
Alamance Regional Medical Center
Burlington, North Carolina, United States
University of North Carolina Hospitals
Chapel Hill, North Carolina, United States
Durham Regional Hospital
Durham, North Carolina, United States
Duke University Medical Center
Durham, North Carolina, United States
Durham VA Medical Center
Durham, North Carolina, United States
High Point Regional Health System
High Point, North Carolina, United States
Rex Healthcare
Raleigh, North Carolina, United States
Duke Raleigh Hospital
Raleigh, North Carolina, United States
Chesapeake Regional Medical Center
Chesapeake, Virginia, United States
Clinical incidence rate of four target organisms among patients admitted to a study room
Patients will be monitored for clinical cultures that grow one of four target organisms (MRSA, VRE, C. difficile, and MDR-Acinetobacter) following admission to a "seed" room. Cultures for vegetative bacteria (MRSA, VRE, Acinetobacter) will be included if obtained within 90 days of discharge from a seed room; cultures for C. difficile will be included if they are obtained within 28 days of discharge from a seed room.
Time frame: 90 days
Clinical incidence rate of C. difficile among patients admitted to a study room
Patients will be monitored for clinical cultures that grow C. difficile following admission to a "seed" room.
Time frame: 28 days
Clinical incidence rate of target vegetative bacteria (MRSA, VRE, Acinetobacter) among patients admitted to a seed room.
Patients will be monitored for clinical cultures that grow one of three target vegetative organisms (MRSA, VRE, and MDR-Acinetobacter) following admission to a "seed" room.
Time frame: 90 days
Clinical incidence rate of target organisms among all patients admitted to the hospital
All hospitalized patients will be monitored for clinical cultures that grow one of four target organisms (MRSA, VRE, C. difficile, and MDR-Acinetobacter) regardless of exposure to seed room.
Time frame: 90 days
Clinical incidence rate of MRSA among all patients admitted to the hospital
All hospitalized patients will be monitored for clinical cultures that grow MRSA regardless of exposure to seed room.
Time frame: 90 days
Clinical incidence rate of VRE among all patients admitted to the hospital
All hospitalized patients will be monitored for clinical cultures that grow VRE regardless of exposure to seed room.
Time frame: 90 days
Clinical incidence rate of MDR-Acinetobacter among all patients admitted to the hospital
All hospitalized patients will be monitored for clinical cultures that grow MDR-Acinetobacter regardless of exposure to seed room.
Time frame: 90 days
Clinical incidence rate of C. difficile among all patients admitted to the hospital
All hospitalized patients will be monitored for clinical cultures that grow C. difficile regardless of exposure to seed room.
Time frame: 28 days
Incidence rate of healthcare-associated infections caused by target bacteria (MRSA, VRE, C. difficile, and MDR-Acinetobacter) among patients admitted to a seed room.
Patients will be monitored for HAIs due to one of four target organisms (MRSA, VRE, C. difficile, and MDR-Acinetobacter) following admission to a "seed" room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by MRSA among patients admitted to a seed room.
Patients will be monitored for HAIs due to MRSA following admission to a "seed" room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by VRE among patients admitted to a seed room.
Patients will be monitored for HAIs due to VRE following admission to a "seed" room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by MDR-Acinetobacter among patients admitted to a seed room.
Patients will be monitored for HAIs due to MDR-Acinetobacter following admission to a "seed" room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by MDR-Acinetobacter among all hospitalized patients.
Patients will be monitored for HAIs due to MDR-Acinetobacter, regardless of exposure to seed room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by MRSA among all hospitalized patients.
Patients will be monitored for HAIs due to MRSA, regardless of exposure to seed room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by VRE among all hospitalized patients.
Patients will be monitored for HAIs due to VRE, regardless of exposure to seed room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Incidence rate of healthcare-associated infections caused by target vegetative bacteria (MRSA, VRE, MDR-Acinetobacter) among all hospitalized patients.
Patients will be monitored for HAIs due to MRSA, VRE, and MDR-Acinetobacter regardless of exposure to seed room. NHSN definitions for HAIs will be used.
Time frame: Patients will be followed an average of 30 days
Missed Opportunities
Use of UV-C emitting devices will be monitored and "missed opportunities" (ie, UV-C emitter should have been used per protocol and was not) will be tracked and summarized. This proportion will be calculated for each study arm, each of which lasts 6 months. The "quaternary ammonium" (and no UV-C light) arm will be considered the reference group.
Time frame: each study period (6 months)
Time on Diversion
Hospital data will be gathered to determine if use of UV-C emitting devices leads to downstream effects on hospital process. The proportion will be calculated as the average number of days on diversion per month for each study period. This proportion will be calculated for each study arm, each of which lasts 6 months. The "quaternary ammonium" (and no UV-C light) will be considered the reference group.
Time frame: Each study period (6 months)
Room Turnover Time
Room cleaning process will be monitored and tracked. We will obtain start and stop times for terminal room cleaning to determine if use of UV-C light emitting devices leads to additional time for room turnover. Average times will be calculated for each study arm, each of which lasts 6 months. The "quaternary ammonium" (and no UV-C light) arm will be considered the reference group.
Time frame: Each study period (6 months)
ED to floor wait time
Hospital data will be gathered to determine if use of UV-C emitting devices leads to downstream effects on hospital process. Average times will be calculated for each study arm, each of which lasts 6 months. The "quaternary ammonium" (and no UV-C light) arm will be considered the reference group.
Time frame: Each study period (6 months)
Clinical incidence of MRSA, VRE, C. difficile, and MDR-Acinetobacter during UV-C light versus No UV-C light
The clinical incidence rate of MRSA, VRE, C. difficile, and MDR-Acinetobacter will be calculated for the two 6-month study arms (12 months total) during which UV-C light is used for terminal room disinfection (regardless of which chemical is used) and compared to the two 6-month study arms (12 months total) during which UV-C light is not used for terminal room disinfection.
Time frame: 12 months (2 6-month study arms combined)
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