Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving

BACKGROUND: One of the lessons learned from the coronavirus disease 2019 (COVID-19) pandemic is the importance of early, flexible, and rapidly deployable disease detection methods. Currently, diagnosis of COVID-19 requires the collection of oro/nasopharyngal swabs, nasal turbinate, anterior nares an...

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Autores principales: Mutesa, Leon, Misbah, Gashegu, Remera, Eric, Ebbers, Hans, Schalke, Esther, Tuyisenge, Patrick, Sindayiheba, Reuben, Igiraneza, Clement, Uwimana, Jeanine, Mbabazi, Diane, Kayonga, Epimaque, Twagiramungu, Michel, Mugwaneza, Denyse, Ishema, Leandre, Butera, Yvan, Musanabaganwa, Clarisse, Rwagasore, Edson, Twele, Friederike, Meller, Sebastian, Tuyishime, Albert, Rutayisire, Robert, Murindahabi, Marilyn Milumbu, Wilson, Lindsay A., Bigirimana, Noella, Volk, Holger A., Ndahindwa, Vedaste, Kayijuka, Benoit, Mills, Edward J., Muvunyi, Claude Mambo, Nsanzimana, Sabin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Medicine
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9751420/
https://www.ncbi.nlm.nih.gov/pubmed/36530913
http://dx.doi.org/10.3389/fmed.2022.1006315
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author Mutesa, Leon
Misbah, Gashegu
Remera, Eric
Ebbers, Hans
Schalke, Esther
Tuyisenge, Patrick
Sindayiheba, Reuben
Igiraneza, Clement
Uwimana, Jeanine
Mbabazi, Diane
Kayonga, Epimaque
Twagiramungu, Michel
Mugwaneza, Denyse
Ishema, Leandre
Butera, Yvan
Musanabaganwa, Clarisse
Rwagasore, Edson
Twele, Friederike
Meller, Sebastian
Tuyishime, Albert
Rutayisire, Robert
Murindahabi, Marilyn Milumbu
Wilson, Lindsay A.
Bigirimana, Noella
Volk, Holger A.
Ndahindwa, Vedaste
Kayijuka, Benoit
Mills, Edward J.
Muvunyi, Claude Mambo
Nsanzimana, Sabin
author_facet Mutesa, Leon
Misbah, Gashegu
Remera, Eric
Ebbers, Hans
Schalke, Esther
Tuyisenge, Patrick
Sindayiheba, Reuben
Igiraneza, Clement
Uwimana, Jeanine
Mbabazi, Diane
Kayonga, Epimaque
Twagiramungu, Michel
Mugwaneza, Denyse
Ishema, Leandre
Butera, Yvan
Musanabaganwa, Clarisse
Rwagasore, Edson
Twele, Friederike
Meller, Sebastian
Tuyishime, Albert
Rutayisire, Robert
Murindahabi, Marilyn Milumbu
Wilson, Lindsay A.
Bigirimana, Noella
Volk, Holger A.
Ndahindwa, Vedaste
Kayijuka, Benoit
Mills, Edward J.
Muvunyi, Claude Mambo
Nsanzimana, Sabin
author_sort Mutesa, Leon
collection PubMed
description BACKGROUND: One of the lessons learned from the coronavirus disease 2019 (COVID-19) pandemic is the importance of early, flexible, and rapidly deployable disease detection methods. Currently, diagnosis of COVID-19 requires the collection of oro/nasopharyngal swabs, nasal turbinate, anterior nares and saliva but as the pandemic continues, disease detection methods that can identify infected individuals earlier and more quickly will be crucial for slowing the spread of the virus. Previous studies have indicated that dogs can be trained to identify volatile organic compounds (VOCs) produced during respiratory infections. We sought to determine whether this approach could be applied for detection of COVID-19 in Rwanda and measured its cost-saving. METHODS: Over a period of 5 months, four dogs were trained to detect VOCs in sweat samples collected from human subjects confirmed positive or negative for COVID-19 by reverse transcription polymerase chain reaction (RT-PCR) testing. Dogs were trained using a detection dog training system (DDTS) and in vivo diagnosis. Samples were collected from 5,253 participants using a cotton pad swiped in the underarm to collect sweat samples. Statistical analysis was conducted using R statistical software. FINDINGS: From August to September 2021 during the Delta wave, the sensitivity of the dogs’ COVID-19 detection ranged from 75.0 to 89.9% for the lowest- and highest-performing dogs, respectively. Specificity ranged from 96.1 to 98.4%, respectively. In the second phase coinciding with the Omicron wave (January–March 2022), the sensitivity decreased substantially from 36.6 to 41.5%, while specificity remained above 95% for all four dogs. The sensitivity and specificity by any positive sample detected by at least one dog was 83.9, 95% CI: 75.8–90.2 and 94.9%; 95% CI: 93.9–95.8, respectively. The use of scent detection dogs was also found to be cost-saving compared to antigen rapid diagnostic tests, based on a marginal cost of approximately $14,000 USD for testing of the 5,253 samples which makes 2.67 USD per sample. Testing turnaround time was also faster with the scent detection dogs, at 3 h compared to 11 h with routine diagnostic testing. CONCLUSION: The findings from this study indicate that trained dogs can accurately identify respiratory secretion samples from asymptomatic and symptomatic COVID-19 patients timely and cost-effectively. Our findings recommend further uptake of this approach for COVID-19 detection.
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spelling pubmed-97514202022-12-16 Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving Mutesa, Leon Misbah, Gashegu Remera, Eric Ebbers, Hans Schalke, Esther Tuyisenge, Patrick Sindayiheba, Reuben Igiraneza, Clement Uwimana, Jeanine Mbabazi, Diane Kayonga, Epimaque Twagiramungu, Michel Mugwaneza, Denyse Ishema, Leandre Butera, Yvan Musanabaganwa, Clarisse Rwagasore, Edson Twele, Friederike Meller, Sebastian Tuyishime, Albert Rutayisire, Robert Murindahabi, Marilyn Milumbu Wilson, Lindsay A. Bigirimana, Noella Volk, Holger A. Ndahindwa, Vedaste Kayijuka, Benoit Mills, Edward J. Muvunyi, Claude Mambo Nsanzimana, Sabin Front Med (Lausanne) Medicine BACKGROUND: One of the lessons learned from the coronavirus disease 2019 (COVID-19) pandemic is the importance of early, flexible, and rapidly deployable disease detection methods. Currently, diagnosis of COVID-19 requires the collection of oro/nasopharyngal swabs, nasal turbinate, anterior nares and saliva but as the pandemic continues, disease detection methods that can identify infected individuals earlier and more quickly will be crucial for slowing the spread of the virus. Previous studies have indicated that dogs can be trained to identify volatile organic compounds (VOCs) produced during respiratory infections. We sought to determine whether this approach could be applied for detection of COVID-19 in Rwanda and measured its cost-saving. METHODS: Over a period of 5 months, four dogs were trained to detect VOCs in sweat samples collected from human subjects confirmed positive or negative for COVID-19 by reverse transcription polymerase chain reaction (RT-PCR) testing. Dogs were trained using a detection dog training system (DDTS) and in vivo diagnosis. Samples were collected from 5,253 participants using a cotton pad swiped in the underarm to collect sweat samples. Statistical analysis was conducted using R statistical software. FINDINGS: From August to September 2021 during the Delta wave, the sensitivity of the dogs’ COVID-19 detection ranged from 75.0 to 89.9% for the lowest- and highest-performing dogs, respectively. Specificity ranged from 96.1 to 98.4%, respectively. In the second phase coinciding with the Omicron wave (January–March 2022), the sensitivity decreased substantially from 36.6 to 41.5%, while specificity remained above 95% for all four dogs. The sensitivity and specificity by any positive sample detected by at least one dog was 83.9, 95% CI: 75.8–90.2 and 94.9%; 95% CI: 93.9–95.8, respectively. The use of scent detection dogs was also found to be cost-saving compared to antigen rapid diagnostic tests, based on a marginal cost of approximately $14,000 USD for testing of the 5,253 samples which makes 2.67 USD per sample. Testing turnaround time was also faster with the scent detection dogs, at 3 h compared to 11 h with routine diagnostic testing. CONCLUSION: The findings from this study indicate that trained dogs can accurately identify respiratory secretion samples from asymptomatic and symptomatic COVID-19 patients timely and cost-effectively. Our findings recommend further uptake of this approach for COVID-19 detection. Frontiers Media S.A. 2022-12-01 /pmc/articles/PMC9751420/ /pubmed/36530913 http://dx.doi.org/10.3389/fmed.2022.1006315 Text en Copyright © 2022 Mutesa, Misbah, Remera, Ebbers, Schalke, Tuyisenge, Sindayiheba, Igiraneza, Uwimana, Mbabazi, Kayonga, Twagiramungu, Mugwaneza, Ishema, Butera, Musanabaganwa, Rwagasore, Twele, Meller, Tuyishime, Rutayisire, Murindahabi, Wilson, Bigirimana, Volk, Ndahindwa, Kayijuka, Mills, Muvunyi and Nsanzimana. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Medicine
Mutesa, Leon
Misbah, Gashegu
Remera, Eric
Ebbers, Hans
Schalke, Esther
Tuyisenge, Patrick
Sindayiheba, Reuben
Igiraneza, Clement
Uwimana, Jeanine
Mbabazi, Diane
Kayonga, Epimaque
Twagiramungu, Michel
Mugwaneza, Denyse
Ishema, Leandre
Butera, Yvan
Musanabaganwa, Clarisse
Rwagasore, Edson
Twele, Friederike
Meller, Sebastian
Tuyishime, Albert
Rutayisire, Robert
Murindahabi, Marilyn Milumbu
Wilson, Lindsay A.
Bigirimana, Noella
Volk, Holger A.
Ndahindwa, Vedaste
Kayijuka, Benoit
Mills, Edward J.
Muvunyi, Claude Mambo
Nsanzimana, Sabin
Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving
title Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving
title_full Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving
title_fullStr Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving
title_full_unstemmed Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving
title_short Use of trained scent dogs for detection of COVID-19 and evidence of cost-saving
title_sort use of trained scent dogs for detection of covid-19 and evidence of cost-saving
topic Medicine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9751420/
https://www.ncbi.nlm.nih.gov/pubmed/36530913
http://dx.doi.org/10.3389/fmed.2022.1006315
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