Your search keyword '"Aranega-Bou P"' showing total 21 results

1. A workflow for the detection of antibiotic residues, measurement of water chemistry and preservation of hospital sink drain samples for metagenomic sequencing

Author

Rodger, G., Chau, K., Aranega-Bou, P., Roohi, A., Moore, G., Hopkins, K.L., Hopkins, S., Walker, A.S., and Stoesser, N.

Published

2024

2. Characterising the microbial communities associated with the water distribution system of a broiler farm and their role in Campylobacter infection

Author

Aranega Bou, P.

Subjects

616.9

Abstract

Campylobacters are zoonotic pathogens with extensive animal and environmental reservoirs in spite of their fastidious nature. Campylobacter jejuni is the main bacterial cause of human gastroenteritis worldwide. Epidemiological studies have identified chicken meat as the main vehicle for human infection in industrialised countries. In some countries in the developing world, however, there is little information about Campylobacter prevalence in poultry and poultry meat. The dynamics of Campylobacter colonisation of chickens remain poorly understood. It is agreed that in most cases Campylobacter is transmitted to chickens horizontally from the farm environment. Different sources have been recognised, but their actual contribution to Campylobacter epidemiology remains a matter of debate. Water has rarely been identified as a possible source of Campylobacter contamination of chickens, but represents an understudied source. Research suggests that natural microbial communities might promote the survival of Campylobacter in environmental reservoirs by enabling incorporation into biofilms or interaction with protozoa. The aim of this study was to improve our understanding of Campylobacter ecology and epidemiology at the chicken farm level. The main objectives were to unravel the microbial communities associated with the drinking water system of broiler farms and their dynamics through the rearing cycle; to investigate the aerobic survival of the pathogen in co-culture with Pseudomonas environmental isolates and Acanthamoeba polyphaga; and to study Campylobacter prevalence in chicken farms in Uganda. A longitudinal study was conducted in a commercial broiler farm in the UK during a whole rearing cycle. The purpose of this study was to gain an understanding about the microbial communities that inhabit the drinking water system of the broiler farm, and their implication in Campylobacter ecology in the chicken farm. 16S and 18S rRNA profiling of bulk water and biofilm samples were carried out over a seven-week production cycle period. The same samples were screened for the presence of Campylobacter by culture-dependent methods and molecular techniques. Analysis of 16S and 18S rRNA profiles suggested that microbial communities in the water distribution system are niche specific. Biofilm and bulk water samples harboured distinct communities. Moreover, bulk water communities inside the broiler house were significantly different from those sampled from the source water (R=0.88, p < 0.05). Inside the broiler house, microbial communities were found to vary across the rearing cycle. Similar changes in the dynamics of prokaryotic and eukaryotic communities were observed. Bacterial communities were dominated by the phylum Proteobacteria with a shift to Firmicutes towards the end of the cycle, mainly due to an increase in relative abundance of the genera Staphylococcus and Lactobacillus. Eukaryotic communities included a diversity of yeasts, fungi and protozoa. Campylobacter spp. were not detected on the UK broiler farm by culture-dependent techniques. However, the emerging gastrointestinal pathogen Helicobacter pullorum was isolated by culture towards the end of the rearing cycle. Another emerging pathogen C. ureolyticus was detected by both 16S rRNA amplicon sequencing and PCR in water samples and chicken faeces. This is the first report of C. ureolyticus in association with poultry. 16S rRNA reads belonging to the genus Campylobacter were also found in the sequencing data towards the end of the rearing cycle suggesting that the pathogen could be in a viable but non-culturable state in the water distribution system. Little information is available on the epidemiology of campylobacteriosis in Africa. In Uganda Campylobacter infections have been reported in children, and gorillas have been identified as carriers but no information is available on Campylobacter prevalence in chickens. Studies in neighbouring countries, however, have shown high Campylobacter prevalence in poultry. A pilot study, visiting three small-scale farms around Fort Portal, was conducted to investigate the prevalence of Campylobacter in chickens in W. Uganda. Through a combination of culture-dependent and culture-independent techniques Campylobacter was detected in all three farms with high prevalence. Mixed presence of C. jejuni and C. coli in the same farm were observed, suggesting that chickens and chicken meat can be a source of human infection in Uganda. Pseudomonas spp. and protozoa of the genus Acanthamoeba are ubiquitous organisms that commonly co-localise in water and in the farm environment with Campylobacter. In vitro assays were performed to investigate whether they could enhance C. jejuni survival under atmospheric conditions. Co-culture assays indicated that certain Pseudomonas ssp. and strains were able to enhance Campylobacter survival with an increase in viable cell recovery ranging from 0.8 LOG to 4.5 LOG depending on the strain after 24 hours of aerobic incubation, while others showed no interactive effect or even reduced Campylobacter survival. A. polyphaga was shown to internalize C. jejuni, protecting it from the oxygen in the atmosphere and thus enhancing its survival with an increase in viable cell recovery of 2 LOG. These studies have further shown the importance of chicken farms in Campylobacter ecology. It has been demonstrated that microorganisms that are capable of enhancing Campylobacter survival in vitro are found in the water distribution system of the farm studied in UK. The characterisation of these communities for a whole rearing cycle has led to the detection of emerging human pathogens in broiler chicken production showing how doing exploratory work targeting whole microbial communities can inform epidemiology.

Published

2017

3. A workflow for the detection of antibiotic residues, measurement of water chemistry and preservation of hospital sink drain samples for metagenomic sequencing

Author

G, Rodger, primary, K, Chau, additional, Aranega-Bou, P., additional, A, Roohi, additional, G, Moore, additional, KL, Hopkins, additional, S, Hopkins, additional, AS, Walker, additional, and N, Stoesser, additional

Published

2023

4. Migration of Escherichia coli and Klebsiella pneumoniae Carbapenemase (KPC)-Producing Enterobacter cloacae through Wastewater Pipework and Establishment in Hospital Sink Waste Traps in a Laboratory Model System

Author

Paz Aranega-Bou, Nicholas Ellaby, Matthew J. Ellington, and Ginny Moore

Subjects

CPE, drains, hospital plumbing, environmental contamination, infection control, Biology (General), QH301-705.5

Abstract

Sink waste traps and drains are a reservoir for multi-drug resistant Gram-negative bacteria in the hospital environment. It has been suggested that these bacteria can migrate through hospital plumbing. Hospital waste traps were installed in a laboratory model system where sinks were connected through a common wastewater pipe. Enterobacterales populations were monitored using selective culture, MALDI-TOF identification and antibiotic resistance profiling before and after a wastewater backflow event. When transfer between sinks was suspected, isolates were compared using whole-genome sequencing. Immediately after the wastewater backflow, two KPC-producing Enterobacter cloacae were recovered from a waste trap in which Carbapenemase-producing Enterobacterales (CPE) had not been detected previously. The isolates belonged to ST501 and ST31 and were genetically indistinguishable to those colonising sinks elsewhere in the system. Following inter-sink transfer, KPC-producing E. cloacae ST501 successfully integrated into the microbiome of the recipient sink and was detected in the waste trap water at least five months after the backflow event. Seven weeks and three months after the backflow, other inter-sink transfers involving Escherichia coli ST5295 and KPC-producing E. cloacae ST501 were also observed.

Published

2021

5. Persistence of SARS-CoV-2 virus and viral RNA in relation to surface type and contamination concentration

Author

Paton, S, Spencer, A, Garratt, I, Thompson, K-A, Dinesh, I, Aranega-Bou, P, Stevenson, D, Clark, S, Dunning, J, Bennett, A, and Pottage, T

Abstract

The transmission of SARS-CoV-2 is likely to occur through a number of routes, including contact with contaminated surfaces. Many studies have used RT-PCR analysis to detect SARS-CoV-2 RNA on surfaces but seldom has viable virus been detected. This paper investigates the viability over time of SARS-CoV-2 dried onto a range of materials and compares viability of the virus to RNA copies recovered, and whether virus viability is concentration dependant. Viable virus persisted for the longest time on surgical mask material and stainless steel with a 99.9% reduction in viability by 122 and 114 hours respectively. Viability of SARS-CoV-2 reduced the fastest on a polyester shirt, with a 99.9% reduction within 2.5 hours. Viability on the bank note was reduced second fastest, with 99.9% reduction in 75 hours. RNA on all the surfaces exhibited a one log reduction in genome copy recovery over 21 days. The findings show that SARS-CoV-2 is most stable on non-porous hydrophobic surfaces. RNA is highly stable when dried on surfaces with only one log reduction in recovery over three weeks. In comparison, SARS-CoV-2 viability reduced more rapidly, but this loss in viability was found to be independent of starting concentration. Expected levels of SARS-CoV-2 viable environmental surface contamination would lead to undetectable levels within two days. Therefore, when RNA is detected on surfaces it does not directly indicate presence of viable virus even at high CT values.

Published

2021

6. A splash-reducing clinical handwash basin reduces droplet-mediated dispersal from a sink contaminated with Gram-negative bacteria in a laboratory model system

Author

Aranega-Bou, P., primary, Cornbill, C., additional, Verlander, N.Q., additional, and Moore, G., additional

Published

2021

7. Detection of SARS-CoV-2 within the healthcare environment: a multi-centre study conducted during the first wave of the COVID-19 outbreak in England

Author

Moore, G., primary, Rickard, H., additional, Stevenson, D., additional, Aranega-Bou, P., additional, Pitman, J., additional, Crook, A., additional, Davies, K., additional, Spencer, A., additional, Burton, C., additional, Easterbrook, L., additional, Love, H.E., additional, Summers, S., additional, Welch, S.R., additional, Wand, N., additional, Thompson, K-A., additional, Pottage, T., additional, Richards, K.S., additional, Dunning, J., additional, and Bennett, A., additional

Published

2021

8. Carbapenem-resistant Enterobacteriaceae dispersal from sinks is linked to drain position and drainage rates in a laboratory model system

Author

Aranega-Bou, P., primary, George, R.P., additional, Verlander, N.Q., additional, Paton, S., additional, Bennett, A., additional, Moore, G., additional, Aiken, Zoie, additional, Akinremi, Oluwafemi, additional, Ali, Aiysha, additional, Cawthorne, Julie, additional, Cleary, Paul, additional, Crook, Derrick W., additional, Decraene, Valerie, additional, Dodgson, Andrew, additional, Doumith, Michel, additional, Ellington, Matthew, additional, Eyre, David W., additional, George, Ryan P., additional, Grimshaw, John, additional, Guiver, Malcolm, additional, Hill, Robert, additional, Hopkins, Katie, additional, Jones, Rachel, additional, Lenney, Cheryl, additional, Mathers, Amy J., additional, McEwan, Ashley, additional, Moore, Ginny, additional, Neilson, Mark, additional, Neilson, Sarah, additional, Peto, Tim E.A., additional, Phan, Hang T.T., additional, Regan, Mark, additional, Seale, Anna C., additional, Stoesser, Nicole, additional, Turner-Gardner, Jay, additional, Watts, Vicky, additional, Walker, Jimmy, additional, Sarah Walker, A., additional, Wyllie, David, additional, Welfare, William, additional, and Woodford, Neil, additional

Published

2019

9. 50 important research questions in microbial ecology

Author

Antwis, RE, Griffiths, SM, Harrison, XA, Aranega-Bou, P, Arce, A, Bettridge, AS, Brailsford, FL, De Menezes, AB, Devaynes, A, Forbes, KM, Fry, EL, Goodhead, IB, Haskell, E, Heys, C, James, C, Johnston, SR, Lewis, GR, Macey, MC, McCarthy, A, McDonald, JE, Mejia-Florez, NL, O'Brien, D, Orland, C, Pautasso, M, Reid, WDK, Robinson, H, Wilson, K, and Sutherland, WJ

Abstract

Microbial ecology provides insights into the ecological and evolutionary dynamics of microbial communities underpinning every ecosystem on Earth. Microbial communities can now be investigated in unprecedented detail, although there is still a wealth of open questions to be tackled. Here we identify 50 research questions of fundamental importance to the science or application of microbial ecology, with the intention of summarising the field and bringing focus to new research avenues. Questions are categorised into seven themes: Host-Microbiome Interactions; Health and Infectious Diseases; Human Health and Food Security; Microbial Ecology in a Changing World; Environmental Processes; Functional Diversity; and Evolutionary Processes. Many questions recognise that microbes provide an extraordinary array of functional diversity that can be harnessed to solve real-world problems. Our limited knowledge of spatial and temporal variation in microbial diversity and function is also reflected, as is the need to integrate micro- and macro-ecological concepts, and knowledge derived from studies with humans and diverse other organisms. Certain methods remain inadequate and currently limit progress in the field. Although not exhaustive, the questions presented are intended to stimulate discussion and provide focus for researchers, funders, and policy makers, informing the future research agenda in microbial ecology.

Published

2017

10. Fifty important research questions in microbial ecology

Author

Antwis, R.E., Griffiths, S.M., Harrison, X.A., Aranega-Bou, P., Arce, A., Bettridge, A.S., Brailsford, F.L., de Menezes, A., Devaynes, A., Forbes, K.M., Fry, E.L., Goodhead, I., Haskell, E., Heys, C., James, C., Johnston, S.R., Lewis, G.R., Lewis, Z., Macey, M.C., McCarthy, A., McDonald, J.E., Mejia-Florez, N.L., O’Brien, D., Orland, C., Pautasso, M., Reid, W.D.K., Robinson, H.A., Wilson, K., Sutherland, W.J., Antwis, R.E., Griffiths, S.M., Harrison, X.A., Aranega-Bou, P., Arce, A., Bettridge, A.S., Brailsford, F.L., de Menezes, A., Devaynes, A., Forbes, K.M., Fry, E.L., Goodhead, I., Haskell, E., Heys, C., James, C., Johnston, S.R., Lewis, G.R., Lewis, Z., Macey, M.C., McCarthy, A., McDonald, J.E., Mejia-Florez, N.L., O’Brien, D., Orland, C., Pautasso, M., Reid, W.D.K., Robinson, H.A., Wilson, K., and Sutherland, W.J.

Abstract

Microbial ecology provides insights into the ecological and evolutionary dynamics of microbial communities underpinning every ecosystem on Earth. Microbial communities can now be investigated in unprecedented detail, although there is still a wealth of open questions to be tackled. Here we identify 50 research questions of fundamental importance to the science or application of microbial ecology, with the intention of summarising the field and bringing focus to new research avenues. Questions are categorised into seven themes: host–microbiome interactions; health and infectious diseases; human health and food security; microbial ecology in a changing world; environmental processes; functional diversity; and evolutionary processes. Many questions recognise that microbes provide an extraordinary array of functional diversity that can be harnessed to solve real-world problems. Our limited knowledge of spatial and temporal variation in microbial diversity and function is also reflected, as is the need to integrate micro- and macro-ecological concepts, and knowledge derived from studies with humans and other diverse organisms. Although not exhaustive, the questions presented are intended to stimulate discussion and provide focus for researchers, funders and policy makers, informing the future research agenda in microbial ecology.

Published

2017

11. Fifty important research questions in microbial ecology

Author

Antwis, RE, Griffiths, SM, Harrison, XA, Aranega-Bou, P, Arce, A, Bettridge, AS, Brailsford, FL, de Menezes, A, Devaynes, A, Forbes, KM, Fry, EL, Goodhead, I, Haskell, E, Heys, C, James, C, Johnston, SR, Lewis, GR, Lewis, Z, Macey, MC, McCarthy, A, McDonald, JE, Mejia-Florez, NL, O'Brien, D, Orland, C, Pautasso, M, Reid, WDK, Robinson, HA, Wilson, K, Sutherland, WJ, Antwis, RE, Griffiths, SM, Harrison, XA, Aranega-Bou, P, Arce, A, Bettridge, AS, Brailsford, FL, de Menezes, A, Devaynes, A, Forbes, KM, Fry, EL, Goodhead, I, Haskell, E, Heys, C, James, C, Johnston, SR, Lewis, GR, Lewis, Z, Macey, MC, McCarthy, A, McDonald, JE, Mejia-Florez, NL, O'Brien, D, Orland, C, Pautasso, M, Reid, WDK, Robinson, HA, Wilson, K, and Sutherland, WJ

Abstract

© FEMS 2017. All rights reserved. Microbial ecology provides insights into the ecological and evolutionary dynamics of microbial communities underpinning every ecosystem on Earth. Microbial communities can now be investigated in unprecedented detail, although there is still a wealth of open questions to be tackled. Here we identify 50 research questions of fundamental importance to the science or application of microbial ecology, with the intention of summarising the field and bringing focus to new research avenues. Questions are categorised into seven themes: host-microbiome interactions; health and infectious diseases; human health and food security; microbial ecology in a changing world; environmental processes; functional diversity; and evolutionary processes. Many questions recognise that microbes provide an extraordinary array of functional diversity that can be harnessed to solve real-world problems. Our limited knowledge of spatial and temporal variation in microbial diversity and function is also reflected, as is the need to integrate micro- and macro-ecological concepts, and knowledge derived from studies with humans and other diverse organisms. Although not exhaustive, the questions presented are intended to stimulate discussion and provide focus for researchers, funders and policy makers, informing the future research agenda in microbial ecology.

Published

2017

12. KPC-Producing Enterobacter cloacaeTransfer Through Pipework Between Hospital Sink Waste Traps in a Laboratory Model System

Author

Aranega Bou, Paz, Ellaby, Nicholas, Ellington, Matthew, and Moore, Ginny

Abstract

Background:Carbapenemase-producing Enterobacterales (CPE) have become an increasingly common cause of hospital-acquired infections while their reservoirs within the clinical setting remain poorly understood. Outbreaks have been linked to hospital sinks, which have been shown to harbor and, under certain conditions, disperse CPE to surrounding surfaces. Hospital and laboratory studies have proposed that Gram-negative organisms, including CPE, can migrate through plumbing biofilms, leading to widespread contamination of the drainage system. Methods:To assess the prevalence of CPE in hospital sinks, drain swabs and waste trap water samples were taken from 10 sinks in 10 hospitals. Hospitals were in different regions of England; 4 had reported recent cases of CPE infection. To investigate spread and dispersal of CPE, waste traps from a single hospital were installed in a laboratory model sink system. Built to simulate a clinical setting, the model incorporated 12 sinks, 6 of which were connected through a common waste pipe. All 12 taps were automatically flushed. Drainage was automatically controlled. Nutrients were provided daily to maintain the bacterial populations, which were regularly sampled to monitor their composition. At 3 weeks after installation, the waste traps were subjected to a drainage backflow event. Waste trap water populations continued to be monitored, and when transfer between sinks was suspected, isolates were characterized and compared using whole-genome sequencing. Results:Between January and June 2019, 200 samples were taken from 103 sinks. In total, 24 (23%) sinks (in 8 hospitals) harbored CRE; of which 10 (in 5 hospitals) harbored at least 1 CPE. Immediately after a backflow event in the laboratory model system, 2 KPC-producing E. cloacaewere recovered from a waste trap in which CPE had not been previously detected. The isolates were identified as ST501 and ST31 and were genetically indistinguishable from those colonizing sinks elsewhere in the system. Following intersink transfer, KPC-producing E. cloacaeST501 successfully integrated into the microbiome of the recipient sink and was detected in the waste trap water at least 6 months after the backflow event. At 2 and 3 months after the backflow, other intersink transfers involving Escherichia coliand KPC-producing E. cloacaewere also observed. Conclusions:Sink waste traps and drains are a reservoir for CPE in hospitals. Once established, CPE contamination might not be confined to a single sink and could spread through wastewater plumbing. Hospitals frequently report drainage problems, which could cause or facilitate CPE transfer between sinks and could lead to long-term establishment.Funding:NoneDisclosures:None

Published

2020

13. Characterising the microbial communities associated with the water distribution system of a broiler farm and their role in Campylobacter infection

Author

Aranega Bou, P

Abstract

Campylobacters are zoonotic pathogens with extensive animal and environmental reservoirs in spite of their fastidious nature. Campylobacter jejuni is the main bacterial cause of human gastroenteritis worldwide. Epidemiological studies have identified chicken meat as the main vehicle for human infection in industrialised countries. In some countries in the developing world, however, there is little information about Campylobacter prevalence in poultry and poultry meat. The dynamics of Campylobacter colonisation of chickens remain poorly understood. It is agreed that in most cases Campylobacter is transmitted to chickens horizontally from the farm environment. Different sources have been recognised, but their actual contribution to Campylobacter epidemiology remains a matter of debate. Water has rarely been identified as a possible source of Campylobacter contamination of chickens, but represents an understudied source. Research suggests that natural microbial communities might promote the survival of Campylobacter in environmental reservoirs by enabling incorporation into biofilms or interaction with protozoa. The aim of this study was to improve our understanding of Campylobacter ecology and epidemiology at the chicken farm level. The main objectives were to unravel the microbial communities associated with the drinking water system of broiler farms and their dynamics through the rearing cycle; to investigate the aerobic survival of the pathogen in co-culture with Pseudomonas environmental isolates and Acanthamoeba polyphaga; and to study Campylobacter prevalence in chicken farms in Uganda.\ud A longitudinal study was conducted in a commercial broiler farm in the UK during a whole rearing cycle. The purpose of this study was to gain an understanding about the microbial communities that inhabit the drinking water system of the broiler farm, and their implication in Campylobacter ecology in the chicken farm. 16S and 18S rRNA profiling of bulk water and biofilm samples were carried out over a seven-week production cycle period. The same samples were screened for the presence of Campylobacter by culture-dependent methods and molecular techniques. Analysis of 16S and 18S rRNA profiles suggested that microbial communities in the water distribution system are niche specific. Biofilm and bulk water samples harboured distinct communities. Moreover, bulk water communities inside the broiler house were significantly different from those sampled from the source water (R=0.88, p

14. A 17-month longitudinal surface sampling study carried out on public transport vehicles operating in England during the COVID-19 pandemic identified low levels of SARS-CoV-2 RNA contamination.

Author

Aranega-Bou P, Pottage T, Fenwick A, D'Costa W, Brown NF, Yaxley N, King MF, Parker ST, Miller D, López-García M, Noakes CJ, Moore G, and Bennett A

Subjects

England epidemiology, Humans, Longitudinal Studies, Motor Vehicles, Transportation, COVID-19 transmission, COVID-19 virology, COVID-19 epidemiology, SARS-CoV-2 genetics, SARS-CoV-2 isolation & purification, RNA, Viral genetics, RNA, Viral analysis, RNA, Viral isolation & purification

Abstract

Aims: To monitor severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) RNA contamination in vehicles operating in England during the pandemic, to better understand transmission risk of SARS-CoV-2 on public transport., Methods and Results: We collected 1314 surface samples between December 2020 and April 2022 on trains and buses managed by five different transport operators. The presence of SARS-CoV-2 RNA was investigated through reverse transcription polymerase chain reaction (RT-PCR). SARS-CoV-2 RNA was found on 197 (15%) of the 1314 surfaces sampled, including seat head rests, handholds, and air extract grilles, but the levels of RNA recovered on those samples (median value of 23.4, interquartile range: 14.3-35.4, N gene copies per extraction) made the presence of infectious virus at the time of sampling extremely unlikely. However, detection rates varied over time with peaks broadly coinciding with times of high community transmission, when it was more likely that people infected with SARS-CoV-2 were travelling on public transport., Conclusion: During the pandemic, and as in other public spaces, low levels of SARS-CoV-2 RNA were found on surfaces associated with public transport., (© Crown copyright 2024.)

Published

2024

15. WITHDRAWN: Evaluation of Fourier Transform Infrared spectroscopy (IR Biotyper) as a complement to Whole genome sequencing (WGS) to characterise Enterobacter cloacae , Citrobacter freundii and Klebsiella pneumoniae isolates recovered from hospital sinks.

Author

Aranega-Bou P, Cornbill C, Rodger G, Bird M, Moore G, Roohi A, Hopkins KL, Hopkins S, Ribeca P, Stoesser N, and Lipworth SI

Abstract

The authors have withdrawn their manuscript due to becoming aware of methodology issues related to the curation of the training set used to determine cut-off values for Biotyper cluster assignation and lack of replicate measurements on different days for the isolates analysed. It is therefore unclear whether the conclusions of the manuscript are founded and no further work is possible to correct these issues as the instrument is no longer available to the authors. If you have any questions, please contact the corresponding author.

Published

2024

16. Laboratory Evaluation of a Quaternary Ammonium Compound-Based Antimicrobial Coating Used in Public Transport during the COVID-19 Pandemic.

Author

Aranega-Bou P, Brown N, Stigling A, D'Costa W, Verlander NQ, Pottage T, Bennett A, and Moore G

Subjects

Humans, SARS-CoV-2, Quaternary Ammonium Compounds pharmacology, Pandemics prevention & control, COVID-19 prevention & control, Anti-Infective Agents pharmacology, Anti-Infective Agents therapeutic use

Abstract

The virucidal activity of the Zoono Z71 Microbe Shield surface sanitizer and protectant, a quaternary ammonium compound (QAC)-based antimicrobial coating that was used by the United Kingdom rail industry during the COVID-19 pandemic, was evaluated, using the bacteriophage ɸ6 as a surrogate for SARS-CoV-2. Immediately after application and in the absence of interfering substances, the product effectively reduced (>3 log 10 ) the viability of ɸ6 on some materials that are typically used in rail carriages (stainless steel, high-pressure laminate, plastic). If, after the application of the product, these surfaces remained undisturbed, the antimicrobial coating retained its efficacy for at least 28 days. However, efficacy depended on the material being coated. The product provided inconsistent results when applied to glass surfaces and was ineffective (i.e., achieved <3 log 10 reduction) when applied to a train arm rest that was made of Terluran 22. Regardless of the material that was coated or the time since application, the presence of organic debris (fetal bovine serum) significantly reduced the viricidal activity of the coating. Wiping the surface with a wetted cloth after the deposition of organic debris was not sufficient to restore efficacy. We conclude that the product is likely to be of limited effectiveness in a busy, multiuser environment, such as public transport. IMPORTANCE This study evaluated the performance of a commercially available antimicrobial coating that was used by the transport industry in the United Kingdom during the COVID-19 pandemic. While the product was effective against ɸ6, the efficacy of the coating depended upon the material to which it was applied. Similarly, and regardless of the surface material, the presence of organic debris severely impaired viricidal activity, and efficacy could not be recovered through wiping (cleaning) the surface. This highlights the importance of including relevant materials and conditions when evaluating antimicrobial coatings in the laboratory. Further efforts are required to identify suitable infection prevention and control practices for the transport industry.

Published

2023

17. Migration of Escherichia coli and Klebsiella pneumoniae Carbapenemase (KPC)-Producing Enterobacter cloacae through Wastewater Pipework and Establishment in Hospital Sink Waste Traps in a Laboratory Model System.

Author

Aranega-Bou P, Ellaby N, Ellington MJ, and Moore G

Abstract

Sink waste traps and drains are a reservoir for multi-drug resistant Gram-negative bacteria in the hospital environment. It has been suggested that these bacteria can migrate through hospital plumbing. Hospital waste traps were installed in a laboratory model system where sinks were connected through a common wastewater pipe. Enterobacterales populations were monitored using selective culture, MALDI-TOF identification and antibiotic resistance profiling before and after a wastewater backflow event. When transfer between sinks was suspected, isolates were compared using whole-genome sequencing. Immediately after the wastewater backflow, two KPC-producing Enterobacter cloacae were recovered from a waste trap in which Carbapenemase-producing Enterobacterales (CPE) had not been detected previously. The isolates belonged to ST501 and ST31 and were genetically indistinguishable to those colonising sinks elsewhere in the system. Following inter-sink transfer, KPC-producing E. cloacae ST501 successfully integrated into the microbiome of the recipient sink and was detected in the waste trap water at least five months after the backflow event. Seven weeks and three months after the backflow, other inter-sink transfers involving Escherichia coli ST5295 and KPC-producing E. cloacae ST501 were also observed.

Published

2021

18. Persistence of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Virus and Viral RNA in Relation to Surface Type and Contamination Concentration.

Author

Paton S, Spencer A, Garratt I, Thompson KA, Dinesh I, Aranega-Bou P, Stevenson D, Clark S, Dunning J, Bennett A, and Pottage T

Subjects

Humans, Microbial Viability, Surface Properties, COVID-19 epidemiology, COVID-19 transmission, COVID-19 virology, Fomites virology, Personal Protective Equipment virology, RNA, Viral isolation & purification, SARS-CoV-2 isolation & purification

Abstract

The transmission of SARS-CoV-2 is likely to occur through a number of routes, including contact with contaminated surfaces. Many studies have used reverse transcription-PCR (RT-PCR) analysis to detect SARS-CoV-2 RNA on surfaces, but seldom has viable virus been detected. This paper investigates the viability over time of SARS-CoV-2 dried onto a range of materials and compares viability of the virus to RNA copies recovered and whether virus viability is concentration dependent. Viable virus persisted for the longest time on surgical mask material and stainless steel, with a 99.9% reduction in viability by 122 and 114 h, respectively. Viability of SARS-CoV-2 reduced the fastest on a polyester shirt, with a 99.9% reduction within 2.5 h. Viability on the bank note was reduced second fastest, with 99.9% reduction in 75 h. RNA on all surfaces exhibited a 1-log reduction in genome copy number recovery over 21 days. The findings show that SARS-CoV-2 is most stable on nonporous hydrophobic surfaces. RNA is highly stable when dried on surfaces, with only 1-log reduction in recovery over 3 weeks. In comparison, SARS-CoV-2 viability reduced more rapidly, but this loss in viability was found to be independent of starting concentration. Expected levels of SARS-CoV-2 viable environmental surface contamination would lead to undetectable levels within 2 days. Therefore, when RNA is detected on surfaces, it does not directly indicate the presence of viable virus, even at low cycle threshold values. IMPORTANCE This study shows the impact of material type on the viability of SARS-CoV-2 on surfaces. It demonstrates that the decay rate of viable SARS-CoV-2 is independent of starting concentration. However, RNA shows high stability on surfaces over extended periods. This has implications for interpretation of surface sampling results using RT-PCR to determine the possibility of viable virus from a surface, where RT-PCR is not an appropriate technique to determine viable virus. Unless sampled immediately after contamination, it is difficult to align RNA copy numbers to quantity of viable virus on a surface.

Published

2021

19. Long-Term Exposure to Octenidine in a Simulated Sink Trap Environment Results in Selection of Pseudomonas aeruginosa, Citrobacter , and Enterobacter Isolates with Mutations in Efflux Pump Regulators.

Author

Garratt I, Aranega-Bou P, Sutton JM, Moore G, and Wand ME

Subjects

Enterobacteriaceae genetics, Enterobacteriaceae growth & development, Hospitals, Imines, Mutation, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa growth & development, Waste Disposal, Fluid, Anti-Infective Agents pharmacology, Bacterial Proteins genetics, Drug Resistance, Bacterial genetics, Enterobacteriaceae drug effects, Membrane Transport Proteins genetics, Pseudomonas aeruginosa drug effects, Pyridines pharmacology

Abstract

Octenidine-based disinfection products are becoming increasingly popular for infection control of multidrug-resistant (MDR) Gram-negative isolates. When a waste trap was removed from a hospital and allowed to acclimatize in a standard tap rig in our laboratory, it was shown that Klebsiella pneumoniae , Pseudomonas aeruginosa , and Citrobacter and Enterobacter spp. were readily isolated. This study aimed to understand the potential impact of prolonged exposure to low doses of a commercial product containing octenidine on these bacteria. Phenotypic and genotypic analyses showed that P. aeruginosa strains had increased tolerance to octenidine, which was characterized by mutations in the Tet repressor SmvR. Enterobacter species demonstrated increased tolerance to many other cationic biocides, although not octenidine, as well as the antibiotics ciprofloxacin, chloramphenicol, and ceftazidime, through mutations in another Tet repressor, RamR. Citrobacter species with mutations in RamR and MarR were identified following octenidine exposure, and this is linked to development of resistance to ampicillin, piperacillin, and chloramphenicol, as well as an increased MIC for ciprofloxacin. Isolates were able to retain fitness, as characterized by growth, biofilm formation, and virulence in Galleria mellonella , after prolonged contact with octenidine, although there were strain-to-strain differences. These results demonstrate that continued low-level octenidine exposure in a simulated sink trap environment selects for mutations that affect smvR It may also promote microbial adaptation to other cationic biocides and cross-resistance to antibiotics, while not incurring a fitness cost. This suggests that hospital sink traps may act as a reservoir for more biocide-tolerant organisms. IMPORTANCE Multidrug-resistant (MDR) strains of bacteria are a major clinical problem, and several reports have linked outbreaks of MDR bacteria with bacterial populations in hospital sinks. Biocides such as octenidine are used clinically in body washes and other products, such as wound dressings for infection control. Therefore, increased tolerance to these biocides would be detrimental to infection control processes. Here, we exposed bacterial populations originally from hospital sink traps to repeated dosing with an octenidine-containing product over several weeks and observed how particular species adapted. We found mutations in genes related to biocide and antibiotic susceptibility, which resulted in increased tolerance, although this was species dependent. Bacteria that became more tolerant to octenidine also showed no loss of fitness. This shows that prolonged octenidine exposure has the potential to promote microbial adaptation in the environment and that hospital sink traps may act as a reservoir for increased biocide- and antibiotic-tolerant organisms., (© Crown copyright 2021.)

Published

2021

20. Fifty important research questions in microbial ecology.

Author

Antwis RE, Griffiths SM, Harrison XA, Aranega-Bou P, Arce A, Bettridge AS, Brailsford FL, de Menezes A, Devaynes A, Forbes KM, Fry EL, Goodhead I, Haskell E, Heys C, James C, Johnston SR, Lewis GR, Lewis Z, Macey MC, McCarthy A, McDonald JE, Mejia-Florez NL, O'Brien D, Orland C, Pautasso M, Reid WDK, Robinson HA, Wilson K, and Sutherland WJ

Subjects

Ecology, Humans, Bacteria growth & development, Biological Evolution, Communicable Diseases, Ecosystem, Food Safety, Microbiota

Abstract

Microbial ecology provides insights into the ecological and evolutionary dynamics of microbial communities underpinning every ecosystem on Earth. Microbial communities can now be investigated in unprecedented detail, although there is still a wealth of open questions to be tackled. Here we identify 50 research questions of fundamental importance to the science or application of microbial ecology, with the intention of summarising the field and bringing focus to new research avenues. Questions are categorised into seven themes: host-microbiome interactions; health and infectious diseases; human health and food security; microbial ecology in a changing world; environmental processes; functional diversity; and evolutionary processes. Many questions recognise that microbes provide an extraordinary array of functional diversity that can be harnessed to solve real-world problems. Our limited knowledge of spatial and temporal variation in microbial diversity and function is also reflected, as is the need to integrate micro- and macro-ecological concepts, and knowledge derived from studies with humans and other diverse organisms. Although not exhaustive, the questions presented are intended to stimulate discussion and provide focus for researchers, funders and policy makers, informing the future research agenda in microbial ecology., (© FEMS 2017. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2017

21. Priming of plant resistance by natural compounds. Hexanoic acid as a model.

Author

Aranega-Bou P, de la O Leyva M, Finiti I, García-Agustín P, and González-Bosch C

Abstract

Some alternative control strategies of currently emerging plant diseases are based on the use of resistance inducers. This review highlights the recent advances made in the characterization of natural compounds that induce resistance by a priming mechanism. These include vitamins, chitosans, oligogalacturonides, volatile organic compounds, azelaic and pipecolic acid, among others. Overall, other than providing novel disease control strategies that meet environmental regulations, natural priming agents are valuable tools to help unravel the complex mechanisms underlying the induced resistance (IR) phenomenon. The data presented in this review reflect the novel contributions made from studying these natural plant inducers, with special emphasis placed on hexanoic acid (Hx), proposed herein as a model tool for this research field. Hx is a potent natural priming agent of proven efficiency in a wide range of host plants and pathogens. It can early activate broad-spectrum defenses by inducing callose deposition and the salicylic acid (SA) and jasmonic acid (JA) pathways. Later it can prime pathogen-specific responses according to the pathogen's lifestyle. Interestingly, Hx primes redox-related genes to produce an anti-oxidant protective effect, which might be critical for limiting the infection of necrotrophs. Our Hx-IR findings also strongly suggest that it is an attractive tool for the molecular characterization of the plant alarmed state, with the added advantage of it being a natural compound.

Published

2014