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Seek COVER: using a disease proxy to rapidly develop and validate a personalized risk calculator for COVID-19 outcomes in an international network.
Williams, Ross D; Markus, Aniek F; Yang, Cynthia; Duarte-Salles, Talita; DuVall, Scott L; Falconer, Thomas; Jonnagaddala, Jitendra; Kim, Chungsoo; Rho, Yeunsook; Williams, Andrew E; Machado, Amanda Alberga; An, Min Ho; Aragón, María; Areia, Carlos; Burn, Edward; Choi, Young Hwa; Drakos, Iannis; Abrahão, Maria Tereza Fernandes; Fernández-Bertolín, Sergio; Hripcsak, George; Kaas-Hansen, Benjamin Skov; Kandukuri, Prasanna L; Kors, Jan A; Kostka, Kristin; Liaw, Siaw-Teng; Lynch, Kristine E; Machnicki, Gerardo; Matheny, Michael E; Morales, Daniel; Nyberg, Fredrik; Park, Rae Woong; Prats-Uribe, Albert; Pratt, Nicole; Rao, Gowtham; Reich, Christian G; Rivera, Marcela; Seinen, Tom; Shoaibi, Azza; Spotnitz, Matthew E; Steyerberg, Ewout W; Suchard, Marc A; You, Seng Chan; Zhang, Lin; Zhou, Lili; Ryan, Patrick B; Prieto-Alhambra, Daniel; Reps, Jenna M; Rijnbeek, Peter R.
Afiliação
  • Williams RD; Department of Medical Informatics, Erasmus University Medical Center, Doctor Molewaterplein, 403015, GD, Rotterdam, The Netherlands.
  • Markus AF; Department of Medical Informatics, Erasmus University Medical Center, Doctor Molewaterplein, 403015, GD, Rotterdam, The Netherlands.
  • Yang C; Department of Medical Informatics, Erasmus University Medical Center, Doctor Molewaterplein, 403015, GD, Rotterdam, The Netherlands.
  • Duarte-Salles T; Fundacio Institut Universitari per a la recerca a l'Atencio Primaria de Salut Jordi Gol i Gurina (IDIAPJGol), Barcelona, Spain.
  • DuVall SL; Department of Veterans Affairs, University of Utah, Salt Lake City, UT, USA.
  • Falconer T; Department of Biomedical Informatics, Columbia University, New York, NY, USA.
  • Jonnagaddala J; School of Public Health and Community Medicine, UNSW, Sydney, Australia.
  • Kim C; Department of Biomedical Sciences, Ajou University Graduate School of Medicine, Suwon, Republic of Korea.
  • Rho Y; Department of Big Data Strategy, National Health Insurance Service, Wonju, Republic of Korea.
  • Williams AE; Tufts University School of Medicine, Institute for Clinical Research and Health Policy Studies, Boston, MA, 02111, USA.
  • Machado AA; Independent Epidemiologist, OHDSI, Rotterdam, The Netherlands.
  • An MH; So Ahn Public Health Center, Wando County Health Center and Hospital, Wando, Republic of Korea.
  • Aragón M; Fundacio Institut Universitari per a la recerca a l'Atencio Primaria de Salut Jordi Gol i Gurina (IDIAPJGol), Barcelona, Spain.
  • Areia C; Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, UK.
  • Burn E; Fundacio Institut Universitari per a la recerca a l'Atencio Primaria de Salut Jordi Gol i Gurina (IDIAPJGol), Barcelona, Spain.
  • Choi YH; Centre for Statistics in Medicine, NDORMS, University of Oxford, Oxford, UK.
  • Drakos I; Department of Infectious Diseases, Ajou University School of Medicine, Suwon, Republic of Korea.
  • Abrahão MTF; Center for Surgical Science, Koege, Denmark.
  • Fernández-Bertolín S; Faculty of Medicine, University of Sao Paulo, Sao Paulo, Brazil.
  • Hripcsak G; Fundacio Institut Universitari per a la recerca a l'Atencio Primaria de Salut Jordi Gol i Gurina (IDIAPJGol), Barcelona, Spain.
  • Kaas-Hansen BS; Department of Biomedical Informatics, Columbia University, New York, NY, USA.
  • Kandukuri PL; Clinical Pharmacology Unit, Zealand University Hospital, Roskilde, Denmark.
  • Kors JA; NNF Centre for Protein Research, University of Copenhagen, Copenhagen, Denmark.
  • Kostka K; Abbvie, Chicago, USA.
  • Liaw ST; Department of Medical Informatics, Erasmus University Medical Center, Doctor Molewaterplein, 403015, GD, Rotterdam, The Netherlands.
  • Lynch KE; Real World Solutions, IQVIA, Cambridge, MA, USA.
  • Machnicki G; School of Public Health and Community Medicine, UNSW, Sydney, Australia.
  • Matheny ME; Department of Veterans Affairs, University of Utah, Salt Lake City, UT, USA.
  • Morales D; Janssen Latin America, Buenos Aires, Argentina.
  • Nyberg F; Department of Veterans Affairs, Washington D. C, USA.
  • Park RW; Vanderbilt University, Nashville, USA.
  • Prats-Uribe A; Division of Population Health and Genomics, University of Dundee, Dundee, UK.
  • Pratt N; School of Public Health and Community Medicine, Institute of Medicine, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden.
  • Rao G; Department of Biomedical Informatics, Ajou University School of Medicine, Suwon, Republic of Korea.
  • Reich CG; Centre for Statistics in Medicine, NDORMS, University of Oxford, Oxford, UK.
  • Rivera M; Quality Use of Medicines and Pharmacy Research Centre, University of South Australia, Adelaide, Australia.
  • Seinen T; Janssen Research & Development, Titusville, NJ, USA.
  • Shoaibi A; Real World Solutions, IQVIA, Cambridge, MA, USA.
  • Spotnitz ME; Bayer Pharmaceuticals, Bayer Hispania, S.L., Barcelona, Spain.
  • Steyerberg EW; Department of Medical Informatics, Erasmus University Medical Center, Doctor Molewaterplein, 403015, GD, Rotterdam, The Netherlands.
  • Suchard MA; Janssen Research & Development, Titusville, NJ, USA.
  • You SC; Department of Biomedical Informatics, Columbia University, New York, NY, USA.
  • Zhang L; Department of Public Health, Erasmus University Medical Center, Rotterdam, The Netherlands.
  • Zhou L; Department of Biomedical Data Sciences, Leiden University Medical Center, Leiden, The Netherlands.
  • Ryan PB; Department of Biostatistics, UCLA Fielding School of Public Health, University of California, Los Angeles, CA, USA.
  • Prieto-Alhambra D; Department of Biomedical Informatics, Ajou University School of Medicine, Suwon, Republic of Korea.
  • Reps JM; School of Public Health, Peking Union Medical College, Beijing, China.
  • Rijnbeek PR; Melbourne School of Public Health, The University of Melbourne, Melbourne, Victoria, Australia.
BMC Med Res Methodol ; 22(1): 35, 2022 01 30.
Article em En | MEDLINE | ID: mdl-35094685
ABSTRACT

BACKGROUND:

We investigated whether we could use influenza data to develop prediction models for COVID-19 to increase the speed at which prediction models can reliably be developed and validated early in a pandemic. We developed COVID-19 Estimated Risk (COVER) scores that quantify a patient's risk of hospital admission with pneumonia (COVER-H), hospitalization with pneumonia requiring intensive services or death (COVER-I), or fatality (COVER-F) in the 30-days following COVID-19 diagnosis using historical data from patients with influenza or flu-like symptoms and tested this in COVID-19 patients.

METHODS:

We analyzed a federated network of electronic medical records and administrative claims data from 14 data sources and 6 countries containing data collected on or before 4/27/2020. We used a 2-step process to develop 3 scores using historical data from patients with influenza or flu-like symptoms any time prior to 2020. The first step was to create a data-driven model using LASSO regularized logistic regression, the covariates of which were used to develop aggregate covariates for the second step where the COVER scores were developed using a smaller set of features. These 3 COVER scores were then externally validated on patients with 1) influenza or flu-like symptoms and 2) confirmed or suspected COVID-19 diagnosis across 5 databases from South Korea, Spain, and the United States. Outcomes included i) hospitalization with pneumonia, ii) hospitalization with pneumonia requiring intensive services or death, and iii) death in the 30 days after index date.

RESULTS:

Overall, 44,507 COVID-19 patients were included for model validation. We identified 7 predictors (history of cancer, chronic obstructive pulmonary disease, diabetes, heart disease, hypertension, hyperlipidemia, kidney disease) which combined with age and sex discriminated which patients would experience any of our three outcomes. The models achieved good performance in influenza and COVID-19 cohorts. For COVID-19 the AUC ranges were, COVER-H 0.69-0.81, COVER-I 0.73-0.91, and COVER-F 0.72-0.90. Calibration varied across the validations with some of the COVID-19 validations being less well calibrated than the influenza validations.

CONCLUSIONS:

This research demonstrated the utility of using a proxy disease to develop a prediction model. The 3 COVER models with 9-predictors that were developed using influenza data perform well for COVID-19 patients for predicting hospitalization, intensive services, and fatality. The scores showed good discriminatory performance which transferred well to the COVID-19 population. There was some miscalibration in the COVID-19 validations, which is potentially due to the difference in symptom severity between the two diseases. A possible solution for this is to recalibrate the models in each location before use.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Pneumonia / Influenza Humana / COVID-19 Tipo de estudo: Etiology_studies / Prognostic_studies / Risk_factors_studies Limite: Humans País/Região como assunto: America do norte Idioma: En Revista: BMC Med Res Methodol Assunto da revista: MEDICINA Ano de publicação: 2022 Tipo de documento: Article País de afiliação: Holanda
Texto completo
Imprimir
XML
PubMed Links
Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Pneumonia / Influenza Humana / COVID-19 Tipo de estudo: Etiology_studies / Prognostic_studies / Risk_factors_studies Limite: Humans País/Região como assunto: America do norte Idioma: En Revista: BMC Med Res Methodol Assunto da revista: MEDICINA Ano de publicação: 2022 Tipo de documento: Article País de afiliação: Holanda