Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-30 (of 57 Records) |
Query Trace: Noble-Wang J[original query] |
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Investigating surface area and recovery efficiency of healthcare-associated pathogens to optimize composite environmental sampling
Chan-Riley MY , Edwards JR , Noble-Wang J , Rose L . PLoS One 2024 19 (11) e0310283 Hospital surfaces are known to contribute to the spread of healthcare-associated antimicrobial pathogens. Environmental sampling can help locate reservoirs and determine intervention strategies, although sampling and detection can be labor intensive. Composite approaches may help reduce time and costs associated with sampling and detection. We investigated optimum surface areas for sampling antimicrobial-resistant organisms (AROs) with a single side of cellulose sponge, created theoretical composites (TC) by adding recovery results from multiple optimum areas, then compared the TC to the standard Centers for Disease Control and Prevention sampling method (one sponge using all sides, whole tool; (WT)). Five AROs were evaluated: carbapenemase-producing KPC+ Klebsiella pneumoniae (KPC), Acinetobacter baumannii (AB), methicillin-resistant Staphylococcus aureus (MRSA), vancomycin-resistant Enterococcus faecalis (VRE) and Clostridioides difficile spores (CD). Steel coupons comprising four surface areas (323; 645; 1,290 and 2,258 cm2) were inoculated, dried, and sampled with one sampling pass using the larger side (face) or the smaller side (edge) of a pre-moistened cellulose sponge tool. Based on the optimum areas determined for each organism, composite areas were 1,290 cm2 for MRSA and VRE, 1,936 cm2 for AB, 2,580 cm2 for CD spores and 3,870 cm2 for KPC. Total colony forming units (CFU) recovered using a composite approach was greater or comparable than using multiple WT samplings (over the same area as the composite) for MRSA, VRE and AB (130%; 144% and 95%) yet less than if using multiple WT samplings for KP and CD (47% and 66%). We propose a conservative composite sampling strategy if the target organism is unknown; 323 cm2 sampling area for each of the four sides of the sponge, (1290 cm2 total). The conservative composite sampling strategy improved the recovery of KP (from 47% to 85% of multiple WT samplings), while MRSA, VRE, AB and CD (131%; 144%; 97% and 66%) remained within 5% to that of the optimum area TC. |
Rapid environmental contamination with candida auris and multidrug-resistant bacterial pathogens near colonized patients
Sansom SE , Gussin GM , Schoeny M , Singh RD , Adil H , Bell P , Benson EC , Bittencourt CE , Black S , Del Mar Villanueva Guzman M , Froilan MC , Fukuda C , Barsegyan K , Gough E , Lyman M , Makhija J , Marron S , Mikhail L , Noble-Wang J , Pacilli M , Pedroza R , Saavedra R , Sexton DJ , Shimabukuro J , Thotapalli L , Zahn M , Huang SS , Hayden MK . Clin Infect Dis 2023 BACKGROUND: Environmental contamination is suspected to play an important role in Candida auris transmission. Understanding speed and risks of contamination after room disinfection could inform environmental cleaning recommendations. METHODS: We conducted a prospective multicenter study of environmental contamination associated with C. auris colonization at six ventilator-capable skilled nursing facilities and one acute-care hospital in Illinois and California. Known C. auris carriers were sampled at five body-sites followed by sampling of nearby room surfaces before disinfection and at 0, 4, 8, and 12-hours post-disinfection. Samples were cultured for C. auris and bacterial multidrug-resistant organisms (MDROs). Odds of surface contamination after disinfection were analyzed using multilevel generalized estimating equations. RESULTS: Among 41 known C. auris carriers, colonization was detected most frequently on palms/fingertips (76%) and nares (71%). C. auris contamination was detected on 32.2% (66/205) of room surfaces pre-disinfection and 20.5% (39/190) of room surfaces by 4-hours post-disinfection. A higher number of C. auris-colonized body sites was associated with higher odds of environmental contamination at every time point following disinfection, adjusting for facility of residence. In the rooms of 38 (93%) C. auris carriers co-colonized with a bacterial MDRO, 2%-24% of surfaces were additionally contaminated with the same MDRO by 4-hours post-disinfection. CONCLUSIONS: C. auris can contaminate the healthcare environment rapidly after disinfection, highlighting the challenges associated with environmental disinfection. Future research should investigate long-acting disinfectants, antimicrobial surfaces, and more effective patient skin antisepsis to reduce the environmental reservoir of C. auris and bacterial MDROs in healthcare settings. |
Posttransfusion sepsis attributable to bacterial contamination in platelet collection set manufacturing facility, United States
Kracalik I , Kent AG , Villa CH , Gable P , Annambhotla P , McAllister G , Yokoe D , Langelier CR , Oakeson K , Noble-Wang J , Illoh O , Halpin AL , Eder AF , Basavaraju SV . Emerg Infect Dis 2023 29 (10) 1979-1989 During May 2018‒December 2022, we reviewed transfusion-transmitted sepsis cases in the United States attributable to polymicrobial contaminated apheresis platelet components, including Acinetobacter calcoaceticus‒baumannii complex or Staphylococcus saprophyticus isolated from patients and components. Transfused platelet components underwent bacterial risk control strategies (primary culture, pathogen reduction or primary culture, and secondary rapid test) before transfusion. Environmental samples were collected from a platelet collection set manufacturing facility. Seven sepsis cases from 6 platelet donations from 6 different donors were identified in patients from 6 states; 3 patients died. Cultures identified Acinetobacter calcoaceticus‒baumannii complex in 6 patients and 6 transfused platelets, S. saprophyticus in 4 patients and 4 transfused platelets. Whole-genome sequencing showed environmental isolates from the manufacturer were closely related genetically to patient and platelet isolates, indicating the manufacturer was the most probable source of recurrent polymicrobial contamination. Clinicians should maintain awareness of possible transfusion-transmitted sepsis even when using bacterial risk control strategies. |
Surface area matters: An evaluation of swabs and surface area for environmental surface sampling of healthcare pathogens
West RM , Shams AM , Chan MY , Rose LJ , Noble-Wang JA . Infect Control Hosp Epidemiol 2022 44 (5) 1-3 Flocked and foam swabs were used to sample five healthcare pathogens from three sizes of steel and plastic coupons; 26 cm(2), 323 cm(2), and 645 cm(2). As surface area increased, 1-2 log(10) decrease in recovered organisms (P < .05) was observed. Sampling 26-cm(2) yielded the optimal median percent of pathogens recovered. |
Factors influencing environmental sampling recovery of healthcare pathogens from non-porous surfaces with cellulose sponges
Rose LJ , Houston H , Martinez-Smith M , Lyons AK , Whitworth C , Reddy SC , Noble-Wang J . PLoS One 2022 17 (1) e0261588 Results from sampling healthcare surfaces for pathogens are difficult to interpret without understanding the factors that influence pathogen detection. We investigated the recovery of four healthcare-associated pathogens from three common surface materials, and how a body fluid simulant (artificial test soil, ATS), deposition method, and contamination levels influence the percent of organisms recovered (%R). Known quantities of carbapenemase-producing KPC+ Klebsiella pneumoniae (KPC), Acinetobacter baumannii, vancomycin-resistant Enterococcus faecalis, and Clostridioides difficile spores (CD) were suspended in Butterfield's buffer or ATS, deposited on 323cm2 steel, plastic, and laminate surfaces, allowed to dry 1h, then sampled with a cellulose sponge wipe. Bacteria were eluted, cultured, CFU counted and %R determined relative to the inoculum. The %R varied by organism, from <1% (KPC) to almost 60% (CD) and was more dependent upon the organism's characteristics and presence of ATS than on surface type. KPC persistence as determined by culture also declined by >1 log10 within the 60 min drying time. For all organisms, the %R was significantly greater if suspended in ATS than if suspended in Butterfield's buffer (p<0.05), and for most organisms the %R was not significantly different when sampled from any of the three surfaces. Organisms deposited in multiple droplets were recovered at equal or higher %R than if spread evenly on the surface. This work assists in interpreting data collected while investigating a healthcare infection outbreak or while conducting infection intervention studies. |
The Effect of Disinfectants on the Microbial Community on Environmental Healthcare Surfaces using Next Generation Sequencing.
Perry-Dow KA , de Man T , Halpin AL , Shams AM , Rose LJ , Noble-Wang JA . Am J Infect Control 2021 50 (1) 54-60 BACKGROUND: Healthcare-associated infections (HAIs) are a significant economic burden and cause of avoidable morbidity and mortality within healthcare systems. The contribution of environmental contamination to HAI transmission has been recognized, but the mechanisms by which transmission occurs are still being investigated. The objective of this study was to characterize the microbial communities of disinfected, non-critical healthcare surfaces using next generation sequencing technology. METHODS: Composite environmental surface samples were from high-touch surfaces in rooms of patients isolated for infections with multidrug-resistant organisms during their hospitalization. Information on the disinfectant product used and cleaning type (routine or terminal) was collected. 16S rRNA gene amplicon sequencing and analysis were performed. Community analysis was conducted to determine the bacterial composition and compare the detection of target pathogens by culture from 94 Contact Precaution rooms. RESULTS: Overall percent agreement between culture and sequence methods ranged from 52% to 88%. A significant difference was observed in bacterial composition between rooms cleaned with bleach and those cleaned with a quaternary ammonium compound (QAC) for composite 2 (overbed table, intravenous pole, and inner room door handle) (ANOSIM R2 = 0.66, p = 0.005) but not composite 1 (bed rails, television remote control unit, call buttons, and telephone). CONCLUSIONS: Surfaces in bleach-cleaned rooms contained a higher proportion of gram-positive microbiota, whereas rooms cleaned with QAC contained a higher proportion of gram-negative microbiota, suggesting disinfectant products may impact the healthcare environment microbiome. |
Sampling efficiency of Candida auris from healthcare surfaces: culture and nonculture detection methods
Furin WA , Tran LH , Chan MY , Lyons AK , Noble-Wang J , Rose LJ . Infect Control Hosp Epidemiol 2021 43 (10) 1-3 Sponges and swabs were evaluated for their ability to recover Candida auris dried 1 hour on steel and plastic surfaces. Culture recovery ranged from <0.1% (sponges) to 8.4% (swabs), and cells detected with an esterase activity assay revealed >50% recovery (swabs), indicating that cells may enter a viable but nonculturable state. |
Positive correlation between Candida auris skin-colonization burden and environmental contamination at a ventilator-capable skilled nursing facility in Chicago
Sexton DJ , Bentz ML , Welsh RM , Derado G , Furin W , Rose LJ , Noble-Wang J , Pacilli M , McPherson TD , Black S , Kemble SK , Herzegh O , Ahmad A , Forsberg K , Jackson B , Litvintseva AP . Clin Infect Dis 2021 73 (7) 1142-1148 BACKGROUND: Candida auris is an emerging multidrug-resistant yeast that contaminates healthcare environments causing healthcare-associated outbreaks. The mechanisms facilitating contamination are not established. METHODS: C. auris was quantified in residents' bilateral axillary/inguinal composite skin swabs and environmental samples during a point-prevalence survey at a ventilator-capable skilled-nursing facility (vSNF A) with documented high colonization prevalence. Environmental samples were collected from all doorknobs, windowsills and handrails of each bed in 12 rooms. C. auris concentrations were measured using culture and C. auris-specific qPCR. The relationship between C. auris concentrations in residents' swabs and associated environmental samples were evaluated using Kendall's tau-b (τb) correlation coefficient. RESULTS: C. auris was detected in 70 /100 tested environmental samples and 31/ 57 tested resident skin swabs. The mean C. auris concentration in skin swabs was 1.22 x 10 5 cells/mL by culture and 1.08 x 10 6 cells/mL by qPCR. C. auris was detected on all handrails of beds occupied by colonized residents, as well as 10/24 doorknobs and 9/12 windowsills. A positive correlation was identified between the concentrations of C. auris in skin swabs and associated handrail samples based on culture (τb = 0.54, p = 0.0004) and qPCR (τb = 0.66, p = 3.83e -6). Two uncolonized residents resided in beds contaminated with C. auris. CONCLUSIONS: Colonized residents can have high C. auris burdens on their skin, which was positively related with contamination of their surrounding healthcare environment. These findings underscore the importance of hand hygiene, transmission-based precautions, and particularly environmental disinfection in preventing spread in healthcare facilities. |
Recovery efficiency of two glove-sampling methods
Lyons AK , Rose LJ , Noble-Wang J . Infect Control Hosp Epidemiol 2021 43 (3) 1-3 Two methods to sample pathogens from gloved hands were compared: direct imprint onto agar and a sponge-wipe method. The sponge method was significantly better at recovering Clostridiodes difficile spores, and no difference was observed between the methods at 101 inoculum for carbapenemase-producing KPC+ Klebsiella pneumoniae, methicillin-resistant Staphylococcus aureus, and Acinetobacter baumannii. |
Environmental contamination of contact precaution and non-contact precaution patient rooms in six acute care facilities
Tanner WD , Leecaster MK , Zhang Y , Stratford KM , Mayer J , Visnovsky LD , Alhmidi H , Cadnum JL , Jencson AL , Koganti S , Bennett CP , Donskey CJ , Noble-Wang J , Reddy SC , Rose LJ , Watson L , Ide E , Wipperfurth T , Safdar N , Arasim M , Macke C , Roman P , Krein SL , Loc-Carrillo C , Samore MH . Clin Infect Dis 2021 72 S8-s16 BACKGROUND: Environmental contamination is an important source of hospital multidrug-resistant organism (MDRO) transmission. Factors such as patient MDRO contact precautions (CP) status, patient proximity to surfaces, and unit type likely influence MDRO contamination and bacterial bioburden levels on patient room surfaces. Identifying factors associated with environmental contamination in patient rooms and on shared unit surfaces could help identify important environmental MDRO transmission routes. METHODS: Surfaces were sampled from MDRO CP and non-CP rooms, nursing stations, and mobile equipment in acute care, intensive care, and transplant units within 6 acute care hospitals using a convenience sampling approach blinded to cleaning events. Precaution rooms had patients with clinical or surveillance tests positive for methicillin-resistant Staphylococcus aureus, vancomycin-resistant enterococci, carbapenem-resistant Enterobacteriaceae or Acinetobacter within the previous 6 months, or Clostridioides difficile toxin within the past 30 days. Rooms not meeting this definition were considered non-CP rooms. Samples were cultured for the above MDROs and total bioburden. RESULTS: Overall, an estimated 13% of rooms were contaminated with at least 1 MDRO. MDROs were detected more frequently in CP rooms (32% of 209 room-sample events) than non-CP rooms (12% of 234 room-sample events). Surface bioburden did not differ significantly between CP and non-CP rooms or MDRO-positive and MDRO-negative rooms. CONCLUSIONS: CP room surfaces are contaminated more frequently than non-CP room surfaces; however, contamination of non-CP room surfaces is not uncommon and may be an important reservoir for ongoing MDRO transmission. MDRO contamination of non-CP rooms may indicate asymptomatic patient MDRO carriage, inadequate terminal cleaning, or cross-contamination of room surfaces via healthcare personnel hands. |
Persistence of Bacteriophage Phi 6 on Porous and Nonporous Surfaces and the Potential for Its Use as an Ebola Virus or Coronavirus Surrogate.
Whitworth C , Mu Y , Houston H , Martinez-Smith M , Noble-Wang J , Coulliette-Salmond A , Rose L . Appl Environ Microbiol 2020 86 (17) The infection of healthcare workers during the 2013 -2016 Ebola outbreak raised concerns about fomite transmission. In the wake of the Coronavirus Disease 2019 (COVID-19) pandemic, investigations are ongoing to determine the role of fomites in coronavirus transmission as well. The bacteriophage Phi 6 has a phospholipid envelope and is commonly used in environmental studies as a surrogate for human enveloped viruses. The persistence of Phi 6 was evaluated as a surrogate for EBOV and coronaviruses on porous and nonporous hospital surfaces. Phi 6 was suspended in a body fluid simulant and inoculated onto 1 cm(2) coupons of steel, plastic, and two fabric curtain types. The coupons were placed at two controlled absolute humidity (AH) levels; a low AH of 3.0 g/m(3) and a high AH of 14.4 g/m(3) Phi 6 declined at a slower rate on all materials under low AH conditions with a decay rate of 0.06 log10PFU/d to 0.11 log10PFU/d, as compared to the higher AH conditions with a decay rate of 0.65 log10PFU/h to 1.42 log10PFU/d. There was a significant difference in decay rates between porous and non-porous surfaces at both low AH (P < 0.0001) and high AH (P < 0.0001). Under these laboratory-simulated conditions, Phi 6 was found to be a conservative surrogate for EBOV under low AH conditions, in that it persisted longer than Ebola virus in similar AH conditions. Additionally, some coronaviruses persist longer than phi6 under similar conditions, therefore Phi6 may not be a suitable surrogate for coronaviruses.IMPORTANCE Understanding the persistence of enveloped viruses helps inform infection control practices and procedures in healthcare facilities and community settings. These data convey to public health investigators that enveloped viruses can persist and remain infective on surfaces, thus demonstrating a potential risk for transmission. Under these laboratory-simulated western indoor hospital conditions, Phi 6 was used to assess suitability as a surrogate for environmental persistence research related to enveloped viruses, including EBOV and coronaviruses. |
Performance of Oropharyngeal Swab Testing Compared With Nasopharyngeal Swab Testing for Diagnosis of Coronavirus Disease 2019-United States, January 2020-February 2020.
Patel MR , Carroll D , Ussery E , Whitham H , Elkins CA , Noble-Wang J , Rasheed JK , Lu X , Lindstrom S , Bowen V , Waller J , Armstrong G , Gerber S , Brooks JT . Clin Infect Dis 2020 72 (3) 403-410 Among 146 nasopharyngeal (NP) and oropharyngeal (OP) swab pairs collected </=7 days since illness onset, CDC real-time RT-PCR SARS-CoV-2 assay diagnostic results were 95.2% concordant. However, NP swab Ct values were lower (indicating more virus) in 66.7% of concordant-positive pairs, suggesting NP swabs may more accurately detect amount of SARS-CoV-2. |
Performance of oropharyngeal swab testing compared to nasopharyngeal swab testing for diagnosis of COVID-19 -United States, January-February 2020
Patel MR , Carroll D , Ussery E , Whitham H , Elkins CA , Noble-Wang J , Rasheed JK , Lu X , Lindstrom S , Bowen V , Waller J , Armstrong G , Gerber S , Brooks JT . Clin Infect Dis 2020 72 (3) 403-410 Among 146 nasopharyngeal (NP) and oropharyngeal (OP) swab pairs collected </=7 days since illness onset, CDC real-time RT-PCR SARS-CoV-2 assay diagnostic results were 95.2% concordant. However, NP swab Ct values were lower (indicating more virus) in 66.7% of concordant-positive pairs, suggesting NP swabs may more accurately detect amount of SARS-CoV-2. |
Multispecies Outbreak of Verona Integron-Encoded Metallo-ß-Lactamase-Producing Multidrugresistant Bacteria Driven by a Promiscuous Incompatibility Group A/C2.
de Man TJB , Yaffee AQ , Zhu W , Batra D , Alyanak E , Rowe LA , McAllister G , Moulton-Meissner H , Boyd S , Flinchum A , Slayton RB , Hancock S , Spalding Walters M , Laufer Halpin A , Rasheed JK , Noble-Wang J , Kallen AJ , Limbago BM . Clin Infect Dis 2020 72 (3) 414-420 BACKGROUND: Antibiotic resistance is often spread through bacterial populations via conjugative plasmids. However, plasmid transfer is not well recognized in clinical settings because of technical limitations, and health care-associated infections are usually caused by clonal transmission of a single pathogen. In 2015, multiple species of carbapenem-resistant Enterobacteriaceae (CRE), all producing a rare carbapenemase, were identified among patients in an intensive care unit. This observation suggested a large, previously unrecognized plasmid transmission chain and prompted our investigation. METHODS: Electronic medical record reviews, infection control observations, and environmental sampling completed the epidemiologic outbreak investigation. A laboratory analysis, conducted on patient and environmental isolates, included long-read whole-genome sequencing to fully elucidate plasmid DNA structures. Bioinformatics analyses were applied to infer plasmid transmission chains and results were subsequently confirmed using plasmid conjugation experiments. RESULTS: We identified 14 Verona integron-encoded metallo-ss-lactamase (VIM)-producing CRE in 12 patients, and 1 additional isolate was obtained from a patient room sink drain. Whole-genome sequencing identified the horizontal transfer of blaVIM-1, a rare carbapenem resistance mechanism in the United States, via a promiscuous incompatibility group A/C2 plasmid that spread among 5 bacterial species isolated from patients and the environment. CONCLUSIONS: This investigation represents the largest known outbreak of VIM-producing CRE in the United States to date, which comprises numerous bacterial species and strains. We present evidence of in-hospital plasmid transmission, as well as environmental contamination. Our findings demonstrate the potential for 2 types of hospital-acquired infection outbreaks: those due to clonal expansion and those due to the spread of conjugative plasmids encoding antibiotic resistance across species. |
Elution efficiency of healthcare pathogens from environmental sampling tools
West-Deadwyler RM , Moulton-Meissner HA , Rose LJ , Noble-Wang JA . Infect Control Hosp Epidemiol 2019 41 (2) 1-3 Standardizing healthcare surface sampling requires the evaluation of sampling tools for organism adherence. Here, 7 sampling tools were evaluated to assess their elution efficiencies in the presence of 5 pathogens. Foam sponges (80.6%), microfiber wipes (80.5%), foam swabs (77.9%), and cellulose sponges (66.5%) yielded the highest median elution efficiencies. |
Effect of glove decontamination on bacterial contamination of healthcare personnel hands
Kpadeh-Rogers Z , Robinson GL , Alserehi H , Morgan DJ , Harris AD , Herrera NB , Rose LJ , Noble-Wang J , Johnson JK , Leekha S . Clin Infect Dis 2019 69 S224-s227 We examined the effect of glove decontamination prior to removal on bacterial contamination of healthcare personnel hands in a laboratory simulation study. Glove decontamination reduced bacterial contamination of hands following removal. However, hand contamination still occurred with all decontamination methods, reinforcing the need for hand hygiene following glove removal. |
Development of a rapid-viability PCR method for detection of Clostridioides difficile spores from environmental samples.
Shams AM , Rose LJ , Noble-Wang J . Anaerobe 2019 61 102077 Clostridioides difficile is a common pathogen that is well known to survive for extended periods of time on environmental healthcare surfaces from fecal contamination. During epidemiological investigations of healthcare-associated infections, it is important to be able to detect whether or not there are viable spores of C. difficile on surfaces. Current methods to detect C. difficile can take up to 7 days for culture and in the case of detection by PCR, viability of the spores cannot be ascertained. Prevention of C. difficile infection in healthcare settings includes adequate cleaning and disinfection of environmental surfaces which increases the likelihood of detecting dead organisms from an environmental sample during an investigation. In this study, we were able to adapt a rapid-viability PCR (RV-PCR) method, first developed for detection of viable Bacillus anthracis spores, for the detection of viable C. difficile spores. RV-PCR uses the change in cycle threshold after incubation to confirm the presence of live organisms. Using this modified method we were able to detect viable C. difficile after 22h of anaerobic incubation in Cycloserine Cefoxitin Fructose Broth (CCFB). This method also used bead beating combined with the Maxwell 16 Casework kit for DNA extraction and purification and a real-time duplex PCR assay for toxin B and cdd3 genes to confirm the identity of the C. difficile spores. Spiked environmental sponge-wipes with and without added organic load were tested to determine the limit of detection (LOD). The LOD from spiked environmental sponge-wipe samples was 10(4) spores/mL but after incubation initial spore levels of 10(1) spores/mL were detected. Use of this method would greatly decrease the amount of time required to detect viable C. difficile spores; incubation of samples is only required for germination (22h or less) instead of colony formation, which can take up to 7 days. In addition, PCR can then quickly confirm or deny the identity of the organism at the same time it would confirm viability. The presence of viable C. difficile spores could be detected at very low levels within 28h total compared to the 2 to 10-day process that would be needed for culture, identification and toxin detection. |
Development and implementation of evidence-based laboratory safety management tools for a public health laboratory
Keckler MS , Anderson K , McAllister S , Rasheed JK , Noble-Wang J . Saf Sci 2019 117 205-216 We developed an evidence-based continuous quality improvement (CQI) cycle for laboratory safety as a method of utilizing survey data to improve safety in a public health laboratory setting. Expert Opinion: The CQI cycle begins with the solicitation of laboratory staff input via an annual survey addressing potential chemical, physical and radiological hazards associated with multiple laboratory activities. The survey collects frequency, severity and exposure data related to these activities in the context of the most pathogenic organisms handled at least weekly. Gap Analysis: Step 2 of the CQI cycle used survey data to identify areas needing improvement. Typically, the traditional two-dimensional risk assessment matrix is used to prioritize mitigations. However, we added an additional dimension - frequency of exposure - to create three-dimensional risk maps to better inform and communicate risk priorities. Mitigation Measures: Step 3 of the CQI cycle was to use these results to develop mitigations. This included evaluating the identified risks to determine what risk control measures (elimination, substitution, engineering, administrative or PPE) were needed. In the 2016 iteration of the CQI cycle described here, all mitigations were based on administrative controls. Evaluation and Feedback: The last step of the CQI cycle was to evaluate the inferred effects of interventions through subsequent surveys, allowing for qualitative assessment of intervention effectiveness while simultaneously restarting the cycle by identifying new hazards.Here we describe the tools used to drive this CQI cycle, including the survey tool, risk analysis method, design of interventions and inference of mitigation effectiveness. |
Comparison of two glove-sampling methods to discriminate between study arms of a hand hygiene and glove-use study
Robinson GL , Otieno L , Johnson JK , Rose LJ , Harris AD , Noble-Wang J , Thom KA . Infect Control Hosp Epidemiol 2018 39 (7) 884-885 In the absence of a gold standard, we compared two glove-sampling methodologies, direct imprint and the sponge stick, to detect a difference between two arms in our study relative to total amount and presence of bacteria. |
Direct Detection of Carbapenem-Resistant Organisms from Environmental Samples Using the GeneXpert Molecular Diagnostic System.
Perry KA , Daniels JB , Reddy SC , Kallen AJ , Halpin AL , Rasheed JK , Noble-Wang JA . mSphere 2018 3 (4) In this pilot study, traditional culture and PCR methods were compared to the Cepheid GeneXpert IV molecular diagnostic system with the Xpert Carba-R assay (Carba-R assay) for detection of carbapenem resistance genes in primary environmental samples collected during a health care-related outbreak. Overall, traditional culture-dependent PCR and the Carba-R assay demonstrated 75% agreement. The Carba-R assay detected carbapenemase genes in five additional samples and in two samples that had additional genes when compared to culture-dependent PCR. The Carba-R assay could be useful for prioritizing further testing of environmental samples during health care-related outbreaks.IMPORTANCE Use of the Carba-R assay for detection of carbapenem-resistant Gram-negative organisms (CROs) can provide data for implementation of a rapid infection control response to minimize the spread of CROs in the health care setting. |
A multistate investigation of health care-associated Burkholderia cepacia complex infections related to liquid docusate sodium contamination, January-October 2016
Glowicz J , Crist M , Gould C , Moulton-Meissner H , Noble-Wang J , de Man TJB , Perry KA , Miller Z , Yang WC , Langille S , Ross J , Garcia B , Kim J , Epson E , Black S , Pacilli M , LiPuma JJ , Fagan R . Am J Infect Control 2018 46 (6) 649-655 BACKGROUND: Outbreaks of health care-associated infections (HAIs) caused by Burkholderia cepacia complex (Bcc) have been associated with medical devices and water-based products. Water is the most common raw ingredient in nonsterile liquid drugs, and the significance of organisms recovered from microbiologic testing during manufacturing is assessed using a risk-based approach. This incident demonstrates that lapses in manufacturing practices and quality control of nonsterile liquid drugs can have serious unintended consequences. METHODS: An epidemiologic and laboratory investigation of clusters of Bcc HAIs that occurred among critically ill, hospitalized, adult and pediatric patients was performed between January 1, 2016, and October 31, 2016. RESULTS: One hundred and eight case patients with Bcc infections at a variety of body sites were identified in 12 states. Two distinct strains of Bcc were obtained from patient clinical cultures. These strains were found to be indistinguishable or closely related to 2 strains of Bcc obtained from cultures of water used in the production of liquid docusate, and product that had been released to the market by manufacturer X. CONCLUSIONS: This investigation highlights the ability of bacteria present in nonsterile, liquid drugs to cause infections or colonization among susceptible patients. Prompt reporting and thorough investigation of potentially related infections may assist public health officials in identifying and removing contaminated products from the market when lapses in manufacturing occur. |
Evolutionary dynamics and genomic features of the Elizabethkingia anophelis 2015 to 2016 Wisconsin outbreak strain.
Perrin A , Larsonneur E , Nicholson AC , Edwards DJ , Gundlach KM , Whitney AM , Gulvik CA , Bell ME , Rendueles O , Cury J , Hugon P , Clermont D , Enouf V , Loparev V , Juieng P , Monson T , Warshauer D , Elbadawi LI , Walters MS , Crist MB , Noble-Wang J , Borlaug G , Rocha EPC , Criscuolo A , Touchon M , Davis JP , Holt KE , McQuiston JR , Brisse S . Nat Commun 2017 8 15483 An atypically large outbreak of Elizabethkingia anophelis infections occurred in Wisconsin. Here we show that it was caused by a single strain with thirteen characteristic genomic regions. Strikingly, the outbreak isolates show an accelerated evolutionary rate and an atypical mutational spectrum. Six phylogenetic sub-clusters with distinctive temporal and geographic dynamics are revealed, and their last common ancestor existed approximately one year before the first recognized human infection. Unlike other E. anophelis, the outbreak strain had a disrupted DNA repair mutY gene caused by insertion of an integrative and conjugative element. This genomic change probably contributed to the high evolutionary rate of the outbreak strain and may have increased its adaptability, as many mutations in protein-coding genes occurred during the outbreak. This unique discovery of an outbreak caused by a naturally occurring mutator bacterial pathogen provides a dramatic example of the potential impact of pathogen evolutionary dynamics on infectious disease epidemiology. |
Pseudomonas aeruginosa outbreak in a neonatal intensive care unit attributed to hospital tap water
Bicking Kinsey C , Koirala S , Solomon B , Rosenberg J , Robinson BF , Neri A , Laufer Halpin A , Arduino MJ , Moulton-Meissner H , Noble-Wang J , Chea N , Gould CV . Infect Control Hosp Epidemiol 2017 38 (7) 1-8 OBJECTIVE To investigate an outbreak of Pseudomonas aeruginosa infections and colonization in a neonatal intensive care unit. DESIGN Infection control assessment, environmental evaluation, and case-control study. SETTING Newly built community-based hospital, 28-bed neonatal intensive care unit. PATIENTS Neonatal intensive care unit patients receiving care between June 1, 2013, and September 30, 2014. METHODS Case finding was performed through microbiology record review. Infection control observations, interviews, and environmental assessment were performed. A matched case-control study was conducted to identify risk factors for P. aeruginosa infection. Patient and environmental isolates were collected for pulsed-field gel electrophoresis to determine strain relatedness. RESULTS In total, 31 cases were identified. Case clusters were temporally associated with absence of point-of-use filters on faucets in patient rooms. After adjusting for gestational age, case patients were more likely to have been in a room without a point-of-use filter (odds ratio [OR], 37.55; 95% confidence interval [CI], 7.16-infinity). Case patients had higher odds of exposure to peripherally inserted central catheters (OR, 7.20; 95% CI, 1.75-37.30) and invasive ventilation (OR, 5.79; 95% CI, 1.39-30.62). Of 42 environmental samples, 28 (67%) grew P. aeruginosa. Isolates from the 2 most recent case patients were indistinguishable by pulsed-field gel electrophoresis from water-related samples obtained from these case-patient rooms. CONCLUSIONS This outbreak was attributed to contaminated water. Interruption of the outbreak with point-of-use filters provided a short-term solution; however, eradication of P. aeruginosa in water and fixtures was necessary to protect patients. This outbreak highlights the importance of understanding the risks of stagnant water in healthcare facilities. Infect Control Hosp Epidemiol 2017;1-8. |
Invasive nontuberculous mycobacterial infections among cardiothoracic surgical patients exposed to heater-cooler devices
Lyman MM , Grigg C , Kinsey CB , Keckler MS , Moulton-Meissner H , Cooper E , Soe MM , Noble-Wang J , Longenberger A , Walker SR , Miller JR , Perz JF , Perkins KM . Emerg Infect Dis 2017 23 (5) 796-805 Invasive nontuberculous mycobacteria (NTM) infections may result from a previously unrecognized source of transmission, heater-cooler devices (HCDs) used during cardiac surgery. In July 2015, the Pennsylvania Department of Health notified the Centers for Disease Control and Prevention (CDC) about a cluster of NTM infections among cardiothoracic surgical patients at 1 hospital. We conducted a case-control study to identify exposures causing infection, examining 11 case-patients and 48 control-patients. Eight (73%) case-patients had a clinical specimen identified as Mycobacterium avium complex (MAC). HCD exposure was associated with increased odds of invasive NTM infection; laboratory testing identified patient isolates and HCD samples as closely related strains of M. chimaera, a MAC species. This investigation confirmed a large US outbreak of invasive MAC infections in a previously unaffected patient population and suggested transmission occurred by aerosolization from HCDs. Recommendations have been issued for enhanced surveillance to identify potential infections associated with HCDs and measures to mitigate transmission risk. |
Investigation of the first seven reported cases of Candida auris, a globally emerging invasive, multidrug-resistant fungus - United States, May 2013-August 2016
Vallabhaneni S , Kallen A , Tsay S , Chow N , Welsh R , Kerins J , Kemble SK , Pacilli M , Black SR , Landon E , Ridgway J , Palmore TN , Zelzany A , Adams EH , Quinn M , Chaturvedi S , Greenko J , Fernandez R , Southwick K , Furuya EY , Calfee DP , Hamula C , Patel G , Barrett P , Lafaro P , Berkow EL , Moulton-Meissner H , Noble-Wang J , Fagan RP , Jackson BR , Lockhart SR , Litvintseva AP , Chiller TM . MMWR Morb Mortal Wkly Rep 2016 65 (44) 1234-1237 Candida auris, an emerging fungus that can cause invasive infections, is associated with high mortality and is often resistant to multiple antifungal drugs. C. auris was first described in 2009 after being isolated from external ear canal discharge of a patient in Japan. Since then, reports of C. auris infections, including bloodstream infections, have been published from several countries, including Colombia, India, Israel, Kenya, Kuwait, Pakistan, South Africa, South Korea, Venezuela, and the United Kingdom. To determine whether C. auris is present in the United States and to prepare for the possibility of transmission, CDC issued a clinical alert in June 2016 informing clinicians, laboratorians, infection control practitioners, and public health authorities about C. auris and requesting that C. auris cases be reported to state and local health departments and CDC. This report describes the first seven U.S. cases of C. auris infection reported to CDC as of August 31, 2016. Data from these cases suggest that transmission of C. auris might have occurred in U.S. health care facilities and demonstrate the need for attention to infection control measures to control the spread of this pathogen. |
Assessment of the overall and multidrug-resistant organism bioburden on environmental surfaces in healthcare facilities
Shams AM , Rose LJ , Edwards JR , Cali S , Harris AD , Jacob JT , LaFae A , Pineles LL , Thom KA , McDonald LC , Arduino MJ , Noble-Wang JA . Infect Control Hosp Epidemiol 2016 37 (12) 1-7 OBJECTIVE To determine the typical microbial bioburden (overall bacterial and multidrug-resistant organisms [MDROs]) on high-touch healthcare environmental surfaces after routine or terminal cleaning. DESIGN Prospective 2.5-year microbiological survey of large surface areas (>1,000 cm2). SETTING MDRO contact-precaution rooms from 9 acute-care hospitals and 2 long-term care facilities in 4 states. PARTICIPANTS Samples from 166 rooms (113 routine cleaned and 53 terminal cleaned rooms). METHODS Using a standard sponge-wipe sampling protocol, 2 composite samples were collected from each room; a third sample was collected from each Clostridium difficile room. Composite 1 included the TV remote, telephone, call button, and bed rails. Composite 2 included the room door handle, IV pole, and overbed table. Composite 3 included toileting surfaces. Total bacteria and MDROs (ie, methicillin-resistant Staphylococcus aureus, vancomycin-resistant enterococci [VRE], Acinetobacter baumannii, Klebsiella pneumoniae, and C. difficile) were quantified, confirmed, and tested for drug resistance. RESULTS The mean microbial bioburden and range from routine cleaned room composites were higher (2,700 colony-forming units [CFU]/100 cm2; ≤1-130,000 CFU/100 cm2) than from terminal cleaned room composites (353 CFU/100 cm2; ≤1-4,300 CFU/100 cm2). MDROs were recovered from 34% of routine cleaned room composites (range ≤1-13,000 CFU/100 cm2) and 17% of terminal cleaned room composites (≤1-524 CFU/100 cm2). MDROs were recovered from 40% of rooms; VRE was the most common (19%). CONCLUSIONS This multicenter bioburden summary provides a first step to determining microbial bioburden on healthcare surfaces, which may help provide a basis for developing standards to evaluate cleaning and disinfection as well as a framework for studies using an evidentiary hierarchy for environmental infection control. Infect Control Hosp Epidemiol 2016;1-7. |
Persistence of influenza A (H1N1) virus on stainless steel surfaces
Perry KA , Coulliette AD , Rose LJ , Shams AM , Edwards JR , Noble-Wang JA . Appl Environ Microbiol 2016 82 (11) 3239-3245 As annual influenza epidemics continue to cause significant morbidity and economic burden, an understanding of viral persistence and transmission is critical for public health officials and healthcare workers to better protect patients and their family members from infection. The infectivity and persistence of two influenza A (H1N1) strains (A/New Caledonia/20/1999 and A/Brisbane/59/2007) were evaluated on stainless steel (SS) surfaces using three different surfaces matrices (2% fetal bovine serum, 5 mg/mL mucin, and viral medium) at varying absolute humidity conditions (4.1 x 105 mPa, 6.5 x 105 mPa, 7.1 x 105 mPa, 11.4 x 105 mPa, 11.2 x 105 mPa, and 17.9 x 105 mPa) for up to seven days. Influenza virus was deposited onto SS coupons (7.07 cm2) and recovered by agitation and sonicating in viral medium. Viral persistence was quantified using a tissue culture based enzyme-linked immunosorbent assay (ELISA) to determine the median tissue culture infective dose (TCID50) of infectious virus per coupon. Overall, both strains of influenza A virus remained infectious on SS coupons with an approximate 2 log10 loss over seven days. Factors that influenced viral persistence included absolute humidity, strain/absolute humidity interaction, and time (P ≤ 0.01). Further studies into hand transfer of influenza A virus from fomites and the impact of inanimate surface contamination in transmission should be investigated as this study demonstrates prolonged persistence on non-porous surfaces. IMPORTANCE: The study tested the ability of two influenza A H1N1 strains to persist and remain infectious on stainless steel surfaces in varying environmental conditions. It is demonstrated that influenza A H1N1 virus can persist and remain infectious on stainless steel surfaces for 7 days. This raises the question of what role contaminated surfaces play in the transmission of influenza A virus and that additional studies should be conducted to assess this. |
Draft Genome Sequence of Mycobacterium wolinskyi, a Rapid-Growing Species of Nontuberculous Mycobacteria.
de Man TJ , Perry KA , Lawsin A , Coulliette AD , Jensen B , Toney NC , Limbago BM , Noble-Wang J . Genome Announc 2016 4 (2) Mycobacterium wolinskyi is a nonpigmented, rapidly growing nontuberculous mycobacterium species that is associated with bacteremia, peritonitis, infections associated with implants/prostheses, and skin and soft tissue infections often following surgical procedures in humans. Here, we report the first functionally annotated draft genome sequence of M. wolinskyi CDC_01. |
Investigation of a cluster of Clostridium difficile infections in a pediatric oncology setting
Dantes R , Epson EE , Dominguez SR , Dolan S , Wang F , Hurst A , Parker SK , Johnston H , West K , Anderson L , Rasheed JK , Moulton-Meissner H , Noble-Wang J , Limbago B , Dowell E , Hilden JM , Guh A , Pollack LA , Gould CV . Am J Infect Control 2015 44 (2) 138-45 BACKGROUND: We investigated an increase in Clostridium difficile infection (CDI) among pediatric oncology patients. METHODS: CDI cases were defined as first C difficile positive stool tests between December 1, 2010, and September 6, 2012, in pediatric oncology patients receiving inpatient or outpatient care at a single hospital. A case-control study was performed to identify CDI risk factors, infection prevention and antimicrobial prescribing practices were assessed, and environmental sampling was conducted. Available isolates were strain-typed by pulsed-field gel electrophoresis. RESULTS: An increase in hospital-onset CDI cases was observed from June-August 2012. Independent risk factors for CDI included hospitalization in the bone marrow transplant ward and exposure to computerized tomography scanning or cefepime in the prior 12 weeks. Cefepime use increased beginning in late 2011, reflecting a practice change for patients with neutropenic fever. There were 13 distinct strain types among 22 available isolates. Hospital-onset CDI rates decreased to near-baseline levels with enhanced infection prevention measures, including environmental cleaning and prolonged contact isolation. CONCLUSION: C difficile strain diversity associated with a cluster of CDI among pediatric oncology patients suggests a need for greater understanding of modes and sources of transmission and strategies to reduce patient susceptibility to CDI. Further research is needed on the risk of CDI with cefepime and its use as primary empirical treatment for neutropenic fever. |
Laboratory replication of filtration procedures associated with Serratia marcescens bloodstream infections in patients receiving compounded amino acid solutions
Moulton-Meissner H , Noble-Wang J , Gupta N , Hocevar S , Kallen A , Arduino M . Am J Health Syst Pharm 2015 72 (15) 1285-91 PURPOSE: Specific deviations from United States Pharmacopeia standards were analyzed to investigate the factors allowing an outbreak of Serratia marcescens bloodstream infections in patients receiving compounded amino acid solutions. METHODS: Filter challenge experiments using the outbreak strain of S. marcescens were compared with those that used the filter challenge organism recommended by ASTM International (Brevundimonas diminuta ATCC 19162) to determine the frequency and degree of organism breakthrough. Disk and capsule filters (0.22- and 0.2-mum nominal pore size, respectively) were challenged with either the outbreak strain of S. marcescens or B. diminuta ATCC 19162. The following variables were compared: culture conditions in which organisms were grown overnight or cultured in sterile water (starved), solution type (15% amino acid solution or sterile water), and filtration with or without a 0.5-mum prefilter. RESULTS: Small-scale, syringe-driven, disk-filtration experiments of starved bacterial cultures indicated that approximately 1 in every 1,000 starved S. marcescens cells (0.12%) was able to pass through a 0.22-mum nominal pore-size filter, and about 1 in every 1,000,000 cells was able to pass through a 0.1-mum nominal pore-size filter. No passage of the B. diminuta ATCC 19162 cells was observed with either filter. In full-scale experiments, breakthrough was observed only when 0.2-mum capsule filters were challenged with starved S. marcescens in 15% amino acid solution without a 0.5-mum prefiltration step. CONCLUSION: Laboratory simulation testing revealed that under certain conditions, bacteria can pass through 0.22- and 0.2-mum filters intended for sterilization of an amino acid solution. Bacteria did not pass through 0.2-mum filters when a 0.5-mum prefilter was used. |
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