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Integrating deep learning CT-scan model, biological and clinical variables to predict severity of COVID-19 patients.

Nathalie LassauSamy AmmariEmilie ChouzenouxHugo GortaisPaul HerentMatthieu DevilderSamer SolimanOlivier MeyrignacMarie-Pauline TalabardJean-Philippe LamarqueRemy DuboisNicolas LoiseauPaul TrichelairEtienne BendjebbarGabriel GarciaCorinne BalleyguierMansouria MeradAnnabelle StoclinSimon JegouFranck GriscelliNicolas TetelboumYingping LiSagar VermaMatthieu TerrisTasnim DardouriKavya GuptaAna NeacsuFrank ChemouniMeriem SeftaPaul JehannoImad BousaidYannick BoursinEmmanuel PlanchetMikael AzoulayJocelyn DacharyFabien BrulportAdrian GonzalezOlivier DehaeneJean-Baptiste SchirattiKathryn SchutteJean-Christophe PesquetHugues TalbotElodie PronierGilles WainribThomas ClozelFabrice BarlesiMarie-France BellinMichael G B Blum
Published in: Nature communications (2021)
The SARS-COV-2 pandemic has put pressure on intensive care units, so that identifying predictors of disease severity is a priority. We collect 58 clinical and biological variables, and chest CT scan data, from 1003 coronavirus-infected patients from two French hospitals. We train a deep learning model based on CT scans to predict severity. We then construct the multimodal AI-severity score that includes 5 clinical and biological variables (age, sex, oxygenation, urea, platelet) in addition to the deep learning model. We show that neural network analysis of CT-scans brings unique prognosis information, although it is correlated with other markers of severity (oxygenation, LDH, and CRP) explaining the measurable but limited 0.03 increase of AUC obtained when adding CT-scan information to clinical variables. Here, we show that when comparing AI-severity with 11 existing severity scores, we find significantly improved prognosis performance; AI-severity can therefore rapidly become a reference scoring approach.
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