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Purpose: To train and validate a predictive model of mortality for hospitalized COVID-19 patients based on lung densitometry. Methods: Two-hundred-fifty-one patients with respiratory symptoms underwent CT few days after hospitalization. “Aerated” (AV), “consolidated” (CV) and “intermediate” (IV) lung sub-volumes were quantified by an operator-independent method based on individual HU maximum gradient recognition. AV, CV, IV, CV/AV, IV/AV, and HU of the first peak position were extracted. Relevant clinical parameters were prospectively collected. The population was composed by training (n = 166) and validation (n = 85) consecutive cohorts, and backward multi-variate logistic regression was applied on the training group to build a CT_model. Similarly, models including only clinical parameters (CLIN_model) and both CT/clinical parameters (COMB_model) were developed. Model's performances were assessed by goodness-of-fit (H&L-test), calibration and discrimination. Model's performances were tested in the validation group. Results: Forty-three patients died (25/18 in training/validation). CT_model included AVmax (i.e. maximum AV between lungs), CV and CV/AE, while CLIN_model included random glycemia, C-reactive protein and biological drugs (protective). Goodness-of-fit and discrimination were similar (H&L:0.70 vs 0.80; AUC:0.80 vs 0.80). COMB_model including AVmax, CV, CV/AE, random glycemia, biological drugs and active cancer, outperformed both models (H&L:0.91; AUC:0.89, 95%CI:0.82–0.93). All models showed good calibration (R2:0.77–0.97). Despite several patient's characteristics were different between training and validation cohorts, performances in the validation cohort confirmed good calibration (R2:0–70-0.81) and discrimination for CT_model/COMB_model (AUC:0.72/0.76), while CLIN_model performed worse (AUC:0.64). Conclusions: Few automatically extracted densitometry parameters with clear functional meaning predicted mortality of COVID-19 patients. Combined with clinical features, the resulting predictive model showed higher discrimination/calibration.

Robust prediction of mortality of COVID-19 patients based on quantitative, operator-independent, lung CT densitometry / M. Mori, D. Palumbo, R. De Lorenzo, S. Broggi, N. Compagnone, G. Guazzarotti, P. Giorgio Esposito, A. Mazzilli, S. Steidler, G. Pietro Vitali, A. Del Vecchio, P. Rovere Querini, F. De Cobelli, C. Fiorino. - In: PHYSICA MEDICA. - ISSN 1120-1797. - 85:(2021), pp. 63-71. [10.1016/j.ejmp.2021.04.022]

Robust prediction of mortality of COVID-19 patients based on quantitative, operator-independent, lung CT densitometry

M. Mori
Primo
Formal Analysis
;
2021

Abstract

Purpose: To train and validate a predictive model of mortality for hospitalized COVID-19 patients based on lung densitometry. Methods: Two-hundred-fifty-one patients with respiratory symptoms underwent CT few days after hospitalization. “Aerated” (AV), “consolidated” (CV) and “intermediate” (IV) lung sub-volumes were quantified by an operator-independent method based on individual HU maximum gradient recognition. AV, CV, IV, CV/AV, IV/AV, and HU of the first peak position were extracted. Relevant clinical parameters were prospectively collected. The population was composed by training (n = 166) and validation (n = 85) consecutive cohorts, and backward multi-variate logistic regression was applied on the training group to build a CT_model. Similarly, models including only clinical parameters (CLIN_model) and both CT/clinical parameters (COMB_model) were developed. Model's performances were assessed by goodness-of-fit (H&L-test), calibration and discrimination. Model's performances were tested in the validation group. Results: Forty-three patients died (25/18 in training/validation). CT_model included AVmax (i.e. maximum AV between lungs), CV and CV/AE, while CLIN_model included random glycemia, C-reactive protein and biological drugs (protective). Goodness-of-fit and discrimination were similar (H&L:0.70 vs 0.80; AUC:0.80 vs 0.80). COMB_model including AVmax, CV, CV/AE, random glycemia, biological drugs and active cancer, outperformed both models (H&L:0.91; AUC:0.89, 95%CI:0.82–0.93). All models showed good calibration (R2:0.77–0.97). Despite several patient's characteristics were different between training and validation cohorts, performances in the validation cohort confirmed good calibration (R2:0–70-0.81) and discrimination for CT_model/COMB_model (AUC:0.72/0.76), while CLIN_model performed worse (AUC:0.64). Conclusions: Few automatically extracted densitometry parameters with clear functional meaning predicted mortality of COVID-19 patients. Combined with clinical features, the resulting predictive model showed higher discrimination/calibration.
No
English
COVID-19; CT; Lung densitometry; Respiratory distress syndrome
Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin)
Articolo
Esperti anonimi
Pubblicazione scientifica
Goal 3: Good health and well-being
2021
PHYSICA MEDICA
Elsevier
85
63
71
9
Pubblicato
Periodico con rilevanza internazionale
scopus
WOS:000663379500009
2-s2.0-85105536604
33971530
Aderisco
info:eu-repo/semantics/article
Robust prediction of mortality of COVID-19 patients based on quantitative, operator-independent, lung CT densitometry / M. Mori, D. Palumbo, R. De Lorenzo, S. Broggi, N. Compagnone, G. Guazzarotti, P. Giorgio Esposito, A. Mazzilli, S. Steidler, G. Pietro Vitali, A. Del Vecchio, P. Rovere Querini, F. De Cobelli, C. Fiorino. - In: PHYSICA MEDICA. - ISSN 1120-1797. - 85:(2021), pp. 63-71. [10.1016/j.ejmp.2021.04.022]
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Article (author)
Periodico con Impact Factor
M. Mori, D. Palumbo, R. De Lorenzo, S. Broggi, N. Compagnone, G. Guazzarotti, P. Giorgio Esposito, A. Mazzilli, S. Steidler, G. Pietro Vitali, A. Del ...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1033289
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