23 research outputs found
Effectiveness of a hydrogen peroxide mist (Trophon) system in inactivating healthcare pathogens on surface and endocavitary probes
they are considered noncritical and require at least low-level disinfection between patients. Endocavitary probes (eg, transvaginal, transrectal, or transesophageal probes) are considered semicritical because they have direct contact with mucous membranes (eg, vagina, rectum, or pharynx) or nonintact skin. While one could argue that the use of the probe cover changes the category for the endocavitary probe, the Centers for Disease Control and Prevention (CDC) guideline for disinfection and sterilization recommends that a new condom/probe cover should be used for each patient, and because condoms/probe covers and low-level disinfection may fail, high-level disinfection of the probe should be performed. The relevance of this recommendation is reinforced by the finding that sterile ultrasound probe covers and condoms can have a perforation rate from 0% to 81% before and after use. These studies underscore the need for high-level disinfection of endocavitary probes between examinations.Ultrasound probes are used in sonographic scanning and are commonly used as either surface probes or endocavitary probes. Surface probes are used on intact skin, such as the abdome
Reply to Randal W. Eveland regarding comparative evaluation of the microbicidal activity of low-temperature sterilization technologies to steam sterilization
To the Editor—We thank Dr Randal Eveland, Steris Corporation, for his letter regarding our paper that compared the microbicidal activity of low-temperature sterilization technologies (ie, vaporized hydrogen peroxide [VHP], ethylene oxide [ETO], and hydrogen peroxide gas plasma [HPGP]) to steam sterilization in the presence of salt and serum to simulate inadequate precleaning. As noted in our paper, the literature contains a paucity of information on the comparative microbicidal activity of the sterilization technologies cleared by the Food and Drug Administration (FDA) for sterilizing medical and surgical devices. We believe that the data from this study will help clinicians in infection prevention assess the robustness of healthcare sterilization technologies and the risk of infection to patients when an uncleaned instrument is unintentionally brought into the operating room or used on a patient
Patient Room Decontamination against Carbapenem-Resistant Enterobacteriaceae and Methicillin-Resistant Staphylococcus aureus Using a Fixed Cycle-Time Ultraviolet-C Device and Two Different Radiation Designs
The contaminated surface environment of hospital rooms
has been demonstrated to be a source of patient-to-patient
transmission of multidrug-resistant organisms (MDROs),
including methicillin-resistant Staphylococcus aureus
(MRSA).1,2 MDROs can survive on surfaces for days to weeks
(for months in some cases).3 Following terminal room
cleaning and disinfection, frequent contamination by these
pathogens has been reported.1,2 Patients admitted to a room
where the previous occupant was also colonized or infected
with an MDRO are at substantial risk for acquisition of this
MDRO.4 For these reasons, “no-touch” methods of room
disinfection have been evaluated, including devices that emit
ultraviolet (UV) light or produce hydrogen peroxide vapor.5
Use of UV devices has been demonstrated to reduce
healthcare-associated pathogens.
Effective High-Level Disinfection of Cystoscopes: Is Perfusion of Channels Required?
In the United States, more than 4 million cystoscopies are
performed each year. Cystoscopy is a diagnostic procedure that
uses an endoscope specially designed to examine the bladder,
lower urinary tract, and prostate gland or is used to collect
urine samples, perform biopsies, or remove small stones. A
flexible or rigid scope can be used to carry out the procedure.
Because the procedure involves a medical device in contact
with the patient’s mucous membranes, it is considered a
semicritical device that must, at a minimum, undergo highlevel
disinfection. Failure to properly high-level disinfect or
sterilize equipment can lead to transmission of infection
Antimicrobial activity of a continuous visible light disinfection system
We evaluated the ability of high-intensity visible violet light with a peak output of 405 nm to kill epidemiologically important pathogens. The high irradiant light significantly reduced both vegetative bacteria and spores at some time points over a 72-hour exposure period
Antimicrobial activity of a continuously active disinfectant against healthcare pathogens
A novel disinfectant studied using an EPA protocol demonstrated sustained antimicrobial activity (ie, 3-5 log10 reduction) in 5 minutes after 24 hours for Staphylococcus aureus, vancomycin-resistant Enterococcus, Candida auris, carbapenem-resistant Escherichia coli and antibiotic-susceptible E. coli, and Enterobacter spp. Only ∼2 log10 reduction occurred with carbapenem-resistant Enterobacter spp and K. pneumoniae, and antibiotic-susceptible K. pneumoniae
Epidemiologic characteristics of health care–associated outbreaks and lessons learned from multiple outbreak investigations with a focus on the usefulness of routine molecular analysis
Background: Single outbreaks have often been reported in health care settings, but the frequency of outbreaks at a hospital over time has not been described. We examined epidemiologic features of all health care–associated outbreak investigations at an academic hospital during a 5-year period. Methods: Health care–associated outbreak investigations at an academic hospital (2012-2016) were retrospectively reviewed through data on comprehensive hospital-wide surveillance and pulsed-field gel electrophoresis (PFGE) analysis. Results: Fifty-one health care–associated outbreaks (annual range, 8-15), including 26 (51%) outbreaks in intensive care units (ICUs), and 263 infected-colonized patients involved in these outbreaks were identified. The frequency of pathogens varied by affected location, specifically multidrug-resistant organisms (20/26 outbreaks, 77% in ICUs vs 2/25 outbreaks, 8% in non-ICUs; P <.0001) and gastroenteritis because of Clostridium difficile, norovirus, or adenovirus (1/26 outbreaks, 4% in ICUs vs 17/25 outbreaks, 68% in non-ICUs; P <.0001). Outbreaks occurred in approximately one-third of all units (37%) with some repeated instances of the same pathogens. Of 16 outbreaks caused by a bacterial pathogen evaluated by PFGE, 12 (75%) included some indistinguishable strains, suggesting person-to-person transmission or a common source. Conclusions: This study demonstrated epidemiologic characteristics of multiple outbreaks between ICUs and non-ICUs and the value of molecular typing in understanding the epidemiology of health care–associated outbreaks
Reply to Eric Schlote regarding "evaluation of dilute hydrogen peroxide technology for continuous room decontamination of multidrug-resistant organisms"
To the Editor—We thank Eric Schlote, CEO of Synexis Biodefense Systems, for his letter regarding our article, “Evaluation of dilute
hydrogen peroxide technology for continuous room decontamination
of multidrug-resistant organisms.”1 As noted in our paper,
hospital room environmental surfaces are frequently contaminated
and serve as a source for healthcare MDROs. Contact with these
contaminated surfaces may result in hand or glove contamination
of healthcare personnel that can be transferred to patients.
Development of a validated effective method for continuous room
disinfection method would provide an important tool for decreasing
surface contamination with MDROs and healthcare-associated
pathogens
Enhanced terminal room disinfection and acquisition and infection caused by multidrug-resistant organisms and Clostridium difficile (the Benefits of Enhanced Terminal Room Disinfection study): a cluster-randomised, multicentre, crossover study
Background Patients admitted to hospital can acquire multidrug-resistant organisms and Clostridium difficile from inadequately disinfected environmental surfaces. We determined the effect of three enhanced strategies for terminal room disinfection (disinfection of a room between occupying patients) on acquisition and infection due to meticillin-resistant Staphylococcus aureus, vancomycin-resistant enterococci, C difficile, and multidrug-resistant Acinetobacter. Methods We did a pragmatic, cluster-randomised, crossover trial at nine hospitals in the southeastern USA. Rooms from which a patient with infection or colonisation with a target organism was discharged were terminally disinfected with one of four strategies: reference (quaternary ammonium disinfectant except for C difficile, for which bleach was used); UV (quaternary ammonium disinfectant and disinfecting ultraviolet [UV-C] light except for C difficile, for which bleach and UV-C were used); bleach; and bleach and UV-C. The next patient admitted to the targeted room was considered exposed. Every strategy was used at each hospital in four consecutive 7-month periods. We randomly assigned the sequence of strategies for each hospital (1:1:1:1). The primary outcomes were the incidence of infection or colonisation with all target organisms among exposed patients and the incidence of C difficile infection among exposed patients in the intention-to-treat population. This trial is registered with ClinicalTrials.gov, NCT01579370. Findings 31 226 patients were exposed; 21 395 (69%) met all inclusion criteria, including 4916 in the reference group, 5178 in the UV group, 5438 in the bleach group, and 5863 in the bleach and UV group. 115 patients had the primary outcome during 22 426 exposure days in the reference group (51·3 per 10 000 exposure days). The incidence of target organisms among exposed patients was significantly lower after adding UV to standard cleaning strategies (n=76; 33·9 cases per 10 000 exposure days; relative risk [RR] 0·70, 95% CI 0·50–0·98; p=0·036). The primary outcome was not statistically lower with bleach (n=101; 41·6 cases per 10 000 exposure days; RR 0·85, 95% CI 0·69–1·04; p=0·116), or bleach and UV (n=131; 45·6 cases per 10 000 exposure days; RR 0·91, 95% CI 0·76–1·09; p=0·303) among exposed patients. Similarly, the incidence of C difficile infection among exposed patients was not changed after adding UV to cleaning with bleach (n=38 vs 36; 30·4 cases vs 31·6 cases per 10 000 exposure days; RR 1·0, 95% CI 0·57–1·75; p=0·997). Interpretation A contaminated health-care environment is an important source for acquisition of pathogens; enhanced terminal room disinfection decreases this risk. Funding US Centers for Disease Control and Prevention