Your search keyword '"Parra-Calderón, Carlos Luis [0000-0003-2609-575X]"' showing total 4 results

1. Privacy-preserving federated machine learning on FAIR health data: A real-world application

Author

European Commission, Instituto de Salud Carlos III, Parra-Calderón, Carlos Luis [0000-0003-2609-575X], Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Sinaci, A. Anil, Gencturk, Mert, Álvarez-Romero, Celia, Laleci Erturkmen, Gokce Banu, Martínez-García, Alicia, Escalona-Cuaresma, María José, Parra-Calderón, Carlos Luis, European Commission, Instituto de Salud Carlos III, Parra-Calderón, Carlos Luis [0000-0003-2609-575X], Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Sinaci, A. Anil, Gencturk, Mert, Álvarez-Romero, Celia, Laleci Erturkmen, Gokce Banu, Martínez-García, Alicia, Escalona-Cuaresma, María José, and Parra-Calderón, Carlos Luis

Abstract

[Objective] This paper introduces a privacy-preserving federated machine learning (ML) architecture built upon Findable, Accessible, Interoperable, and Reusable (FAIR) health data. It aims to devise an architecture for executing classification algorithms in a federated manner, enabling collaborative model-building among health data owners without sharing their datasets., [Materials and methods] Utilizing an agent-based architecture, a privacy-preserving federated ML algorithm was developed to create a global predictive model from various local models. This involved formally defining the algorithm in two steps: data preparation and federated model training on FAIR health data and constructing the architecture with multiple components facilitating algorithm execution. The solution was validated by five healthcare organizations using their specific health datasets., [Results] Five organizations transformed their datasets into Health Level 7 Fast Healthcare Interoperability Resources via a common FAIRification workflow and software set, thereby generating FAIR datasets. Each organization deployed a Federated ML Agent within its secure network, connected to a cloud-based Federated ML Manager. System testing was conducted on a use case aiming to predict 30-day readmission risk for chronic obstructive pulmonary disease patients and the federated model achieved an accuracy rate of 87%., [Discussion] The paper demonstrated a practical application of privacy-preserving federated ML among five distinct healthcare entities, highlighting the value of FAIR health data in machine learning when utilized in a federated manner that ensures privacy protection without sharing data., [Conclusion] This solution effectively leverages FAIR datasets from multiple healthcare organizations for federated ML while safeguarding sensitive health datasets, meeting legislative privacy and security requirements.

Published

2024

2. FAIR4Health: Findable, Accessible, Interoperable and Reusable data to foster Health Research

Author

European Commission, Instituto de Salud Carlos III, Álvarez-Romero, Celia [0000-0001-8647-9515], Sinaci, A. Anil [0000-0003-4397-3382], Gencturk, Mert [0000-0003-2697-5722], Méndez-Rodríguez, Eva [0000-0002-5337-4722], Hernández-Pérez, Tony [0000-0001-8404-9247], Angioletti, Carmen [0000-0002-0341-1679], Löbe, Matthias [0000-0002-2344-0426], Ganapathy, Nagarajan [0000-0002-3743-5388], Almada, Marta [0000-0001-6575-1698], Costa, Elisio [0000-0003-1158-1480], Chronaki, Catherine [0000-0001-6638-8448], Cornet, Ronald0000-0002-1704-5980, Poblador-Plou, Beatriz0000-0002-5119-5093, Carmona-Pírez, Jonás0000-0002-6268-8803, Gaudet-Blavignac, Christophe [0000-0001-6527-5898], Lovis, Christian [0000-0002-2681-8076], Ashley, Kevin [0000-0001-7546-5978], Horton, Laurence [0000-0003-2742-6434], Parra-Calderón, Carlos Luis [0000-0003-2609-575X], Álvarez-Romero, Celia, Martínez-García, Alicia, Sinaci, A. Anil, Gencturk, Mert, Méndez-Rodríguez, Eva, Hernández-Pérez, Tony, Liperoti, Rosa, Angioletti, Carmen, Löbe, Matthias, Ganapathy, Nagarajan, Deserno, Thomas, Almada, Marta, Costa, Elisio, Chronaki, Catherine, Cangioli, Giorgio, Cornet, Ronald, Poblador-Plou, Beatriz, Carmona-Pírez, Jonás, Gimeno-Miguel, Antonio, Poncel-Falcó, Antonio, Prados-Torres, Alexandra, Kovacevic, Tomi, Zaric, Bojan, Bokan, Darijo, Hromis, Sanja, Djekic Malbasa, Jelena, Rapallo Fernández, Carlos, Velázquez Fernández, Teresa, Rochat, Jessica, Gaudet-Blavignac, Christophe, Lovis, Christian, Weber, Patrick, Quintero, Miriam, Pérez-Pérez, Manuel M., Ashley, Kevin, Horton, Laurence, Parra-Calderón, Carlos Luis, European Commission, Instituto de Salud Carlos III, Álvarez-Romero, Celia [0000-0001-8647-9515], Sinaci, A. Anil [0000-0003-4397-3382], Gencturk, Mert [0000-0003-2697-5722], Méndez-Rodríguez, Eva [0000-0002-5337-4722], Hernández-Pérez, Tony [0000-0001-8404-9247], Angioletti, Carmen [0000-0002-0341-1679], Löbe, Matthias [0000-0002-2344-0426], Ganapathy, Nagarajan [0000-0002-3743-5388], Almada, Marta [0000-0001-6575-1698], Costa, Elisio [0000-0003-1158-1480], Chronaki, Catherine [0000-0001-6638-8448], Cornet, Ronald0000-0002-1704-5980, Poblador-Plou, Beatriz0000-0002-5119-5093, Carmona-Pírez, Jonás0000-0002-6268-8803, Gaudet-Blavignac, Christophe [0000-0001-6527-5898], Lovis, Christian [0000-0002-2681-8076], Ashley, Kevin [0000-0001-7546-5978], Horton, Laurence [0000-0003-2742-6434], Parra-Calderón, Carlos Luis [0000-0003-2609-575X], Álvarez-Romero, Celia, Martínez-García, Alicia, Sinaci, A. Anil, Gencturk, Mert, Méndez-Rodríguez, Eva, Hernández-Pérez, Tony, Liperoti, Rosa, Angioletti, Carmen, Löbe, Matthias, Ganapathy, Nagarajan, Deserno, Thomas, Almada, Marta, Costa, Elisio, Chronaki, Catherine, Cangioli, Giorgio, Cornet, Ronald, Poblador-Plou, Beatriz, Carmona-Pírez, Jonás, Gimeno-Miguel, Antonio, Poncel-Falcó, Antonio, Prados-Torres, Alexandra, Kovacevic, Tomi, Zaric, Bojan, Bokan, Darijo, Hromis, Sanja, Djekic Malbasa, Jelena, Rapallo Fernández, Carlos, Velázquez Fernández, Teresa, Rochat, Jessica, Gaudet-Blavignac, Christophe, Lovis, Christian, Weber, Patrick, Quintero, Miriam, Pérez-Pérez, Manuel M., Ashley, Kevin, Horton, Laurence, and Parra-Calderón, Carlos Luis

Abstract

Due to the nature of health data, its sharing and reuse for research are limited by ethical, legal and technical barriers. The FAIR4Health project facilitated and promoted the application of FAIR principles in health research data, derived from the publicly funded health research initiatives to make them Findable, Accessible, Interoperable, and Reusable (FAIR). To confirm the feasibility of the FAIR4Health solution, we performed two pathfinder case studies to carry out federated machine learning algorithms on FAIRified datasets from five health research organizations. The case studies demonstrated the potential impact of the developed FAIR4Health solution on health outcomes and social care research. Finally, we promoted the FAIRified data to share and reuse in the European Union Health Research community, defining an effective EU-wide strategy for the use of FAIR principles in health research and preparing the ground for a roadmap for health research institutions. This scientific report presents a general overview of the FAIR4Health solution: from the FAIRification workflow design to translate raw data/metadata to FAIR data/metadata in the health research domain to the FAIR4Health demonstrators' performance.

Published

2022

3. COVID-19 mortality risk assessment: An international multi-center study

Author

National Science Foundation (US), Benefits Science Technologies, C3.ai, Bertsimas, Dimitris [0000-0002-1985-1003], Mingardi, Luca [0000-0001-6448-9333], Orfanoudaki, Agni [0000-0003-3737-4826], Wiberg, Holly [0000-0002-4251-905X], Parra-Calderón, Carlos Luis [0000-0003-2609-575X], Bertsimas, Dimitris, Lukin, Galit, Mingardi, Luca, Nohadani, Omid, Orfanoudaki, Agni, Stellato, Bartolomeo, Wiberg, Holly, González-García, Sara, Parra-Calderón, Carlos Luis, Robinson, Kenneth, Schneider, Michelle, Stein, Barry, Estirado, Alberto, Beccara, Lia a, Canino, Rosario, Bello, Martina Dal, Pezzetti, Federica, Pan, Angelo, The Hellenic COVID-19 Study Group, National Science Foundation (US), Benefits Science Technologies, C3.ai, Bertsimas, Dimitris [0000-0002-1985-1003], Mingardi, Luca [0000-0001-6448-9333], Orfanoudaki, Agni [0000-0003-3737-4826], Wiberg, Holly [0000-0002-4251-905X], Parra-Calderón, Carlos Luis [0000-0003-2609-575X], Bertsimas, Dimitris, Lukin, Galit, Mingardi, Luca, Nohadani, Omid, Orfanoudaki, Agni, Stellato, Bartolomeo, Wiberg, Holly, González-García, Sara, Parra-Calderón, Carlos Luis, Robinson, Kenneth, Schneider, Michelle, Stein, Barry, Estirado, Alberto, Beccara, Lia a, Canino, Rosario, Bello, Martina Dal, Pezzetti, Federica, Pan, Angelo, and The Hellenic COVID-19 Study Group

Abstract

Timely identification of COVID-19 patients at high risk of mortality can significantly improve patient management and resource allocation within hospitals. This study seeks to develop and validate a data-driven personalized mortality risk calculator for hospitalized COVID-19 patients. De-identified data was obtained for 3,927 COVID-19 positive patients from six independent centers, comprising 33 different hospitals. Demographic, clinical, and laboratory variables were collected at hospital admission. The COVID-19 Mortality Risk (CMR) tool was developed using the XGBoost algorithm to predict mortality. Its discrimination performance was subsequently evaluated on three validation cohorts. The derivation cohort of 3,062 patients has an observed mortality rate of 26.84%. Increased age, decreased oxygen saturation (≤ 93%), elevated levels of C-reactive protein (≥ 130 mg/L), blood urea nitrogen (≥ 18 mg/dL), and blood creatinine (≥ 1.2 mg/dL) were identified as primary risk factors, validating clinical findings. The model obtains out-of-sample AUCs of 0.90 (95% CI, 0.87–0.94) on the derivation cohort. In the validation cohorts, the model obtains AUCs of 0.92 (95% CI, 0.88–0.95) on Seville patients, 0.87 (95% CI, 0.84–0.91) on Hellenic COVID-19 Study Group patients, and 0.81 (95% CI, 0.76–0.85) on Hartford Hospital patients. The CMR tool is available as an online application at covidanalytics.io/mortality_calculator and is currently in clinical use. The CMR model leverages machine learning to generate accurate mortality predictions using commonly available clinical features. This is the first risk score trained and validated on a cohort of COVID-19 patients from Europe and the United States.

Published

2020

4. COVID-19 mortality risk assessment: An international multi-center study

Author

Angelo Pan, José Miguel Cisneros-Herreros, Luca Mingardi, Barry Stein, Alberto Estirado, Ken Robinson, Federica Pezzetti, Dimitris Bertsimas, Martina Dal Bello, Lia a Beccara, Carlos Luis Parra-Calderón, Michelle Schneider, Galit Lukin, Sara González-García, Holly Wiberg, Bartolomeo Stellato, Rosario Canino, Agni Orfanoudaki, Omid Nohadani, National Science Foundation (US), Benefits Science Technologies, C3.ai, Bertsimas, Dimitris, Mingardi, Luca, Orfanoudaki, Agni, Wiberg, Holly, Parra-Calderón, Carlos Luis, The Hellenic COVID-19 Study Group, [Bertsimas,D, Mingardi,L, Stellato,B] Sloan School of Management, Massachusetts Institute of Technology, Cambridge, Massachusetts, United States of America. [Bertsimas,D, Lukin,G, Orfanoudaki,A, Stellato,B, Wiberg,H] Operations Research Center, Massachusetts Institute of Technology, Cambridge,Massachusetts, United States of America. [Nohadani,O] Benefits Science Technologies, Boston, Massachusetts, UnitedStates of America. [Gonzalez-Garcia,S, Parra-Calderón,CL] Institute of Biomedicine of Seville (IBIS), Virgen del Rocío University Hospital, CSIC, University of Seville, Seville, Spain. [Robinson,K, Schneider,M, Stein,B] Hartford HealthCare, Hartford, Connecticut, United States of America. [Estirado,A] HM Hospitals, Madrid, Spain. [A Beccara,L, Canino,R, Pezzetti,F, Pan,A] Azienda Socio-Sanitaria Territoriale di Cremona, Cremona, Italy. [Dall Bello,M] Physics of Living Systems, Massachusetts Institute of Technology, Cambridge, Massachusetts, United States of America., HW is supported by the National Science Foundation Graduate Research Fellowship under Grant No. 174530, Lukin, Galit, Nohadani, Omid, Stellato, Bartolomeo, Robinson, Kenneth, Bello, Martina Dal, Bertsimas, Dimitris [0000-0002-1985-1003], Lukin, Galit [0000-0002-3855-766X], Mingardi, Luca [0000-0001-6448-9333], Nohadani, Omid [0000-0001-6332-3403], Orfanoudaki, Agni [0000-0003-3737-4826], Stellato, Bartolomeo [0000-0003-4684-7111], Wiberg, Holly [0000-0002-4251-905X], Robinson, Kenneth [0000-0003-4312-4524], Bello, Martina Dal [0000-0003-3706-2929], and Parra-Calderón, Carlos Luis [0000-0003-2609-575X]

Subjects

Male, Viral Diseases, Epidemiology, Biochemistry, Geographical Locations, Mortalidad hospitalaria, chemistry.chemical_compound, Medical Conditions, Informed consent, Risk Factors, Risk of mortality, Medicine and Health Sciences, Medicine, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Models, Theoretical::Models, Biological [Medical Subject Headings], Hospital Mortality, Anciano de 80 o más años, Blood urea nitrogen, Persons::Persons::Age Groups::Adult::Aged [Medical Subject Headings], Aged, 80 and over, Multidisciplinary, Framingham Risk Score, Geographical Locations::Geographic Locations::Americas::North America::United States [Medical Subject Headings], Mortality rate, Estados Unidos, Middle Aged, C-Reactive Proteins, Europe, Chemistry, Infectious Diseases, Creatinine, Cohort, Physical Sciences, Female, Risk assessment, Europa, Algorithms, Research Article, Chemical Elements, Factores de riesgo, medicine.medical_specialty, Health Care::Environment and Public Health::Public Health::Epidemiologic Measurements::Risk Assessment [Medical Subject Headings], Phenomena and Processes::Mathematical Concepts::Algorithms [Medical Subject Headings], Death Rates, Science, Check Tags::Male [Medical Subject Headings], Health Care::Environment and Public Health::Public Health::Epidemiologic Factors::Causality::Risk Factors [Medical Subject Headings], Context (language use), Clinical decision support system, Models, Biological, Risk Assessment, Population Metrics, Internal medicine, Humans, European Union, Aged, Protocol (science), Population Biology, business.industry, SARS-CoV-2, Health Care::Population Characteristics::Demography::Vital Statistics::Mortality::Hospital Mortality [Medical Subject Headings], Biology and Life Sciences, Proteins, COVID-19, Covid 19, Persons::Persons::Age Groups::Adult::Middle Aged [Medical Subject Headings], Triage, Diseases::Virus Diseases::RNA Virus Infections::Nidovirales Infections::Coronaviridae Infections::Coronavirus Infections [Medical Subject Headings], United States, Clinical trial, Oxygen, chemistry, Spain, Persons::Persons::Age Groups::Adult::Aged::Aged, 80 and over [Medical Subject Headings], Medical Risk Factors, Emergency medicine, People and Places, Geographical Locations::Geographic Locations::Europe [Medical Subject Headings], business, Ancianos, Biomarkers

Abstract

Background: Timely identification of COVID-19 patients at high risk of mortality can significantly improve patient management and resource allocation within hospitals. This study seeks to develop and validate a data-driven personalized mortality risk calculator for hospitalized COVID-19 patients., Methods: De-identified data was obtained for 3,927 COVID-19 positive patients from six independent centers, comprising 33 different hospitals. Demographic, clinical, and laboratory variables were collected at hospital admission. The COVID-19 Mortality Risk (CMR) tool was developed using the XGBoost algorithm to predict mortality. Its discrimination performance was subsequently evaluated on three validation cohorts., Findings: The derivation cohort of 3,062 patients has an observed mortality rate of 26.84%. Increased age, decreased oxygen saturation (≤ 93%), elevated levels of C-reactive protein (≥ 130 mg/L), blood urea nitrogen (≥ 18 mg/dL), and blood creatinine (≥ 1.2 mg/dL) were identified as primary risk factors, validating clinical findings. The model obtains out-ofsample AUCs of 0.90 (95% CI, 0.87-0.94) on the derivation cohort. In the validation cohorts, the model obtains AUCs of 0.92 (95% CI, 0.88-0.95) on Seville patients, 0.87 (95% CI, 0.84- 0.91) on Hellenic COVID-19 Study Group patients, and 0.81 (95% CI, 0.76-0.85) on Hartford Hospital patients. The CMR tool is available as an online application at covidanalytics.io/mortality_calculator and is currently in clinical use., Interpretation: The CMR model leverages machine learning to generate accurate mortality predictions using commonly available clinical features. This is the first risk score trained and validated on a cohort of COVID-19 patients from Europe and the United States., HW is supported by the National Science Foundation Graduate Research Fellowship under Grant No. 174530.

Published

2020