Last data update: Sep 23, 2024. (Total: 47723 publications since 2009)
Records 1-7 (of 7 Records) |
Query Trace: Kossik A [original query] |
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ATP-based assessments of recent cleaning and disinfection for high-touch surfaces in low-resource shared toilets
Prentice-Mott G , Maru L , Kossik A , Mugambi EM , Ombok C , Odinoh R , Mwikali F , Rosenberg R , Ngere I , Murphy J , Berendes D . npj Clean Water 2024 7 (1) Quality improvements and reduction of disease risk for low-resource shared sanitation facilities require cleanliness assessment approaches that are both rigorous and practical. Using Adenosine Triphosphate (ATP) bioluminescence testing, we assessed contamination on high-touch (HT) surfaces (inner door handles) at 32 shared toilet sites in Kisumu, Kenya. In public toilets, contamination was lowest after cleaning and disinfection (C&D) with 0.5% chlorine solution (adjusted difference in mean log10 Relative Light Units per 100 cm2 (aDiff): −1.61; CI: −2.43, −0.59), followed by C&D with 0.1% chlorine solution (aDiff: −1.16; CI: −1.77, −0.55). ATP levels were not associated with overall observable toilet cleanliness and had poor agreement with visually assessed HT surface cleanliness. Our findings demonstrate the utility of this field-feasible method for detecting the impact of recent C&D in low-resource shared toilets, a novel setting for ATP cleanliness testing, while also highlighting the importance of using effective C&D procedures and addressing HT surfaces within cleaning protocols. © This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2024. |
Moving beyond wastewater: Perspectives on environmental surveillance of infectious diseases for public health action in low-resource settings
Delgado Vela J , Philo SE , Brown J , Taniuchi M , Cantrell M , Kossik A , Ramaswamy M , Ajjampur SS , Guerfali FZ , Holm RH , Meschke JS , Otero MCB , Pickering AJ , Rahman M , Shaw AG , Shrestha A , Sirikanchana K , Tevuzula VM , Halden RU , Boehm AB , Bibby K . Environ Health 2024 |
Assessment of water, sanitation, and hygiene conditions in public elementary schools in Quetzaltenango, Guatemala, in the Context of the COVID-19 Pandemic
Pieters MM , Fahsen N , Craig C , Quezada R , Pratt CQ , Gomez A , Brown TW , Kossik A , McDavid K , Vega Ocasio D , Lozier MJ , Cordón-Rosales C . Int J Environ Res Public Health 2023 20 (20) Water, sanitation, and hygiene (WASH) services in schools are essential to reduce infectious disease transmission, including that of COVID-19. This study aimed to establish a baseline of WASH services in six public elementary schools in Guatemala, with a focus on hand hygiene. We used the WHO/UNICEF Joint Monitoring Programme (JMP) report indicators to assess the WASH infrastructure at each school. We collected water samples from easily accessible water points (pilas, or bathroom sinks) at each school to test for the presence of total coliforms and E. coli. In-depth interviews were carried out with teachers to understand hand hygiene practices and systems at school. Results indicate that all schools had water available at the time of the survey. All water samples at four schools tested positive for total coliforms and at one school, positive for E. coli. All schools had sanitation facilities, but services were limited. Only 43% of handwashing stations at schools had soap available. No school had disability-inclusive WASH services. Financial constraints and a lack of appropriate WASH infrastructure were the main barriers reported by teachers to meet hand hygiene needs at school. Appropriate access to WASH infrastructure and supplies could increase hand hygiene practices and improve learning conditions for students. |
Evaluation of Sampling and Concentration Methods for Salmonella enterica Serovar Typhi Detection from Wastewater
Zhou N , Ong A , Fagnant-Sperati C , Harrison J , Kossik A , Beck N , Shirai J , Burnor E , Swanstrom R , Demeke B , Patel S , Scott Meschke J , Kang G , Giri S , Raghava V , Abraham D , Moe C , Kapoor R , Wang Y , Liu P , Feasey N , Rigby J , Dines Y , Elviss N , Alm E , Moniz K , Xiao A , Karmacharya D , Napit R , Poudel A , Muhammad S , Ashraf Z , Boyle D , Andrews J , Aiemjoy K , LeBoa C , Tamrakar D , Shrestha S , Shakya J , Murphy JL , Narayanan J , Brown TW , Taniuchi M , Islam Md O , Blake I . Am J Trop Med Hyg 2023 108 (3) 482-491 Salmonella enterica serovar (Salmonella Typhi) is the causative bacterial agent of typhoid fever. Environmental surveillance of wastewater and wastewater-impacted surface waters has proven effective in monitoring various pathogens and has recently been applied to Salmonella Typhi. This study evaluated eight sample collection and concentration methods with 12 variations currently being developed and used for Salmonella Typhi surveillance globally to better understand the performance of each method based on its ability to detect Salmonella Typhi and its feasibility. Salmonella Typhi strains Ty21a and Ty2 were seeded to influent wastewater at known concentrations to evaluate the following methods: grab sampling using electropositive filters, centrifugation, direct enrichment, or membrane filtration and trap sampling using Moore swabs. Concentrated samples underwent nucleic acid extraction and were detected and/or quantified via quantitative polymerase chain reaction (qPCR). Results suggest that all methods tested can be successful at concentrating Salmonella Typhi for subsequent detection by qPCR, although each method has its own strengths and weaknesses, including the Salmonella Typhi concentration it is best suited for, with a range of positive detections observed as low as 0.1-0.001 colony-forming units (CFU) Ty21a/mL and 0.01 CFU Ty2/mL. These factors should be considered when identifying a method for environmental surveillance and will greatly depend on the use case planned. |
Evaluation of sampling and concentration methods for Salmonella enterica serovar Typhi detection from wastewater (preprint)
Zhou NA , Ong AQW , Fagnant-Sperati CS , Harrison JC , Kossik AL , Beck NK , Shirai JH , Burnor E , Swanstrom R , Demeke B , Patel S , Meschke JS , Kang G , Giri S , Raghava V , Abraham D , Moe C , Kapoor R , Wang Y , Liu P , Feasey N , Rigby J , Dines Y , Elviss N , Alm E , Moniz K , Xiao A , Karmacharya D , Napit R , Poudel A , Muhammad S , Ashraf Z , Boyle D , Andrews J , Aiemjoy K , LeBoa C , Tamrakar D , Shrestha S , Shakya J , Murphy JL , Narayanan J , Brown TW , Taniuchi M , Islam Md O , Blake I . medRxiv 2022 08 Salmonella enterica serovar (Salmonella Typhi) is the causative bacterial agent of Typhoid fever. Environmental surveillance of wastewater and wastewater-impacted surface waters has proven effective in monitoring various pathogens, and has recently been applied to Salmonella Typhi. This study evaluated eight sample collection and concentration methods with twelve variations currently being developed and used for Salmonella Typhi surveillance globally to better understand the performance of each method based on their ability to detect Salmonella Typhi and feasibility. Salmonella Typhi strains, Ty21a and Ty2, were seeded to influent wastewater at known concentrations to evaluate the following methods: grab sampling using electropositive filters, centrifugation, direct enrichment, or membrane filtration and trap sampling using Moore swabs. Concentrated samples underwent nucleic acid extraction and were detected and/or quantified via qPCR. Results suggest that all methods tested can be successful at concentrating Salmonella Typhi for subsequent detection by qPCR, although each method has its own strengths and weaknesses including the Salmonella Typhi concentrations they are best suited for with a range of positive detections observed as low as 0.1-0.001 CFU Ty21a/mL and 0.01 CFU Ty2/mL. These factors should be considered when identifying a method for environmental surveillance and will greatly depend on the use case planned. Copyright The copyright holder for this preprint is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. It is made available under a CC-BY-NC-ND 4.0 International license. |
Validation of the bag-mediated filtration system for environmental surveillance of poliovirus in Nairobi, Kenya
Fagnant-Sperati CS , Ren Y , Zhou NA , Komen E , Mwangi B , Hassan J , Chepkurui A , Nzunza R , Nyangao J , van Zyl WB , Wolfaardt M , Matsapola PN , Ngwana FB , Jeffries-Miles S , Coulliette-Salmond A , Peñaranda S , Vega E , Shirai JH , Kossik AL , Beck NK , Boyle DS , Burns CC , Taylor MB , Borus P , Scott Meschke J . J Appl Microbiol 2020 130 (3) 971-981 AIMS: This study compared the bag-mediated filtration system (BMFS) and standard WHO two-phase separation methods for poliovirus (PV) environmental surveillance, examined factors impacting PV detection, and monitored Sabin-like (SL) PV type 2 presence with withdrawal of oral polio vaccine type 2 (OPV2) in April 2016. METHODS AND RESULTS: Environmental samples were collected in Nairobi, Kenya (Sept 2015-Feb 2017), concentrated via BMFS and two-phase separation methods, then assayed using the WHO PV isolation algorithm and intratypic differentiation diagnostic screening kit. SL1, SL2, and SL3 were detected at higher rates in BMFS than two-phase samples (p<0.05). In BMFS samples, SL PV detection did not significantly differ with volume filtered, filtration time, or filter shipment time (p>0.05), while SL3 was detected less frequently with higher shipment temperatures (p=0.027). SL2 was detected more frequently before OPV2 withdrawal in BMFS and two-phase samples (p<1x10(-5) ). CONCLUSIONS: PV was detected at higher rates with the BMFS, a method that includes a secondary concentration step, than using the standard WHO two-phase method. SL2 disappearance from the environment was commensurate with OPV2 withdrawal. SIGNIFICANCE AND IMPACT OF THE STUDY: The BMFS offers comparable or improved PV detection under the conditions in this study, relative to the two-phase method. |
Feasibility of the bag-mediated filtration system for environmental surveillance of poliovirus in Kenya
Zhou NA , Fagnant-Sperati CS , Komen E , Mwangi B , Mukubi J , Nyangao J , Hassan J , Chepkurui A , Maina C , van Zyl WB , Matsapola PN , Wolfaardt M , Ngwana FB , Jeffries-Miles S , Coulliette-Salmond A , Penaranda S , Shirai JH , Kossik AL , Beck NK , Wilmouth R , Boyle DS , Burns CC , Taylor MB , Borus P , Meschke JS . Food Environ Virol 2019 12 (1) 35-47 The bag-mediated filtration system (BMFS) was developed to facilitate poliovirus (PV) environmental surveillance, a supplement to acute flaccid paralysis surveillance in PV eradication efforts. From April to September 2015, environmental samples were collected from four sites in Nairobi, Kenya, and processed using two collection/concentration methodologies: BMFS (> 3 L filtered) and grab sample (1 L collected; 0.5 L concentrated) with two-phase separation. BMFS and two-phase samples were analyzed for PV by the standard World Health Organization poliovirus isolation algorithm followed by intratypic differentiation. BMFS samples were also analyzed by a cell culture independent real-time reverse transcription polymerase chain reaction (rRT-PCR) and an alternative cell culture method (integrated cell culture-rRT-PCR with PLC/PRF/5, L20B, and BGM cell lines). Sabin polioviruses were detected in a majority of samples using BMFS (37/42) and two-phase separation (32/42). There was statistically more frequent detection of Sabin-like PV type 3 in samples concentrated with BMFS (22/42) than by two-phase separation (14/42, p = 0.035), possibly due to greater effective volume assayed (870 mL vs. 150 mL). Despite this effective volume assayed, there was no statistical difference in Sabin-like PV type 1 and Sabin-like PV type 2 detection between these methods (9/42 vs. 8/42, p = 0.80 and 27/42 vs. 32/42, p = 0.18, respectively). This study demonstrated that BMFS can be used for PV environmental surveillance and established a feasible study design for future research. |
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