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![Page 1: Safer Healthcare Environments for Infection Prevention William A. Rutala, PhD, MPH Director, Hospital Epidemiology, Occupational Health and Safety; Professor.](https://reader036.fdocuments.in/reader036/viewer/2022062322/5697bf901a28abf838c8e20e/html5/thumbnails/1.jpg)
Safer Healthcare Environments for Infection Prevention
William A. Rutala, PhD, MPHDirector, Hospital Epidemiology, Occupational Health and Safety;
Professor of Medicine and Director, Statewide Program for Infection Control and Epidemiology
University of North Carolina at Chapel Hill, USA
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DISCLOSURES• Consultation
Advanced Sterilization Products, Clorox• Honoraria (speaking)
Advanced Sterilization Products, 3M• Grants
CDC
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Safer Healthcare Environments for Infection PreventionNew Technologies and Future Challenges
• Reprocessing reusable medical/surgical instruments• Hospital surfaces• Water • Air
![Page 4: Safer Healthcare Environments for Infection Prevention William A. Rutala, PhD, MPH Director, Hospital Epidemiology, Occupational Health and Safety; Professor.](https://reader036.fdocuments.in/reader036/viewer/2022062322/5697bf901a28abf838c8e20e/html5/thumbnails/4.jpg)
disinfectionandsterilization.org
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Safer Healthcare Environments for Infection PreventionNew Technologies and Future Challenges
• Reprocessing reusable medical/surgical instruments• Hospital surfaces• Water • Air
![Page 6: Safer Healthcare Environments for Infection Prevention William A. Rutala, PhD, MPH Director, Hospital Epidemiology, Occupational Health and Safety; Professor.](https://reader036.fdocuments.in/reader036/viewer/2022062322/5697bf901a28abf838c8e20e/html5/thumbnails/6.jpg)
DISINFECTION AND STERILIZATION
• EH Spaulding believed that how an object will be disinfected depended on the object’s intended use CRITICAL - objects which enter normally sterile tissue or the
vascular system or through which blood flows should be sterile SEMICRITICAL - objects that touch mucous membranes or skin
that is not intact require a disinfection process (high-level disinfection[HLD]) that kills all microorganisms but high numbers of bacterial spores
NONCRITICAL - objects that touch only intact skin require low-level disinfection
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New Trends in Sterilization of Patient Equipment
• Alternatives to ETO-CFCETO-CO2, ETO-HCFC, 100% ETO
• New Low Temperature Sterilization TechnologyHydrogen Peroxide Gas Plasma-most commonVaporized hydrogen peroxide-limited clinical useOzone-limited clinical use
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Rapid Readout BIs for Steam Now Require a 1-3h Readout Compared to 24-48h
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Attest™ Super Rapid Readout Biological IndicatorsCommercially available in early 2013
1491 BI (blue cap)• Monitors 270°F and 275°F gravity –displacement steam sterilization cycles• 30 minute result (from 1 hour)
1492V BI (brown cap)• Monitors 270°F and 275°F dynamic-air-removal (pre-vacuum) steam sterilization cycles• 1 hour result (from 3 hours)
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DISINFECTION AND STERILIZATION
• EH Spaulding believed that how an object will be disinfected depended on the object’s intended use CRITICAL - objects which enter normally sterile tissue or the
vascular system or through which blood flows should be sterile SEMICRITICAL - objects that touch mucous membranes or skin
that is not intact require a disinfection process (high-level disinfection[HLD]) that kills all microorganisms but high numbers of bacterial spores
NONCRITICAL - objects that touch only intact skin require low-level disinfection
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High-Level Disinfection of “Semicritical Objects”
Exposure Time > 8m-45m (US), 20oCGermicide Concentration_____Glutaraldehyde > 2.0%Ortho-phthalaldehyde 0.55%Hydrogen peroxide* 7.5%Hydrogen peroxide and peracetic acid* 1.0%/0.08%Hydrogen peroxide and peracetic acid* 7.5%/0.23%Hypochlorite (free chlorine)* 650-675 ppmAccelerated hydrogen peroxide 2.0%Peracetic acid 0.2%Glut and isopropanol 3.4%/26%Glut and phenol/phenate** 1.21%/1.93%___*May cause cosmetic and functional damage; **efficacy not verified
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Automated Endoscope Reprocessors with Cleaning Claim
Product Definition: Integrated double-bay AER Eliminates manual cleaning Uses New High-Level Disinfectant (HLD) with
IP protection Single-shot HLD Automated testing of endoscope channels
and minimum effective concentration of HLD Incorporates additional features (LAN, LCD
display) Eliminates soil and microbes equivalent to
optimal manual cleaning. BMC ID 2010; 10:200
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DISINFECTION AND STERILIZATIONRutala, Weber, HICPAC. 2008. www.cdc.gov
• EH Spaulding believed that how an object will be disinfected depended on the object’s intended use CRITICAL - objects which enter normally sterile tissue or the
vascular system or through which blood flows should be sterile SEMICRITICAL - objects that touch mucous membranes or skin
that is not intact require a disinfection process (high-level disinfection[HLD]) that kills all microorganisms but high numbers of bacterial spores
NONCRITICAL - objects that touch only intact skin require low-level disinfection
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LOW-LEVEL DISINFECTION FOR NONCRITICAL EQUIPMENT AND SURFACES
Exposure time > 1 minGermicide Use Concentration
Ethyl or isopropyl alcohol 70-90%Chlorine 100ppm (1:500 dilution)Phenolic UDIodophor UDQuaternary ammonium UDImproved hydrogen peroxide (HP) 0.5%, 1.4%____________________________________________________UD=Manufacturer’s recommended use dilution
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IMPROVED HYDROGEN PEROXIDE (HP) SURFACE DISINFECTANT
• Advantages 30 sec -1 min bactericidal and virucidal claim (fastest non-bleach contact time) 5 min mycobactericidal claim Safe for workers (lowest EPA toxicity category, IV) Benign for the environment; noncorrosive; surface compatible One step cleaner-disinfectant No harsh chemical odor EPA registered (0.5% RTU, 1.4% RTU, wet wipe)
• Disadvantages More expensive than QUAT
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BACTERICIDAL ACTIVITY OF DISINFECTANTS (log10 reduction) WITH A CONTACT TIME OF 1m WITH/WITHOUT FCS. Rutala et al. ICHE. In press
Organism IHP-0.5% 0.5% HP IHP Cleaner-Dis 1.4%
1.4% HP 3.0% HP QUAT
MRSA >6.6 <4.0 >6.5 <4.0 <4.0 5.5
VRE >6.3 <3.6 >6.1 <3.6 <3.6 4.6
MDR-Ab >6.8 <4.3 >6.7 <4.3 <4.3 >6.8
MRSA, FCS >6.7 NT >6.7 NT <4.2 <4.2
VRE, FCS >6.3 NT >6.3 NT <3.8 <3.8
MDR-Ab, FCS
>6.6 NT >6.6 NT <4.1 >6.6
Improved hydrogen peroxide is significantly superior to standard HP at same concentration and superior or similar to the QUAT tested
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Hospital Privacy Curtains(sprayed “grab area” 3x from 6-8” with 1.4% IHP and allowed 2 minute contact; sampled)
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Decontamination of Curtains with Activated HP (1.4%)Rutala, Gergen, Weber. 2012
CP for: Before DisinfectionCFU/5 Rodacs (#Path)
After DisinfectionCFU/5 Rodacs (#Path)
% Reduction
MRSA 330 (10 MRSA) 21*(0 MRSA) 93.6%
MRSA 186 (24 VRE) 4* (0 VRE) 97.9%
MRSA 108 (10 VRE) 2* (0 VRE) 98.2%
VRE 75 (4 VRE) 0 (0 VRE) 100%
VRE 68 (2 MRSA) 2* (0 MRSA) 97.1%
VRE 98 (40 VRE) 1* (0 VRE) 99.0%
MRSA 618 (341 MRSA) 1* (0 MRSA) 99.8%
MRSA 55 (1 VRE) 0 (0 MRSA) 100%
MRSA, VRE 320 (0 MRSA, 0 VRE) 1* (0 MRSA, 0 VRE) 99.7%
MRSA 288 (0 MRSA) 1* (0 MRSA) 99.7%
Mean 2146/10=215 (432/10=44) 33*/10=3 (0) 98.5%
* All isolates after disinfection were Bacillus sp
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Safer Healthcare Environments for Infection PreventionNew Technologies and Future Challenges
• Reprocessing reusable medical/surgical instruments• Hospital surfaces (increasing evidence to support the
contribution of the environment to disease transmission)• Water • Air
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HAZARDS IN THE HOSPITAL
Weinstein RA. Am J Med 1991;91(suppl 3B):179S
MRSA, VRE,C. difficile, Acinetobacter spp.,norovirus
Endogenous flora 40-60%Cross-infection (hands): 20-40%Antibiotic driven: 20-25%Other (environment): 20%
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THE ROLE OF THE ENVIRONMENT IN DISEASE TRANSMISSION
• Over the past decade there has been a growing appreciation that environmental contamination makes a contribution to HAI with MRSA, VRE, Acinetobacter, norovirus and C. difficile
• Surface disinfection practices are currently not effective in eliminating environmental contamination• Inadequate terminal cleaning of rooms occupied by patients with
MDR pathogens places the next patients in these rooms at increased risk of acquiring these organisms
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TRANSMISSION MECHANISMS INVOLVING THE SURFACE ENVIRONMENT
Rutala WA, Weber DJ. In:”SHEA Practical Healthcare Epidemiology” (Lautenbach E, Woeltje KF, Malani PN, eds), 3rd ed, 2010.
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ACQUISITION OF MRSA ON HANDS AFTER CONTACT WITH ENVIRONMENTAL SITES
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TRANSFER OF MRSA FROM PATIENT OR ENVIRONMENT TO IV DEVICE AND TRANSMISSON OF PATHOGEN
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ENVIRONMENTAL CONTAMINATION LEADS TO HAIsWeber, Rutala, Miller et al. AJIC 2010;38:S25
• Microbial persistence in the environment In vitro studies and environmental samples MRSA, VRE, AB, CDI
• Frequent environmental contamination MRSA, VRE, AB, CDI
• HCW hand contamination MRSA, VRE, AB, CDI
• Relationship between level of environmental contamination and hand contamination CDI
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ENVIRONMENTAL CONTAMINATION LEADS TO HAIs Weber, Rutala, Miller et al. AJIC 2010;38:S25
• Person-to-person transmission Molecular link MRSA, VRE, AB, CDI
• Housing in a room previously occupied by a patient with the pathogen of interest is a risk factor for disease MRSA, VRE, CDI
• Improved surface cleaning/disinfection reduces disease incidence MRSA, VRE, CDI
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KEY PATHOGENS WHERE ENVIRONMENTIAL SURFACES PLAY A ROLE IN TRANSMISSION
• MRSA• VRE• Acinetobacter spp.• Clostridium difficile
• Norovirus• Rotavirus• SARS
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C. difficile Environmental ContaminationRutala, Weber. SHEA. 3rd Edition. 2010
• Frequency of sites found contaminated~10->50% from 13 studies-stethoscopes, bed frames/rails, call buttons, sinks, hospital charts, toys, floors, windowsills, commodes, toilets, bedsheets, scales, blood pressure cuffs, phones, door handles, electronic thermometers, flow-control devices for IV catheter, feeding tube equipment, bedpan hoppers• C. difficile spore load is low-7 studies assessed the spore load
and most found <10 colonies on surfaces found to be contaminated. Two studies reported >100; one reported a range of “1->200” and one study sampled several sites with a sponge and found 1,300 colonies C. difficile.
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FREQUENCY OF ACQUISITION OF MRSA ON GLOVED HANDS AFTER CONTACT WITH SKIN AND ENVIRONMENTAL SITES
No significant difference on contamination rates of gloved hands after contact with skin or environmental surfaces (40% vs 45%; p=0.59)
Stiefel U, et al. ICHE 2011;32:185-187
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Risk of Acquiring MRSA and VREfrom Prior Room Occupants
• Admission to a room previously occupied by an MRSA-positive patient or VRE-positive patient significantly increased the odds of acquisition for MRSA and VRE (although this route is a minor contributor to overall transmission). Arch Intern Med 2006;166:1945.
• Prior environmental contamination, whether measured via environmental cultures or prior room occupancy by VRE-colonized patients, increases the risk of acquisition of VRE. Clin Infect Dis 2008;46:678.
• Prior room occupant with CDAD is a significant risk for CDAD acquisition. Shaughnessy et al. ICHE 2011;32:201
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A Targeted Strategy for C. difficile Orenstein et al. 2011. ICHE;32:1137
Daily cleaning with bleach wipes on high incidence wards reduced CDI 85% (24.2 to 3.6 cases/10,000 patient days and prolonged median time between HA CDI from 8 to 80 days
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Thoroughness of Environmental CleaningCarling et al. ECCMID, Milan, Italy, May 2011
0
20
40
60
80
100
%
DAILY CLEANING
TERMINAL CLEANING
Cle
an
ed
Mean = 32%
>110,000 Objects
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WipesCotton, Disposable, Microfiber
Wipe should have sufficient wetness to achieve the disinfectant contact time. Discontinue use of a disposable wipe if it no longer leaves the surface visibly wet for > 1m
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SURFACE DISINFECTIONEffectiveness of Different Methods, Rutala et al. 2012
Technique (with cotton) MRSA Log10 Reduction (QUAT)
Saturated cloth 4.41
Spray (10s) and wipe 4.41
Spray, wipe, spray (1m), wipe 4.41
Spray 4.41
Spray, wipe, spray (until dry) 4.41
Disposable wipe with QUAT 4.55
Control: detergent 2.88
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EFFECTIVENESS OF DISINFECTANTS AGAINST MRSA AND VRE
Rutala WA, et al. Infect Control Hosp Epidemiol 2000;21:33-38.
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Mean proportion of surfaces disinfected at terminal cleaning is 32%
Terminal cleaning methods ineffective (products effective practices deficient [surfaces not wiped])
in eliminating epidemiologically important pathogens
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ENVIRONMENTAL CONTAMINATION LEADS TO HAIs
• There is increasing evidence to support the contribution of the environment to disease transmission• This supports comprehensive disinfecting regimens (goal
is not sterilization) to reduce the risk of acquiring a pathogen from the healthcare environment
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MONITORING THE EFFECTIVENESS OF CLEANINGCooper et al. AJIC 2007;35:338
• Visual assessment-not a reliable indicator of surface cleanliness• ATP bioluminescence-measures organic debris (each unit
has own reading scale, <250-500 RLU) • Microbiological methods-<2.5CFUs/cm2-pass; can be
costly and pathogen specific• Fluorescent marker
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TERMINAL ROOM CLEANING: DEMONSTRATION OF IMPROVED CLEANING
Evaluated cleaning before and after an intervention to improve cleaning
36 US acute care hospitals Assessed cleaning using a
fluorescent dye Interventions
Increased education of environmental service workers
Feedback to environmental service workers
†Regularly change “dotted” items to prevent targeting objects
Carling PC, et al. ICHE 2008;29:1035-41
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NEW APPROACHES TO ROOM DECONTAMINATION
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ROOM DECONTAMINATION UNITSRutala, Weber. ICHE. 2011;32:743
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UV Room Decontamination• Fully automated, self calibrates, activated by hand-held remote• Room ventilation does not need to be modified• Uses UV-C (254 nm range) to decontaminate surfaces• Measures UV reflected from walls, ceilings, floors or other treated
areas and calculates the operation time to deliver the programmed lethal dose for pathogens.
• UV sensors determines and targets highly-shadowed areas to deliver measured dose of UV energy (12,000µWs/cm2 bacteria)
• After UV dose delivered, will power-down and audibly notify the operator
• Reduces colony counts of pathogens by >99.9% within 20-25m
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EFFECTIVENESS OF UV ROOM DECONTAMINATION
Rutala WA, et al. Infect Control Hosp Epidemiol. 2010;31:1025-1029.
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HP SYSTEMS FOR ROOM DECONTAMINATION
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HP SYSTEMS FOR DECONTAMINATION OF THE HOSPITAL ENVIRONMENT
Falagas, et al. J Hosp Infect. 2011;78:171.
Author, Year HP System Pathogen Before HPV After HPV % Reduction
French, 2004 VHP MRSA 61/85-72% 1/85-1% 98
Bates, 2005 VHP Serratia 2/42-5% 0/24-0% 100
Jeanes, 2005 VHP MRSA 10/28-36% 0/50-0% 100
Hardy, 2007 VHP MRSA 7/29-24% 0/29-0% 100
Dryden, 2007 VHP MRSA 8/29-28% 1/29-3% 88
Otter, 2007 VHP MRSA 18/30-60% 1/30-3% 95
Boyce, 2008 VHP C. difficile 11/43-26% 0/37-0% 100
Bartels, 2008 HP dry mist MRSA 4/14-29% 0/14-0% 100
Shapey, 2008 HP dry mist C. difficile 48/203-24%; 7 7/203-3%; 0.4 88
Barbut, 2009 HP dry mist C. difficile 34/180-19% 4/180-2% 88
Otter, 2010 VHP GNR 10/21-48% 0/63-0% 100
Reliable biocidal activity against a wide range of pathogens
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ROOM DECONTAMINATION WITH HPV
Study design Before and after study of HPV
Outcome C. difficile incidence
Results HPV decreased environmental
contamination with C. difficile (p<0.001), rates on high incidence floors from 2.28 to 1.28 cases per 1,000 pt days (p=0.047), and throughout the hospital from 1.36 to 0.84 cases per 1,000 pt days (p=0.26)
Boyce JM, et al. Infect Control Hosp Epidemiol. 2008;29:723-729.
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UV ROOM DECONTAMINATION: ADVANTAGES AND DISADVANTAGES
Advantages Reliable biocidal activity against a wide range of pathogens Surfaces and equipment decontaminated Room decontamination is rapid (~15 min) for vegetative bacteria HVAC system does not need to be disabled and room does not need to be sealed UV is residual free and does not give rise to health and safety concerns No consumable products so operating costs are low (key cost = acquisition)
Disadvantages No studies evaluating whether use reduces HAIs Can only be done for terminal disinfection (i.e., not daily cleaning) All patients and staff must be removed from room Substantial capital equipment costs Does not remove dust and stains which are important to patients/visitors Sensitive use parameters (e.g., UV dose delivered)
Rutala WA, Weber DJ. ICHE 2011;32:743-747
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HP ROOM DECONTAMINATION: ADVANTAGES AND DISADVANTAGES
Advantages Reliable biocidal activity against a wide range of pathogens Surfaces and equipment decontaminated Demonstrated to decrease disease incidence (C. difficile) Residual free and does not give rise to health and safety concerns (aeration units convert
HPV into oxygen and water) Useful for disinfecting complex equipment and furniture
Disadvantages Can only be done for terminal disinfection (i.e., not daily cleaning) All patients and staff must be removed from room Decontamination takes approximately 3-5 hours HVAC system must be disabled and the room sealed with tape Substantial capital equipment costs Does not remove dust and stains which are important to patients/visitors Sensitive use parameters (e.g., HP concentration)
Rutala WA, Weber DJ. ICHE (In press)
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Rapid Hospital Room Decontamination Using UV Light With a Nanostructured Reflective Coating
• Assessed the time required to kill HAI pathogens in a room with standard white paint (3-7% UV reflective) versus walls coated with an agent formulated to be reflective to UV-C wavelengths (65% UV reflective)• Coating uses nanoscale metal oxides whose crystal structures
are reflective to UV-C• Coating is white in appearance and can be applied with a brush
or roller in the same way as any common interior latex paint• Cost to coat walls used in this study was estimated to be <$300.
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UV Reflective CoatingRutala, Gergen, Tande, Weber. 2012
Line-of-Sight MRSA w/coating MRSA no coating C. difficile w/coating C. difficile no coating
Cycle Time 5m03s 25m13s 9m24s 43m42s
Direct 4.70 (n=42) 4.72 (n=33) 3.28 (n=39) 3.42 (n=33)
Indirect 4.45 (n=28) 4.30 (n=27) 2.42 (n=31) 2.01 (n=27)
Total 4.60 (n=70) 4.53 (n=60) 2.91 (n=70) 2.78 (n=60)
With the nanoscale reflective coating, cycle times were 5-10m (~80% reduction) which would substantially reduce the turnover time of the room
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METHODS TO IMPROVE DISINFECTIONOF ENVIRONMENTAL SURFACES
• Enhanced environmental cleaning and disinfection Improved education of environmental service workers Use of checklists Monitoring of cleaning with fluorescent dye, ATPase, aerobic plate counts
• “No touch” terminal disinfection UV light Hydrogen peroxide: Vapor or aerosol Portable steam dispensers
• Self disinfecting surfaces (or persistent antimicrobials)
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RATIONALE FOR DEVELOPMENTOF SELF DISINFECTING SURFACES
• Unlike improved environmental cleaning does not require a ongoing behavior change or education of personnel
• Self-sustaining once in place• Allows continued disinfection (may eliminate the problem of
recontamination), unlike no touch methods which can only be used for terminal disinfection
• Most hospital surfaces have a low bioburden of pathogens (i.e., <100 per cm2)
• Once purchased might not have a maintenance cost
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SELF DISINFECTING SURFACES• Surface impregnated with a “heavy” metal
Silver Copper
• Surface impregnated with a germicide Triclosan Antimicrobial surfactant/quaternary ammonium salt? Organosilane products?
• Altered topography Sharklet pattern
• Light-activated antimicrobial coatingWeber DJ, Rutala WA. ICHE 2012;33:10-13
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SELF DISINFECTING SURFACES
Sharklet Pattern
Copper coatedoverbed table
Antimicrobialeffects of silver
Triclosan pen
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IN VITRO EFFECTIVENESS OF A SILVER COATING AGAINST BACTERIAL CHALLENGE
Study design: In vitro study Study agent: Surfacine (~10 g/cm2 silver iodide) Methods: Surface coated with Surfacine and then challenged with VRE Results:
Antimicrobial activity retained despite repeated dry wiping or wiping with a QUAT
Rutala WA, Weber DJ. Emerg Infect Dis 2001;7:348
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Role of Copper in Reducing Hospital Environmental Contamination
Casey et al. 2010: 74:72-77
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COPPER VERSUS STANDARD ITEMS:A CROSS-OVER STUDY OF CONTAMINATION
Study: To assess antimicrobial activity of copper coated objects Method: Cross-over study on an acute medical ward Results: Copper reduced aerobic counts by 90-100% Toilet seat 87 v 2/ cm2; push plate 2 v 0/cm2; hot water tap handle 7.5 v 0/cm2
Casey AL, et al. J Hosp Infect 2010;74:72-77
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Efficacy of Copper Alloy in Clinical Environment
• Copper surfaces demonstrated to be cidal to HA pathogen
• Limitations Cost of purchasing and installing copper items Reduction of microbial contamination is modest (i.e., 1 log10) How soiling, cleaning, etc affect properties not studied Impractical/impossible to coat all environmental surfaces and
medical devices that could lead to hand contamination No studies whether use reduces HAI rates
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SURFACE DISINFECTANTS: PERSISTENCE
Surface disinfectant Persistence
Phenolic No
Quaternary ammonium compound Yes (with caveats)
Alcohol No
Hypochlorite No
Hydrogen peroxide No
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QUATS AS SURFACE DISINFECTANTSWITH PERSISTENT ACTIVITY
Study of computer keyboards: Challenge with VRE or P. aeruginosa
Keys wiped with alcohol or quats (CaviWipes, Clorox Disinfecting Wipes, or Sani-Cloth Plus)
Persistent activity when undisturbed any contact will result in removal of the Quat and loss of persistent activity
Rutala WA, White MS, Gergen MF,Weber DJ. ICHE 2006;27:372-77.
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EFFICACY OF LIGHT-ACTIVATED ANTIMICROBIAL COATING
Germicide: Silicone polymers containing photosensitizer methylene blue (MB) and Au nanoparticles
Results (exposure to 28W light): Panel A: Mean number of MRSA
recovered after 24hr incubation Panel B: Mean number of MRSA
recovered after 6hr incubation
ReductionMB = 99.33%AU = 99.99%
ReductionMB = 56.51%AU = 92.30%
Ismail S, et al. ICHE 2011;32:1130-32
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ADVANTAGES AND DISADVANTAGESOF SELF DISINFECTING SURFACES
• Advantages Passive (i.e., requires no additional maintenance once installed) Effective throughout patient occupancy (i.e., not just at terminal disinfection) Prevents recontamination Depending on method may be manufactured in or applied by dipping, brushing or
spraying
• Disadvantages No studies evaluating whether use reduces HAIs Impossible to coat/cover all frequently touched surfaces with antimicrobial
coating (e.g., medical equipment, television remote, curtains) Reduces but does not eliminate pathogenic microorganisms Durability? Cost? (unknown) Development of resistant pathogens (i.e., copper, silver)
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Safer Healthcare Environments for Infection PreventionNew Technologies and Future Challenges
• Reprocessing reusable medical/surgical instruments• Hospital surfaces (increasing evidence to support the
contribution of the environment to disease transmission)• Water• Air
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Water and HealthcareWater and HealthcareMultiple Uses Multiple Uses
CDC
CDC
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Water-Related Pathogens and Their Disease Transmission Pathways
Exner et al. AJIC 33:S26-40; 2005
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WATER RESERVOIRSRutala, Weber. ICHE 1997;18:609
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Water Wall Fountains and Electronic Faucets
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Water Walls Linked to Legionnaires’
• Palmore et al. ICHE 2009;30:764 2 immunocompromised patients exposed to decorative fountain
in radiation oncology; isolates from patients and fountain identical; disinfection with ozone, filter and weekly cleaning
• Houpt et al. ICHE 2012;33:185 Lab-confirmed Legionnaires disease was dx in 8 patients; 6 had
exposure to decorative fountain (near main entrance to hospital); high counts of Legionella pneumophila 1 despite disinfection and maintenance
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Water Walls and Decorative Water Fountains
Present unacceptable risk in hospitals serving immunocompromised patients (even with
standard maintenance and sanitizing methods)
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Electronic FaucetsA Possible Source of Nosocomial Infection?
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Electronic Faucets
• Conserve water• Conserve energy• Hygienic• Hands free• Barrier free
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Electronic (E) vs Handle-Operated (HO) Faucets
• 100% E vs 30% HO Legionella (no cases). Halabi et al. JHI 2001:49:117
• Significant difference HPC levels between brand A (32%) and B (8%) E compared to HO (11%). Hargreaves et al. 2001; 22:202
• No difference in P. aeruginosa. Assadian et al. ICHE. 2002;23:44.
• 73% E samples did not meet water std vs 0% HO• 29% of water samples from E and 1% from HO yielded P.
aeruginosa. Merrer et al. Intensive Care Med 2005;31:1715
• 95% E grew Legionella compared to 45% HO (water-disruption events). Syndor et al. ICHE; 33:235
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Issues Associated with Electronic Faucets
• A longer distance between the valve and the tap, resulting in a longer column of stagnant, warm water, which favors production of biofilms• Reduced water flow; reduced flushing effect (growth
favored)• Valves and pipes made of plastic (enhances adhesion P.
aeruginosa)
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Prevention Measures
• Electronic faucets constructed so they do not promote the growth of microorganisms• A potential source of nosocomial pathogens• No guideline (but some have recommended) to remove
electronic faucets from at-risk patient care areas (BMTU)• Some have recommended periodic monitoring of water
samples for growth of Legionella
• More data are needed to establish role in HAIs
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Safer Healthcare Environments for Infection PreventionNew Technologies and Future Challenges
• Reprocessing reusable medical/surgical instruments• Hospital surfaces (increasing evidence to support the
contribution of the environment to disease transmission)• Water• Air
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MOST COMMON PATHOGENS ASSOCIATED WITH CONSTRUCTION OR RENOVATION OUTBREAKS
• Aspergillus spp. (by far most important)• Zygomycetes• Other fungi• Miscellaneous
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No. of Patients Mortality (%)
Hematologic malignancy 299 57.6Solid organ transplant Renal transplant Liver transplant
36 8
55.9
Other immunocompromised High-dose steroid therapy Neonates Other malignancy Chronic lung disease ICU patients (“high-risk”) No exact classification possible
15 5 4 2 2 49
52.3
Patients without severe immunodeficiency Thoracic surgery Cataract surgery ICU patients (“low risk”) Other surgery patients
25 5 5 3
39.4
TOTAL 458 55.0
UNDERLYING CONDITIONS IN PATIENTS WITH NOSOCOMIAL ASPERGILLOSIS
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NOSOCOMIAL ASPERGILLOSISIN OUTBREAK SETTINGS
12
23
3
9
6
Unknown
Construction work (probably)
Construction work (possible)
Air supply
Other source
Vonberg R-P, Gastmeier P. J Hosp Infect 2006;63:246-54
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RELEVANT GUIDELINES
• 2003: Guidelines for preventing health-care-associated pneumonia (HICPAC)• 2003: Guidelines for environmental infection control in health-care facilities (CDC,
HICPAC)• 2000: Guidelines for preventing opportunistic infections among hematopoietic stem
cell transplant recipients (CDC, IDSA, ASBMT)• American Institute of Architects Academy of Architecture for Health. Guidelines for
Design and Construction of Hospital and Health Care Facilities , 2006. (telephone #: 888-272-4115)
• Construction and Renovation, 3rd Edition ,and Infection Prevention for Construction DVD, Association for Professionals in Infection Control and Epidemiology, 2007 ($173 member price ) APIC store: www.apic.org/
• APIC Text of Infection Control and Epidemiology, 3rd ed. Association for Professionals in Infection Control and Epidemiology, 2009. www.apic.org/
• ASHRAE - American Society of Heating, Refrigeration and Air Conditioning Engineers
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INFECTION CONTROL RISK ASSESSMENT (ICRA)
• ICRA is an multidisciplinary, organizational, documented process that after considering the facility’s patient population and type of construction project (non-invasive to major demolition): Focuses on reduction of risk from infection Acts through phases of facility planning, design, construction,
renovation, facility maintenance and Coordinates and weights knowledge about infection, infectious agents,
type of construction project and care environment permitting the organization to anticipate potential impact
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STEP 3:MATCH RISK GROUP WITH CONSTRUCTION TYPE
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INFECTION CONTROL BY CLASSDuring construction After construction
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Portable HEPA UnitsRutala et al. ICHE 1995;16:391
Can rapidly reduce levels of airborne particles (0.3µ, for example, 90% in ~5 m); used in construction worksite and reduce risk to TB exposure.
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Safer Healthcare Environments for Infection PreventionNew Technologies and Future Challenges
• Reprocessing reusable medical/surgical instruments• Hospital surfaces• Water • Air
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CONCLUSIONS• New sterilization, high-level disinfection and low-level disinfection
technologies/practices/products are effective
• The contaminated surface environment in hospital rooms is important in the transmission of healthcare-associated pathogens (MRSA, VRE, C. difficile)
• Effective surface disinfection essential to eliminate the environment as a source for transmission of HA pathogens.
• New methods of reducing transmission of these pathogens may include: improved room cleaning/disinfection, “no-touch” methods (UV, HP), and self-disinfecting surfaces
• Water reservoirs of HA pathogens (e.g., water walls) may present unacceptable risk to high-risk patients
• Use of Infection Control Risk Assessment is a logical method to reduce risks associated with construction and renovation projects
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disinfectionandsterilization.org
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THANK YOU!