Mobile microscopy and telemedicine platform assisted by deep learning for the quantification of Trichuris trichiura infection
Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings...
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| Published in | PLoS neglected tropical diseases Vol. 15; no. 9; p. e0009677 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Public Library of Science
01.09.2021
Public Library of Science (PLoS) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1935-2735 1935-2727 1935-2735 |
| DOI | 10.1371/journal.pntd.0009677 |
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| Abstract | Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings and it is labour intensive. Visual reading of Kato-Katz preparations requires the samples to be analyzed in a short period of time since its preparation. Digitizing the samples could provide a solution which allows to store the samples in a digital database and perform remote analysis. Artificial intelligence (AI) methods based on digitized samples can support diagnosis by performing an objective and automatic quantification of disease infection. In this work, we propose an end-to-end pipeline for microscopy image digitization and automatic analysis of digitized images of STH. Our solution includes (a) a digitization system based on a mobile app that digitizes microscope samples using a 3D printed microscope adapter, (b) a telemedicine platform for remote analysis and labelling, and (c) novel deep learning algorithms for automatic assessment and quantification of parasitological infections by STH. The deep learning algorithm has been trained and tested on 51 slides of stool samples containing 949
Trichuris
spp. eggs from 6 different subjects. The algorithm evaluation was performed using a cross-validation strategy, obtaining a mean precision of 98.44% and a mean recall of 80.94%. The results also proved the potential of generalization capability of the method at identifying different types of helminth eggs. Additionally, the AI-assisted quantification of STH based on digitized samples has been compared to the one performed using conventional microscopy, showing a good agreement between measurements. In conclusion, this work has presented a comprehensive pipeline using smartphone-assisted microscopy. It is integrated with a telemedicine platform for automatic image analysis and quantification of STH infection using AI models. |
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| AbstractList | Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings and it is labour intensive. Visual reading of Kato-Katz preparations requires the samples to be analyzed in a short period of time since its preparation. Digitizing the samples could provide a solution which allows to store the samples in a digital database and perform remote analysis. Artificial intelligence (AI) methods based on digitized samples can support diagnosis by performing an objective and automatic quantification of disease infection. In this work, we propose an end-to-end pipeline for microscopy image digitization and automatic analysis of digitized images of STH. Our solution includes (a) a digitization system based on a mobile app that digitizes microscope samples using a 3D printed microscope adapter, (b) a telemedicine platform for remote analysis and labelling, and (c) novel deep learning algorithms for automatic assessment and quantification of parasitological infections by STH. The deep learning algorithm has been trained and tested on 51 slides of stool samples containing 949 Trichuris spp. eggs from 6 different subjects. The algorithm evaluation was performed using a cross-validation strategy, obtaining a mean precision of 98.44% and a mean recall of 80.94%. The results also proved the potential of generalization capability of the method at identifying different types of helminth eggs. Additionally, the AI-assisted quantification of STH based on digitized samples has been compared to the one performed using conventional microscopy, showing a good agreement between measurements. In conclusion, this work has presented a comprehensive pipeline using smartphone-assisted microscopy. It is integrated with a telemedicine platform for automatic image analysis and quantification of STH infection using AI models. Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings and it is labour intensive. Visual reading of Kato-Katz preparations requires the samples to be analyzed in a short period of time since its preparation. Digitizing the samples could provide a solution which allows to store the samples in a digital database and perform remote analysis. Artificial intelligence (AI) methods based on digitized samples can support diagnosis by performing an objective and automatic quantification of disease infection. In this work, we propose an end-to-end pipeline for microscopy image digitization and automatic analysis of digitized images of STH. Our solution includes (a) a digitization system based on a mobile app that digitizes microscope samples using a 3D printed microscope adapter, (b) a telemedicine platform for remote analysis and labelling, and (c) novel deep learning algorithms for automatic assessment and quantification of parasitological infections by STH. The deep learning algorithm has been trained and tested on 51 slides of stool samples containing 949 Trichuris spp. eggs from 6 different subjects. The algorithm evaluation was performed using a cross-validation strategy, obtaining a mean precision of 98.44% and a mean recall of 80.94%. The results also proved the potential of generalization capability of the method at identifying different types of helminth eggs. Additionally, the AI-assisted quantification of STH based on digitized samples has been compared to the one performed using conventional microscopy, showing a good agreement between measurements. In conclusion, this work has presented a comprehensive pipeline using smartphone-assisted microscopy. It is integrated with a telemedicine platform for automatic image analysis and quantification of STH infection using AI models. Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings and it is labour intensive. Visual reading of Kato-Katz preparations requires the samples to be analyzed in a short period of time since its preparation. Digitizing the samples could provide a solution which allows to store the samples in a digital database and perform remote analysis. Artificial intelligence (AI) methods based on digitized samples can support diagnosis by performing an objective and automatic quantification of disease infection. In this work, we propose an end-to-end pipeline for microscopy image digitization and automatic analysis of digitized images of STH. Our solution includes (a) a digitization system based on a mobile app that digitizes microscope samples using a 3D printed microscope adapter, (b) a telemedicine platform for remote analysis and labelling, and (c) novel deep learning algorithms for automatic assessment and quantification of parasitological infections by STH. The deep learning algorithm has been trained and tested on 51 slides of stool samples containing 949 Trichuris spp. eggs from 6 different subjects. The algorithm evaluation was performed using a cross-validation strategy, obtaining a mean precision of 98.44% and a mean recall of 80.94%. The results also proved the potential of generalization capability of the method at identifying different types of helminth eggs. Additionally, the AI-assisted quantification of STH based on digitized samples has been compared to the one performed using conventional microscopy, showing a good agreement between measurements. In conclusion, this work has presented a comprehensive pipeline using smartphone-assisted microscopy. It is integrated with a telemedicine platform for automatic image analysis and quantification of STH infection using AI models.Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings and it is labour intensive. Visual reading of Kato-Katz preparations requires the samples to be analyzed in a short period of time since its preparation. Digitizing the samples could provide a solution which allows to store the samples in a digital database and perform remote analysis. Artificial intelligence (AI) methods based on digitized samples can support diagnosis by performing an objective and automatic quantification of disease infection. In this work, we propose an end-to-end pipeline for microscopy image digitization and automatic analysis of digitized images of STH. Our solution includes (a) a digitization system based on a mobile app that digitizes microscope samples using a 3D printed microscope adapter, (b) a telemedicine platform for remote analysis and labelling, and (c) novel deep learning algorithms for automatic assessment and quantification of parasitological infections by STH. The deep learning algorithm has been trained and tested on 51 slides of stool samples containing 949 Trichuris spp. eggs from 6 different subjects. The algorithm evaluation was performed using a cross-validation strategy, obtaining a mean precision of 98.44% and a mean recall of 80.94%. The results also proved the potential of generalization capability of the method at identifying different types of helminth eggs. Additionally, the AI-assisted quantification of STH based on digitized samples has been compared to the one performed using conventional microscopy, showing a good agreement between measurements. In conclusion, this work has presented a comprehensive pipeline using smartphone-assisted microscopy. It is integrated with a telemedicine platform for automatic image analysis and quantification of STH infection using AI models. Soil-transmitted helminths (STH) are the most prevalent pathogens among the group of neglected tropical diseases (NTDs). The Kato-Katz technique is the diagnosis method recommended by the World Health Organization (WHO) although it often presents a decreased sensitivity in low transmission settings and it is labour intensive. Visual reading of Kato-Katz preparations requires the samples to be analyzed in a short period of time since its preparation. Digitizing the samples could provide a solution which allows to store the samples in a digital database and perform remote analysis. Artificial intelligence (AI) methods based on digitized samples can support diagnosis by performing an objective and automatic quantification of disease infection. In this work, we propose an end-to-end pipeline for microscopy image digitization and automatic analysis of digitized images of STH. Our solution includes (a) a digitization system based on a mobile app that digitizes microscope samples using a 3D printed microscope adapter, (b) a telemedicine platform for remote analysis and labelling, and (c) novel deep learning algorithms for automatic assessment and quantification of parasitological infections by STH. The deep learning algorithm has been trained and tested on 51 slides of stool samples containing 949 Trichuris spp. eggs from 6 different subjects. The algorithm evaluation was performed using a cross-validation strategy, obtaining a mean precision of 98.44% and a mean recall of 80.94%. The results also proved the potential of generalization capability of the method at identifying different types of helminth eggs. Additionally, the AI-assisted quantification of STH based on digitized samples has been compared to the one performed using conventional microscopy, showing a good agreement between measurements. In conclusion, this work has presented a comprehensive pipeline using smartphone-assisted microscopy. It is integrated with a telemedicine platform for automatic image analysis and quantification of STH infection using AI models. Soil-transmitted helminths (STH), including hookworm, Ascaris lumbricoides and Trichuris trichiura , are common intestinal infections in low-income countries. Global estimates indicate that more than 1.5 billion people are infected with at least one STH species. They cause anaemia, gastro-intestinal problems, tiredness amongst other symptoms. Diagnosis of STH infection is mainly performed by analyzing stool samples under the microscope using the so-called Kato-Katz technique. However, the analysis of Kato-Katz samples, which is usually performed by microscopy experts, is a subjective procedure based on visual inspection of the samples and requires to be done in a short period of time since the sample preparation. In this work we proposed a novel system to digitize the microscopy samples using an affordable 3D-printed adapter and smartphones. Digitized images were uploaded to a telemedicine platform enabling remote diagnosis. Additionally, the digitized images were automatically analyzed by an Artificial Intelligence (AI) algorithm which was fully-integrated in the telemedicine platform, performing an automatic and objective count of different types of STH parasites ( A . lumbricoides and T . trichiura) . |
| Audience | Academic |
| Author | Martínez, Álvaro Postigo, María Luengo-Oroz, Miguel Gichuki, Paul Mousa, Adriana Bermejo-Peláez, David Álamo, Elisa Williams, Nana Aba Lin, Lin Vladimirov, Alexander Soto, Alicia Mwandawiro, Charles Cuadrado, Daniel Sukosd, Endre Kepha, Stella Dacal, Elena Muñoz, José |
| AuthorAffiliation | 4 Barcelona Institute for Global Health (ISGlobal), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain 2 Biomedical Image Technologies, ETSI Telecomunicación, Universidad Politécnica de Madrid, Madrid, Spain 1 Spotlab, Madrid, Spain 3 Eastern and Southern Africa Center for International Parasite Control (ESACIPAC), Kenya Medical Research Institute (KEMRI), Nairobi, Kenya Swiss Tropical and Public Health Institute, SWITZERLAND |
| AuthorAffiliation_xml | – name: 2 Biomedical Image Technologies, ETSI Telecomunicación, Universidad Politécnica de Madrid, Madrid, Spain – name: Swiss Tropical and Public Health Institute, SWITZERLAND – name: 1 Spotlab, Madrid, Spain – name: 3 Eastern and Southern Africa Center for International Parasite Control (ESACIPAC), Kenya Medical Research Institute (KEMRI), Nairobi, Kenya – name: 4 Barcelona Institute for Global Health (ISGlobal), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain |
| Author_xml | – sequence: 1 givenname: Elena orcidid: 0000-0003-4599-0370 surname: Dacal fullname: Dacal, Elena – sequence: 2 givenname: David orcidid: 0000-0002-0181-3957 surname: Bermejo-Peláez fullname: Bermejo-Peláez, David – sequence: 3 givenname: Lin orcidid: 0000-0003-3397-6002 surname: Lin fullname: Lin, Lin – sequence: 4 givenname: Elisa surname: Álamo fullname: Álamo, Elisa – sequence: 5 givenname: Daniel orcidid: 0000-0001-7216-0298 surname: Cuadrado fullname: Cuadrado, Daniel – sequence: 6 givenname: Álvaro surname: Martínez fullname: Martínez, Álvaro – sequence: 7 givenname: Adriana surname: Mousa fullname: Mousa, Adriana – sequence: 8 givenname: María surname: Postigo fullname: Postigo, María – sequence: 9 givenname: Alicia orcidid: 0000-0002-8148-5913 surname: Soto fullname: Soto, Alicia – sequence: 10 givenname: Endre surname: Sukosd fullname: Sukosd, Endre – sequence: 11 givenname: Alexander surname: Vladimirov fullname: Vladimirov, Alexander – sequence: 12 givenname: Charles surname: Mwandawiro fullname: Mwandawiro, Charles – sequence: 13 givenname: Paul orcidid: 0000-0001-6558-5538 surname: Gichuki fullname: Gichuki, Paul – sequence: 14 givenname: Nana Aba orcidid: 0000-0003-3520-7573 surname: Williams fullname: Williams, Nana Aba – sequence: 15 givenname: José surname: Muñoz fullname: Muñoz, José – sequence: 16 givenname: Stella surname: Kepha fullname: Kepha, Stella – sequence: 17 givenname: Miguel orcidid: 0000-0002-8694-2001 surname: Luengo-Oroz fullname: Luengo-Oroz, Miguel |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34492039$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_12688_f1000research_129064_1 crossref_primary_10_1371_journal_pntd_0012117 crossref_primary_10_1080_20477724_2023_2272095 crossref_primary_10_1186_s13071_022_05225_7 crossref_primary_10_1371_journal_pntd_0011967 crossref_primary_10_1016_j_ijpara_2022_12_002 crossref_primary_10_1002_jemt_24200 crossref_primary_10_7717_peerj_16773 crossref_primary_10_1016_j_compbiomed_2023_107203 crossref_primary_10_1371_journal_pntd_0011071 crossref_primary_10_1371_journal_pntd_0012041 crossref_primary_10_4155_bio_2023_0193 crossref_primary_10_1097_QCO_0000000000001048 crossref_primary_10_1017_S0031182022001664 crossref_primary_10_1016_j_xcrm_2023_101356 crossref_primary_10_3389_fpara_2025_1440299 crossref_primary_10_1080_14787210_2024_2354839 |
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| Copyright | COPYRIGHT 2021 Public Library of Science 2021 Dacal et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2021 Dacal et al 2021 Dacal et al |
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| DOI | 10.1371/journal.pntd.0009677 |
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| References_xml | – volume: 14 start-page: 397 issue: 6 year: 1972 ident: pntd.0009677.ref005 article-title: A simple device for quantitative stool thick-smear technique in Schistosomiasis mansoni publication-title: Rev Inst Med Trop Sao Paulo – volume: 98 start-page: 288 issue: 4 year: 2020 ident: pntd.0009677.ref014 article-title: Artificial intelligence, diagnostic imaging and neglected tropical diseases: ethical implications publication-title: Bull World Health Organ doi: 10.2471/BLT.19.237560 – volume: 166 start-page: 164 year: 2016 ident: pntd.0009677.ref016 article-title: Identification and quantification of pathogenic helminth eggs using a digital image system publication-title: Exp Parasitol doi: 10.1016/j.exppara.2016.04.016 – ident: pntd.0009677.ref003 – start-page: 740 volume-title: Computer Vision–ECCV 2014 year: 2014 ident: pntd.0009677.ref022 doi: 10.1007/978-3-319-10602-1_48 – volume: 25 start-page: 44 issue: 1 year: 2019 ident: pntd.0009677.ref012 article-title: High-performance medicine: the convergence of human and artificial intelligence publication-title: Nat Med doi: 10.1038/s41591-018-0300-7 – volume: 101 start-page: 140 issue: 2 year: 2007 ident: pntd.0009677.ref008 article-title: Time delays between patient and laboratory selectively affect accuracy of helminth diagnosis publication-title: Trans R Soc Trop Med Hyg doi: 10.1016/j.trstmh.2006.04.008 – volume: 357 start-page: 1018 issue: 10 year: 2007 ident: pntd.0009677.ref001 article-title: Control of Neglected Tropical Diseases publication-title: N Engl J Med doi: 10.1056/NEJMra064142 – volume: 56 start-page: e01469 issue: 1 year: 2017 ident: pntd.0009677.ref011 article-title: “Smart Diagnosis” of Parasitic Diseases by Use of Smartphones publication-title: J Clin Microbiol – volume: 17 start-page: 382 issue: 3 year: 1968 ident: pntd.0009677.ref009 article-title: Evaluation of Kato Thick-Smear Technique for Quantitative Diagnosis of Helminth Infections * publication-title: Am J Trop Med Hyg doi: 10.4269/ajtmh.1968.17.382 – volume: 3 start-page: 118 issue: 1 year: 2020 ident: pntd.0009677.ref013 article-title: The state of artificial intelligence-based FDA-approved medical devices and algorithms: an online database publication-title: Npj Digit Med. doi: 10.1038/s41746-020-00324-0 – volume: 13 start-page: e0007577 issue: 8 year: 2019 ident: pntd.0009677.ref019 article-title: KankaNet: An artificial neural network-based object detection smartphone application and mobile microscope as a point-of-care diagnostic aid for soil-transmitted helminthiases publication-title: PLoS Negl Trop Dis doi: 10.1371/journal.pntd.0007577 – volume: 10 start-page: e0004380 issue: 1 year: 2016 ident: pntd.0009677.ref025 article-title: Application of a Multiplex Quantitative PCR to Assess Prevalence and Intensity Of Intestinal Parasite Infections in a Controlled Clinical Trial publication-title: PLoS Negl Trop Dis. doi: 10.1371/journal.pntd.0004380 – start-page: 21 volume-title: Computer Vision–ECCV 2016 year: 2016 ident: pntd.0009677.ref020 doi: 10.1007/978-3-319-46448-0_2 – ident: pntd.0009677.ref024 – volume: 8 start-page: 135 issue: 2 year: 1999 ident: pntd.0009677.ref023 article-title: Measuring agreement in method comparison studies publication-title: Stat Methods Med Res doi: 10.1177/096228029900800204 – volume: 44 start-page: 765 issue: 11 year: 2014 ident: pntd.0009677.ref007 article-title: Sensitivity of diagnostic tests for human soil-transmitted helminth infections: a meta-analysis in the absence of a true gold standard publication-title: Int J Parasitol doi: 10.1016/j.ijpara.2014.05.009 – year: 2020 ident: pntd.0009677.ref017 article-title: FecalNet: Automated detection of visible components in human feces using deep learning publication-title: Med Phys – ident: pntd.0009677.ref004 – ident: pntd.0009677.ref006 – volume: 10 issue: 3 year: 2017 ident: pntd.0009677.ref018 article-title: Point-of-care mobile digital microscopy and deep learning for the detection of soil-transmitted helminths and Schistosoma haematobium publication-title: Glob Health Action – year: 2017 ident: pntd.0009677.ref021 publication-title: MobileNets: Efficient Convolutional Neural Networks for Mobile Vision Applications – volume: 12 start-page: e0175646 issue: 4 year: 2017 ident: pntd.0009677.ref015 article-title: Mathematical algorithm for the automatic recognition of intestinal parasites publication-title: PLoS ONE. doi: 10.1371/journal.pone.0175646 – start-page: 151 volume-title: Advances in Parasitology year: 2019 ident: pntd.0009677.ref010 – volume: 11 start-page: e1001626 issue: 4 year: 2014 ident: pntd.0009677.ref002 article-title: Geographical Inequalities in Use of Improved Drinking Water Supply and Sanitation across Sub-Saharan Africa: Mapping and Spatial Analysis of Cross-sectional Survey Data publication-title: PLoS Med doi: 10.1371/journal.pmed.1001626 |
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| Title | Mobile microscopy and telemedicine platform assisted by deep learning for the quantification of Trichuris trichiura infection |
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