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815 results on '"Gkoutos, Georgios"'

1. Development of Automated Neural Network Prediction for Echocardiographic Left ventricular Ejection Fraction

Author

Zhang, Yuting, Liu, Boyang, Bunting, Karina V., Brind, David, Thorley, Alexander, Karwath, Andreas, Lu, Wenqi, Zhou, Diwei, Wang, Xiaoxia, Mobley, Alastair R., Tica, Otilia, Gkoutos, Georgios, Kotecha, Dipak, and Duan, Jinming

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The echocardiographic measurement of left ventricular ejection fraction (LVEF) is fundamental to the diagnosis and classification of patients with heart failure (HF). In order to quantify LVEF automatically and accurately, this paper proposes a new pipeline method based on deep neural networks and ensemble learning. Within the pipeline, an Atrous Convolutional Neural Network (ACNN) was first trained to segment the left ventricle (LV), before employing the area-length formulation based on the ellipsoid single-plane model to calculate LVEF values. This formulation required inputs of LV area, derived from segmentation using an improved Jeffrey's method, as well as LV length, derived from a novel ensemble learning model. To further improve the pipeline's accuracy, an automated peak detection algorithm was used to identify end-diastolic and end-systolic frames, avoiding issues with human error. Subsequently, single-beat LVEF values were averaged across all cardiac cycles to obtain the final LVEF. This method was developed and internally validated in an open-source dataset containing 10,030 echocardiograms. The Pearson's correlation coefficient was 0.83 for LVEF prediction compared to expert human analysis (p<0.001), with a subsequent area under the receiver operator curve (AUROC) of 0.98 (95% confidence interval 0.97 to 0.99) for categorisation of HF with reduced ejection (HFrEF; LVEF<40%). In an external dataset with 200 echocardiograms, this method achieved an AUC of 0.90 (95% confidence interval 0.88 to 0.91) for HFrEF assessment. This study demonstrates that an automated neural network-based calculation of LVEF is comparable to expert clinicians performing time-consuming, frame-by-frame manual evaluation of cardiac systolic function., Comment: Accepted to Frontiers in Medicine

Published
2024

2. Global 30-Day Morbidity and Mortality of Primary Bariatric Surgery Combined with Another Procedure: The BLEND Study

Author

Martinino, Alessandro, Nanayakkara, Kushan D. L., Madhok, Brij, Wong, Geoffrey Yuet Mun, Abouelazayem, Mohamed, Pereira, Juan Pablo Scarano, Wazir, Ishaan, Balasubaramaniam, Vignesh, Said, Amira, Marques, Cláudia, Abdelbaeth, Amr, Al-Shami, Khayry, Albashari, Muna, Alkaseek, Akram, Almayouf, Mohammad Abdullah, Aloulou, Mohammad, Alqahtan, Awadh Robaan, Askari, Alan, Attia, Meena Faiez Assad, Awad, Ahmed K., Aykota, Muhammed Rasid, Bacalbasa, Nicolae, Barrera-Rodriguez, Francisco J., Benavoli, Domenico, Billa, Srikar, Borrelli, Vincenzo, Çalıkoğlu, İsmail, Campanelli, Michela, Carbajo, Miguel A., Chowdhury, Sharfuddin, Cristin, Luca, Dapri, Giovanni, Dong, Zhiyong, Elfawal, Mohamad Hayssam, Elgazar, Amr, Elhadi, Muhammed, Gentileschi, Paolo, Graham, Yitka, Haj, Bassel, Johnson, Joseph Andrew, Kalmoush, Abd-Elfattah Morsi, Kamal, Ayman, Kamocka, Anna, Khamees, Almu’atasim, Lisi, Giorgio, Hernandez, Edgard Efren Lozada, Marinari, Giuseppe M., Martines, Gennaro, Meric, Serhat, Mier, Fernando, Ali, Ahmed Mohamed, Mohammed, Diyaaldeen, Mohamed, Karim Mostafa, Mulita, Francesk, Musella, Mario, O’Malley, William Edward, Olmi, Stefano, Omarov, Taryel, Osama, Omnya, Perera, HMinali R., Piscitelli, Giovanni, Poghosyan, Tigran, Ramírez, David, Rezvani, Masoud, Ribeiro, Rui, Sabbota, Aaron, Sakran, Nasser, Sawaftah, Khaled Ahmad, Schiavone, Kaci, Şen, Ozan, Sotiropoulou, Maria, Tartaglia, Nicola, Tokocin, Merve, Trotta, Manuela, Türkçapar, Ahmet Gökhan, Uccelli, Matteo, Vargas, Cesar, Verras, Georgios -Ioannis, Wang, Cunchuan, Wei, Zhuoqi, Yang, Wah, Zerrweck, Carlos, Owen, Eloise, Gkoutos, Georgios V., Cardoso, Victor Roth, Singhal, Rishi, and Mahawar, Kamal

Published
2024
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3. Global 30-day morbidity and mortality of surgery for perforated peptic ulcer: GRACE study

Author

Abouelazayem, Mohamed, Jain, Rajesh, Wilson, Michael S. J., Martinino, Alessandro, Balasubaramaniam, Vignesh, Biffl, Walter, Coccolini, Federico, Riera, Manel, Wadhawan, Himanshu, Wazir, Ishaan, Abderaouf, Bettahar, Abramov, Daniil, Abu Jayyab, Mustafa A., Al-Shami, Khayry, Alfarwan, Ahmad, Alhajami, Faris M., Alkaseek, Akram, Alozairi, Ous, Ammar, Ahmed Siddique, Atar, Burak, Baatarjav, Gan-Erdene, Bains, Lovenish, Bakri, Ashraf, Bayramov, Nuru, Bhojwani, Rajesh, Brachini, Gioia, Calini, Giacomo, Campanelli, Michela, Cheng, Shi Yu, Choudhary, Charan Singh, Chowdhury, Sharfuddin, Colak, Elif, Das, Jayanta Kumar, Dawani, Surrendar, Dönmez, Turgut, Elzayat, Ibrahim, Erdene, Sarnai, Faizi, Tashaba Qaiser, Frountzas, Maximos, Gafsi, Besma, Gentileschi, Paolo, Guler, Mert, Gupta, Gaurav, Harkati, Nour Elhouda, Harris, Matthew, Hasan, Doaa M., Irowa, Omorodion Omoruyi, Jafferi, Salman, Jain, Sumita Agarwal, Jun Han, Lai, Kandiboyina, Satyanarayana Murthy, Karabulut, Mehmetu, Khamees, Almu’atasim, Khan, Shahzeb, Khan, Madiha Masood, Khaw, Cheng Jing, Kisielewski, Michal, Klib, Mohamad, Košir, Jurij A., Krawczyk, Wiktor Jan, Lisi, Giorgio, Makama, Jerry Godfrey, Maqbool, Baila, Marques, Cláudia Neves, Meric, Serhat, Mietła, Mateusz Przemysław, Ads, Alaa Mohamed, Muhumuza, Joshua, Mulita, Francesk, Mustafayeva, Matanat, Omar, Mohammed A., Omarov, Taryel, Pathak, Akshant Anil, Paul, Ratnadeep, Pavone, Giovanna, Podda, Mauro, Raja Ram, Novinth Kumar, Rauf, Fatima, Rauf, Sidra, Safy, Ahmed Mohamed, Sandag, Erdene, Şanlı, Ahmet Necati, Siddiqui, Adeela Z., Sotiropoulou, Maria, Talib, Vikash, Tatar, Cihad, Thota, Anuroop, Tokocin, Merve, Tolat, Aditya, Uchikov, Petar Angelov, Valenzuela, José I., Venkatappa, Sunil Kumar, Verras, Georgios-Ioannis, Vlahović, Ivan, Zreeg, Dafer Abdulhakim S., Cardoso, Victor Roth, Gkoutos, Georgios V., Singhal, Rishi, and Mahawar, Kamal

Published
2024
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8. Learning from learning machines: a new generation of AI technology to meet the needs of science

Author

Pion-Tonachini, Luca, Bouchard, Kristofer, Martin, Hector Garcia, Peisert, Sean, Holtz, W. Bradley, Aswani, Anil, Dwivedi, Dipankar, Wainwright, Haruko, Pilania, Ghanshyam, Nachman, Benjamin, Marrone, Babetta L., Falco, Nicola, Prabhat, Arnold, Daniel, Wolf-Yadlin, Alejandro, Powers, Sarah, Climer, Sharlee, Jackson, Quinn, Carlson, Ty, Sohn, Michael, Zwart, Petrus, Kumar, Neeraj, Justice, Amy, Tomlin, Claire, Jacobson, Daniel, Micklem, Gos, Gkoutos, Georgios V., Bickel, Peter J., Cazier, Jean-Baptiste, Müller, Juliane, Webb-Robertson, Bobbie-Jo, Stevens, Rick, Anderson, Mark, Kreutz-Delgado, Ken, Mahoney, Michael W., and Brown, James B.

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

We outline emerging opportunities and challenges to enhance the utility of AI for scientific discovery. The distinct goals of AI for industry versus the goals of AI for science create tension between identifying patterns in data versus discovering patterns in the world from data. If we address the fundamental challenges associated with "bridging the gap" between domain-driven scientific models and data-driven AI learning machines, then we expect that these AI models can transform hypothesis generation, scientific discovery, and the scientific process itself.

Published
2021

9. Nesterov Accelerated ADMM for Fast Diffeomorphic Image Registration

Author

Thorley, Alexander, Jia, Xi, Chang, Hyung Jin, Liu, Boyang, Bunting, Karina, Stoll, Victoria, de Marvao, Antonio, O'Regan, Declan P., Gkoutos, Georgios, Kotecha, Dipak, and Duan, Jinming

Subjects
Computer Science - Computer Vision and Pattern Recognition, Mathematics - Dynamical Systems
Abstract

Deterministic approaches using iterative optimisation have been historically successful in diffeomorphic image registration (DiffIR). Although these approaches are highly accurate, they typically carry a significant computational burden. Recent developments in stochastic approaches based on deep learning have achieved sub-second runtimes for DiffIR with competitive registration accuracy, offering a fast alternative to conventional iterative methods. In this paper, we attempt to reduce this difference in speed whilst retaining the performance advantage of iterative approaches in DiffIR. We first propose a simple iterative scheme that functionally composes intermediate non-stationary velocity fields to handle large deformations in images whilst guaranteeing diffeomorphisms in the resultant deformation. We then propose a convex optimisation model that uses a regularisation term of arbitrary order to impose smoothness on these velocity fields and solve this model with a fast algorithm that combines Nesterov gradient descent and the alternating direction method of multipliers (ADMM). Finally, we leverage the computational power of GPU to implement this accelerated ADMM solver on a 3D cardiac MRI dataset, further reducing runtime to less than 2 seconds. In addition to producing strictly diffeomorphic deformations, our methods outperform both state-of-the-art deep learning-based and iterative DiffIR approaches in terms of dice and Hausdorff scores, with speed approaching the inference time of deep learning-based methods., Comment: Accepted to MICCAI 2021

Published
2021

11. An angiopoietin 2, FGF23, and BMP10 biomarker signature differentiates atrial fibrillation from other concomitant cardiovascular conditions

Author

Chua, Winnie, Cardoso, Victor R., Guasch, Eduard, Sinner, Moritz F., Al-Taie, Christoph, Brady, Paul, Casadei, Barbara, Crijns, Harry J. G. M., Dudink, Elton A. M. P., Hatem, Stéphane N., Kääb, Stefan, Kastner, Peter, Mont, Lluis, Nehaj, Frantisek, Purmah, Yanish, Reyat, Jasmeet S., Schotten, Ulrich, Sommerfeld, Laura C., Zeemering, Stef, Ziegler, André, Gkoutos, Georgios V., Kirchhof, Paulus, and Fabritz, Larissa

Published
2023
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20. Symptoms and risk factors for long COVID in non-hospitalized adults

Author

Subramanian, Anuradhaa, Nirantharakumar, Krishnarajah, Hughes, Sarah, Myles, Puja, Williams, Tim, Gokhale, Krishna M., Taverner, Tom, Chandan, Joht Singh, Brown, Kirsty, Simms-Williams, Nikita, Shah, Anoop D., Singh, Megha, Kidy, Farah, Okoth, Kelvin, Hotham, Richard, Bashir, Nasir, Cockburn, Neil, Lee, Siang Ing, Turner, Grace M., Gkoutos, Georgios V., Aiyegbusi, Olalekan Lee, McMullan, Christel, Denniston, Alastair K., Sapey, Elizabeth, Lord, Janet M., Wraith, David C., Leggett, Edward, Iles, Clare, Marshall, Tom, Price, Malcolm J., Marwaha, Steven, Davies, Elin Haf, Jackson, Louise J., Matthews, Karen L., Camaradou, Jenny, Calvert, Melanie, and Haroon, Shamil

Published
2022
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21. CODE-EHR best-practice framework for the use of structured electronic health-care records in clinical research

Author

Kotecha, Dipak, Asselbergs, Folkert W, Achenbach, Stephan, Anker, Stefan D, Atar, Dan, Baigent, Colin, Banerjee, Amitava, Beger, Birgit, Brobert, Gunnar, Casadei, Barbara, Ceccarelli, Cinzia, Cowie, Martin R, Crea, Filippo, Cronin, Maureen, Denaxas, Spiros, Derix, Andrea, Fitzsimons, Donna, Fredriksson, Martin, Gale, Chris P, Gkoutos, Georgios V, Goettsch, Wim, Hemingway, Harry, Ingvar, Martin, Jonas, Adrian, Kazmierski, Robert, Løgstrup, Susanne, Lumbers, R Thomas, Lüscher, Thomas F, McGreavy, Paul, Piña, Ileana L, Roessig, Lothar, Steinbeisser, Carl, Sundgren, Mats, Tyl, Benoît, Thiel, Ghislaine van, Bochove, Kees van, Vardas, Panos E, Villanueva, Tiago, Vrana, Marilena, Weber, Wim, Weidinger, Franz, Windecker, Stephan, Wood, Angela, and Grobbee, Diederick E

Published
2022
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28. A survey on clinical natural language processing in the United Kingdom from 2007 to 2022

Author

Wu, Honghan, Wang, Minhong, Wu, Jinge, Francis, Farah, Chang, Yun-Hsuan, Shavick, Alex, Dong, Hang, Poon, Michael T. C., Fitzpatrick, Natalie, Levine, Adam P., Slater, Luke T., Handy, Alex, Karwath, Andreas, Gkoutos, Georgios V., Chelala, Claude, Shah, Anoop Dinesh, Stewart, Robert, Collier, Nigel, Alex, Beatrice, Whiteley, William, Sudlow, Cathie, Roberts, Angus, and Dobson, Richard J. B.

Published
2022
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30. The Planteome database: an integrated resource for reference ontologies, plant genomics and phenomics

Author

Cooper, Laurel, Meier, Austin, Laporte, Marie-Angélique, Elser, Justin L, Mungall, Chris, Sinn, Brandon T, Cavaliere, Dario, Carbon, Seth, Dunn, Nathan A, Smith, Barry, Qu, Botong, Preece, Justin, Zhang, Eugene, Todorovic, Sinisa, Gkoutos, Georgios, Doonan, John H, Stevenson, Dennis W, Arnaud, Elizabeth, and Jaiswal, Pankaj

Subjects
Networking and Information Technology R&D (NITRD), Genetics, Crops, Agricultural, Data Curation, Databases, Genetic, Gene Expression Regulation, Plant, Gene Ontology, Genome, Plant, Molecular Sequence Annotation, Phenotype, Plants, Software, User-Computer Interface, Environmental Sciences, Biological Sciences, Information and Computing Sciences, Developmental Biology
Abstract

The Planteome project (http://www.planteome.org) provides a suite of reference and species-specific ontologies for plants and annotations to genes and phenotypes. Ontologies serve as common standards for semantic integration of a large and growing corpus of plant genomics, phenomics and genetics data. The reference ontologies include the Plant Ontology, Plant Trait Ontology and the Plant Experimental Conditions Ontology developed by the Planteome project, along with the Gene Ontology, Chemical Entities of Biological Interest, Phenotype and Attribute Ontology, and others. The project also provides access to species-specific Crop Ontologies developed by various plant breeding and research communities from around the world. We provide integrated data on plant traits, phenotypes, and gene function and expression from 95 plant taxa, annotated with reference ontology terms. The Planteome project is developing a plant gene annotation platform; Planteome Noctua, to facilitate community engagement. All the Planteome ontologies are publicly available and are maintained at the Planteome GitHub site (https://github.com/Planteome) for sharing, tracking revisions and new requests. The annotated data are freely accessible from the ontology browser (http://browser.planteome.org/amigo) and our data repository.

Published
2018

31. Modifier Ontologies for frequency, certainty, degree, and coverage phenotype modifier

Author

Endara, Lorena, Thessen, Anne E, Cole, Heather A, Walls, Ramona, Gkoutos, Georgios, Cao, Yujie, Chong, Steven S, and Cui, Hong

Subjects
Biological Sciences, Ecology, Environmental Management, Zoology, Environmental Sciences, frequency modifiers, certainty modifiers, degree modifiers, coverage modifiers, Modifier Ontology, phenotype modifiers, user warrant, literary warrant, user consensus, Environmental Science and Management, Genetics, Environmental management
Abstract

Background: When phenotypic characters are described in the literature, they may be constrained or clarified with additional information such as the location or degree of expression, these terms are called "modifiers". With effort underway to convert narrative character descriptions to computable data, ontologies for such modifiers are needed. Such ontologies can also be used to guide term usage in future publications. Spatial and method modifiers are the subjects of ontologies that already have been developed or are under development. In this work, frequency (e.g., rarely, usually), certainty (e.g., probably, definitely), degree (e.g., slightly, extremely), and coverage modifiers (e.g., sparsely, entirely) are collected, reviewed, and used to create two modifier ontologies with different design considerations. The basic goal is to express the sequential relationships within a type of modifiers, for example, usually is more frequent than rarely, in order to allow data annotated with ontology terms to be classified accordingly. Method: Two designs are proposed for the ontology, both using the list pattern: a closed ordered list (i.e., five-bin design) and an open ordered list design. The five-bin design puts the modifier terms into a set of 5 fixed bins with interval object properties, for example, one_level_more/less_frequently_than, where new terms can only be added as synonyms to existing classes. The open list approach starts with 5 bins, but supports the extensibility of the list via ordinal properties, for example, more/less_frequently_than, allowing new terms to be inserted as a new class anywhere in the list. The consequences of the different design decisions are discussed in the paper. CharaParser was used to extract modifiers from plant, ant, and other taxonomic descriptions. After a manual screening, 130 modifier words were selected as the candidate terms for the modifier ontologies. Four curators/experts (three biologists and one information scientist specialized in biosemantics) reviewed and categorized the terms into 20 bins using the Ontology Term Organizer (OTO) (http://biosemantics.arizona.edu/OTO). Inter-curator variations were reviewed and expressed in the final ontologies. Results: Frequency, certainty, degree, and coverage terms with complete agreement among all curators were used as class labels or exact synonyms. Terms with different interpretations were either excluded or included using "broader synonym" or "not recommended" annotation properties. These annotations explicitly allow for the user to be aware of the semantic ambiguity associated with the terms and whether they should be used with caution or avoided. Expert categorization results showed that 16 out of 20 bins contained terms with full agreements, suggesting differentiating the modifiers into 5 levels/bins balances the need to differentiate modifiers and the need for the ontology to reflect user consensus. Two ontologies, developed using the Protege ontology editor, are made available as OWL files and can be downloaded from https://github.com/biosemantics/ontologies. Contribution: We built the first two modifier ontologies following a consensus-based approach with terms commonly used in taxonomic literature. The five-bin ontology has been used in the Explorer of Taxon Concepts web toolkit to compute the similarity between characters extracted from literature to facilitate taxon concepts alignments. The two ontologies will also be used in an ontology-informed authoring tool for taxonomists to facilitate consistency in modifier term usage.

Published
2018

32. Development of automated neural network prediction for echocardiographic left ventricular ejection fraction

Author

Zhang, Yuting, primary, Liu, Boyang, additional, Bunting, Karina V., additional, Brind, David, additional, Thorley, Alexander, additional, Karwath, Andreas, additional, Lu, Wenqi, additional, Zhou, Diwei, additional, Wang, Xiaoxia, additional, Mobley, Alastair R., additional, Tica, Otilia, additional, Gkoutos, Georgios V., additional, Kotecha, Dipak, additional, and Duan, Jinming, additional

Published
2024
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34. Redefining β-blocker response in heart failure patients with sinus rhythm and atrial fibrillation: a machine learning cluster analysis

Author

Karwath, Andreas, Bunting, Karina V, Gill, Simrat K, Tica, Otilia, Pendleton, Samantha, Aziz, Furqan, Barsky, Andrey D, Chernbumroong, Saisakul, Duan, Jinming, Mobley, Alastair R, Cardoso, Victor Roth, Slater, Karin, Williams, John A, Bruce, Emma-Jane, Wang, Xiaoxia, Flather, Marcus D, Coats, Andrew J S, Gkoutos, Georgios V, and Kotecha, Dipak

Published
2021
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39. Consumer wearable devices for evaluation of heart rate control using digoxin versus beta-blockers: the RATE-AF randomized trial

Author

Cardiologie, Team Medisch, Global Health, Circulatory Health, JC onderzoeksprogramma Cardiovasculaire Epidemiologie, Onderzoek Precision medicine, Gill, Simrat K., Barsky, Andrey, Guan, Xin, Bunting, Karina V., Karwath, Andreas, Tica, Otilia, Stanbury, Mary, Haynes, Sandra, Folarin, Amos, Dobson, Richard, Kurps, Julia, Asselbergs, Folkert W., Grobbee, Diederick E., Camm, A. John, Eijkemans, Marinus J.C., Gkoutos, Georgios V., Kotecha, Dipak, BigData@Heart Consortium, the cardAIc group, the RATE-AF trial team, Cardiologie, Team Medisch, Global Health, Circulatory Health, JC onderzoeksprogramma Cardiovasculaire Epidemiologie, Onderzoek Precision medicine, Gill, Simrat K., Barsky, Andrey, Guan, Xin, Bunting, Karina V., Karwath, Andreas, Tica, Otilia, Stanbury, Mary, Haynes, Sandra, Folarin, Amos, Dobson, Richard, Kurps, Julia, Asselbergs, Folkert W., Grobbee, Diederick E., Camm, A. John, Eijkemans, Marinus J.C., Gkoutos, Georgios V., Kotecha, Dipak, BigData@Heart Consortium, the cardAIc group, and the RATE-AF trial team

Published
2024

41. Analysis of the human diseasome reveals phenotype modules across common, genetic, and infectious diseases

Author

Hoehndorf, Robert, Schofield, Paul N, and Gkoutos, Georgios V

Subjects
Quantitative Biology - Quantitative Methods, 92C42, 92C50, 92D10, J.3
Abstract

Phenotypes are the observable characteristics of an organism arising from its response to the environment. Phenotypes associated with engineered and natural genetic variation are widely recorded using phenotype ontologies in model organisms, as are signs and symptoms of human Mendelian diseases in databases such as OMIM and Orphanet. Exploiting these resources, several computational methods have been developed for integration and analysis of phenotype data to identify the genetic etiology of diseases or suggest plausible interventions. A similar resource would be highly useful not only for rare and Mendelian diseases, but also for common, complex and infectious diseases. We apply a semantic text- mining approach to identify the phenotypes (signs and symptoms) associated with over 8,000 diseases. We demonstrate that our method generates phenotypes that correctly identify known disease-associated genes in mice and humans with high accuracy. Using a phenotypic similarity measure, we generate a human disease network in which diseases that share signs and symptoms cluster together, and we use this network to identify phenotypic disease modules.

Published
2014
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43. When is HbA1c useful and what do the numbers mean – do they help or hinder?

Author

Manley, Susan E, primary, Mostafa, Samiul, additional, Webber, Jonathan, additional, Ganapathy, Kavitha D, additional, Taylor, Roy, additional, Little, Randie R, additional, Raghavan, Rajeev P, additional, Webster, Craig, additional, Barratt, Alison, additional, Round, Rachel A, additional, Stratton, Irene M, additional, Karwath, Andreas, additional, Williams, John A, additional, Gkoutos, Georgios V, additional, Roberts, Graham A, additional, and Ghosh, Sandip, additional

Published
2023
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44. Aber-OWL: a framework for ontology-based data access in biology

Author

Hoehndorf, Robert, Slater, Luke, Schofield, Paul N., and Gkoutos, Georgios V.

Subjects
Computer Science - Databases, Computer Science - Information Retrieval, Quantitative Biology - Genomics
Abstract

Many ontologies have been developed in biology and these ontologies increasingly contain large volumes of formalized knowledge commonly expressed in the Web Ontology Language (OWL). Computational access to the knowledge contained within these ontologies relies on the use of automated reasoning. We have developed the Aber-OWL infrastructure that provides reasoning services for bio-ontologies. Aber-OWL consists of an ontology repository, a set of web services and web interfaces that enable ontology-based semantic access to biological data and literature. Aber-OWL is freely available at http://aber-owl.net.

Published
2014
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47. Evaluation and improvement of the National Early Warning Score (NEWS2) for COVID-19: a multi-hospital study

Author

Carr, Ewan, Bendayan, Rebecca, Bean, Daniel, Stammers, Matt, Wang, Wenjuan, Zhang, Huayu, Searle, Thomas, Kraljevic, Zeljko, Shek, Anthony, Phan, Hang T. T., Muruet, Walter, Gupta, Rishi K., Shinton, Anthony J., Wyatt, Mike, Shi, Ting, Zhang, Xin, Pickles, Andrew, Stahl, Daniel, Zakeri, Rosita, Noursadeghi, Mahdad, O’Gallagher, Kevin, Rogers, Matt, Folarin, Amos, Karwath, Andreas, Wickstrøm, Kristin E., Köhn-Luque, Alvaro, Slater, Luke, Cardoso, Victor Roth, Bourdeaux, Christopher, Holten, Aleksander Rygh, Ball, Simon, McWilliams, Chris, Roguski, Lukasz, Borca, Florina, Batchelor, James, Amundsen, Erik Koldberg, Wu, Xiaodong, Gkoutos, Georgios V., Sun, Jiaxing, Pinto, Ashwin, Guthrie, Bruce, Breen, Cormac, Douiri, Abdel, Wu, Honghan, Curcin, Vasa, Teo, James T., Shah, Ajay M., and Dobson, Richard J. B.

Published
2021
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