Optimized methods for detecting Salmonella Typhi in the environment using validated field sampling, culture and confirmatory molecular approaches
Optimized methods for detecting Salmonella Typhi in the environment using validated field sampling, culture and confirmatory molecular approaches
Aims: this study evaluated detection methods for Salmonella Typhi (S. Typhi) in the environment, to establish a novel pathway from field sampling to isolation of viable organisms and molecular confirmation from complex environmental samples, thus enabling environmental surveillance of typhoid.
Methods and results: multiple media were assessed using clinical isolates from the Public Health England's (PHE) Culture collection. The culture pathway selected consisted of a primary 2% bile broth and secondary Selenite F broth, followed by modified Chromogenic Agar for Salmonella Esterase (mCASE). A qPCR assay was adapted from a validated S. Typhi PCR panel for confirmation of isolates, with comparison to biochemical and serological tests showing good specificity. Sampling locations in Blantyre, Malawi were used to compare sampling methods. Viable S. Typhi were isolated from a mixture of trap and grab river water samples on six occasions.
Conclusions: culture of viable S. Typhi from environmental samples was possible using effective capture and culture techniques.
Significance and impact of study: whilst several studies have attempted to detect S. Typhi from the environment, this is the first successful attempt to isolate the organism from river water since the 1980s. Supplementing clinical data with environmental screening offers the potential for enhanced surveillance, which might inform interventions and assess vaccination programmes.
1503-1517
Rigby, Jonathan
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Elmerhebi, Ezzeddine
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Diness, Yohane
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Mkwanda, Charity
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Tonthola, Katalina
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Galloway, Heather
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Miles, Rory
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Henrion, Marc Y. R.
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Edwards, Thomas
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Gauld, Jillian
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Msefula, Chisomo
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Johnston, Rob
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Nair, Satheesh
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Feasey, Nicholas
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Elviss, Nicola C.
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1 February 2022
Rigby, Jonathan
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Elmerhebi, Ezzeddine
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Diness, Yohane
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Mkwanda, Charity
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Tonthola, Katalina
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Galloway, Heather
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Miles, Rory
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Henrion, Marc Y. R.
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Edwards, Thomas
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Gauld, Jillian
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Msefula, Chisomo
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Johnston, Rob
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Nair, Satheesh
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Feasey, Nicholas
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Elviss, Nicola C.
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Rigby, Jonathan, Elmerhebi, Ezzeddine, Diness, Yohane, Mkwanda, Charity, Tonthola, Katalina, Galloway, Heather, Miles, Rory, Henrion, Marc Y. R., Edwards, Thomas, Gauld, Jillian, Msefula, Chisomo, Johnston, Rob, Nair, Satheesh, Feasey, Nicholas and Elviss, Nicola C.
(2022)
Optimized methods for detecting Salmonella Typhi in the environment using validated field sampling, culture and confirmatory molecular approaches.
Journal of Applied Microbiology, 132 (2), .
(doi:10.1111/jam.15237).
Abstract
Aims: this study evaluated detection methods for Salmonella Typhi (S. Typhi) in the environment, to establish a novel pathway from field sampling to isolation of viable organisms and molecular confirmation from complex environmental samples, thus enabling environmental surveillance of typhoid.
Methods and results: multiple media were assessed using clinical isolates from the Public Health England's (PHE) Culture collection. The culture pathway selected consisted of a primary 2% bile broth and secondary Selenite F broth, followed by modified Chromogenic Agar for Salmonella Esterase (mCASE). A qPCR assay was adapted from a validated S. Typhi PCR panel for confirmation of isolates, with comparison to biochemical and serological tests showing good specificity. Sampling locations in Blantyre, Malawi were used to compare sampling methods. Viable S. Typhi were isolated from a mixture of trap and grab river water samples on six occasions.
Conclusions: culture of viable S. Typhi from environmental samples was possible using effective capture and culture techniques.
Significance and impact of study: whilst several studies have attempted to detect S. Typhi from the environment, this is the first successful attempt to isolate the organism from river water since the 1980s. Supplementing clinical data with environmental screening offers the potential for enhanced surveillance, which might inform interventions and assess vaccination programmes.
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Accepted/In Press date: 8 July 2021
Published date: 1 February 2022
Identifiers
Local EPrints ID: 500338
URI: http://eprints.soton.ac.uk/id/eprint/500338
ISSN: 1364-5072
PURE UUID: c634936d-4cb1-4557-9d55-e2d3953c68fd
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Date deposited: 25 Apr 2025 16:40
Last modified: 26 Apr 2025 02:14
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Contributors
Author:
Jonathan Rigby
Author:
Ezzeddine Elmerhebi
Author:
Yohane Diness
Author:
Charity Mkwanda
Author:
Katalina Tonthola
Author:
Heather Galloway
Author:
Rory Miles
Author:
Marc Y. R. Henrion
Author:
Thomas Edwards
Author:
Jillian Gauld
Author:
Chisomo Msefula
Author:
Rob Johnston
Author:
Satheesh Nair
Author:
Nicholas Feasey
Author:
Nicola C. Elviss
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