Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study

Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study

Background & aims: Gaining insight into readily obtainable baseline characteristics that allow prediction of adverse outcome in COVID-19 aids both treatment and healthcare planning. Bioelectric impedance (BIA) Phase Angle (PhA) is correlated with outcome in a multitude of diseases and may be of added value in predicting adverse outcome of COVID-19. We aimed to associate baseline body composition parameters with 90-day adverse outcome of COVID-19 including ICU-admission and to explore the added predictive value of baseline PhA. Methods: We performed a prospective observational study, conducting BIA amongst COVID-19 patients within 24 hours of hospital admission, with a follow-up of 90 days. Data were compared between ward-only and ICU-patients. Regression models were used to assess the associations between baseline characteristics, body composition and 90-day adverse outcome, including a composite outcome score of morbidity, ICU-admission, and mortality. An ROC-curve was used to explore the added predictive value of PhA to other clinical parameters at baseline for the prediction of adverse outcome. Results: One-hundred-and-fifty patients were included. Mean age was 68 (66–70) years, 67% were male. Forty-one (27%) patients were admitted to ICU and 77 (51%) met the criteria of the composite outcome score. In multiple regression, PhA was independently, inversely correlated with risk of ICU-admission (OR.531, p =.021), complications (OR.579, p =.031), hospital length of stay (OR.875, p =.037) and the composite outcome score (OR.502, p =.012). An ROC-curve showed that the incorporation of PhA in a composite risk-score improved the discriminative power for the composite outcome from poor to fair, compared to individual predictors (AUC 0.79 (95% CI 0.71–0.87)). Conclusion: BIA measurements including Phase Angle are independently correlated with an adverse outcome of COVID-19. Interpretation of Phase Angle can be a valuable addition to risk assessment of adverse outcome of COVID-19 at hospital admission. Clinical Trial Registration: Netherlands Trial Register number NL8562, registered 2020-04-21.

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Main Authors: Moonen, Hanneke P.F.X., Bos, Anneloes E., Hermans, Anoek J.H., Stikkelman, Eline, van Zanten, Florianne J.L., van Zanten, Arthur R.H.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Bioelectric impedance, Body composition, COVID-19, Intensive care, Phase angle, SARS-CoV-2,
Online Access:https://research.wur.nl/en/publications/bioelectric-impedance-body-composition-and-phase-angle-in-relatio
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spelling dig-wur-nl-wurpubs-5900142024-10-02 Moonen, Hanneke P.F.X. Bos, Anneloes E. Hermans, Anoek J.H. Stikkelman, Eline van Zanten, Florianne J.L. van Zanten, Arthur R.H. Article/Letter to editor Clinical Nutrition ESPEN 46 (2021) ISSN: 2405-4577 Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study 2021 Background & aims: Gaining insight into readily obtainable baseline characteristics that allow prediction of adverse outcome in COVID-19 aids both treatment and healthcare planning. Bioelectric impedance (BIA) Phase Angle (PhA) is correlated with outcome in a multitude of diseases and may be of added value in predicting adverse outcome of COVID-19. We aimed to associate baseline body composition parameters with 90-day adverse outcome of COVID-19 including ICU-admission and to explore the added predictive value of baseline PhA. Methods: We performed a prospective observational study, conducting BIA amongst COVID-19 patients within 24 hours of hospital admission, with a follow-up of 90 days. Data were compared between ward-only and ICU-patients. Regression models were used to assess the associations between baseline characteristics, body composition and 90-day adverse outcome, including a composite outcome score of morbidity, ICU-admission, and mortality. An ROC-curve was used to explore the added predictive value of PhA to other clinical parameters at baseline for the prediction of adverse outcome. Results: One-hundred-and-fifty patients were included. Mean age was 68 (66–70) years, 67% were male. Forty-one (27%) patients were admitted to ICU and 77 (51%) met the criteria of the composite outcome score. In multiple regression, PhA was independently, inversely correlated with risk of ICU-admission (OR.531, p =.021), complications (OR.579, p =.031), hospital length of stay (OR.875, p =.037) and the composite outcome score (OR.502, p =.012). An ROC-curve showed that the incorporation of PhA in a composite risk-score improved the discriminative power for the composite outcome from poor to fair, compared to individual predictors (AUC 0.79 (95% CI 0.71–0.87)). Conclusion: BIA measurements including Phase Angle are independently correlated with an adverse outcome of COVID-19. Interpretation of Phase Angle can be a valuable addition to risk assessment of adverse outcome of COVID-19 at hospital admission. Clinical Trial Registration: Netherlands Trial Register number NL8562, registered 2020-04-21. en application/pdf https://research.wur.nl/en/publications/bioelectric-impedance-body-composition-and-phase-angle-in-relatio 10.1016/j.clnesp.2021.10.010 https://edepot.wur.nl/558218 Bioelectric impedance Body composition COVID-19 Intensive care Phase angle SARS-CoV-2 https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Bioelectric impedance
Body composition
COVID-19
Intensive care
Phase angle
SARS-CoV-2
Bioelectric impedance
Body composition
COVID-19
Intensive care
Phase angle
SARS-CoV-2
spellingShingle Bioelectric impedance
Body composition
COVID-19
Intensive care
Phase angle
SARS-CoV-2
Bioelectric impedance
Body composition
COVID-19
Intensive care
Phase angle
SARS-CoV-2
Moonen, Hanneke P.F.X.
Bos, Anneloes E.
Hermans, Anoek J.H.
Stikkelman, Eline
van Zanten, Florianne J.L.
van Zanten, Arthur R.H.
Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study
description Background & aims: Gaining insight into readily obtainable baseline characteristics that allow prediction of adverse outcome in COVID-19 aids both treatment and healthcare planning. Bioelectric impedance (BIA) Phase Angle (PhA) is correlated with outcome in a multitude of diseases and may be of added value in predicting adverse outcome of COVID-19. We aimed to associate baseline body composition parameters with 90-day adverse outcome of COVID-19 including ICU-admission and to explore the added predictive value of baseline PhA. Methods: We performed a prospective observational study, conducting BIA amongst COVID-19 patients within 24 hours of hospital admission, with a follow-up of 90 days. Data were compared between ward-only and ICU-patients. Regression models were used to assess the associations between baseline characteristics, body composition and 90-day adverse outcome, including a composite outcome score of morbidity, ICU-admission, and mortality. An ROC-curve was used to explore the added predictive value of PhA to other clinical parameters at baseline for the prediction of adverse outcome. Results: One-hundred-and-fifty patients were included. Mean age was 68 (66–70) years, 67% were male. Forty-one (27%) patients were admitted to ICU and 77 (51%) met the criteria of the composite outcome score. In multiple regression, PhA was independently, inversely correlated with risk of ICU-admission (OR.531, p =.021), complications (OR.579, p =.031), hospital length of stay (OR.875, p =.037) and the composite outcome score (OR.502, p =.012). An ROC-curve showed that the incorporation of PhA in a composite risk-score improved the discriminative power for the composite outcome from poor to fair, compared to individual predictors (AUC 0.79 (95% CI 0.71–0.87)). Conclusion: BIA measurements including Phase Angle are independently correlated with an adverse outcome of COVID-19. Interpretation of Phase Angle can be a valuable addition to risk assessment of adverse outcome of COVID-19 at hospital admission. Clinical Trial Registration: Netherlands Trial Register number NL8562, registered 2020-04-21.
format Article/Letter to editor
topic_facet Bioelectric impedance
Body composition
COVID-19
Intensive care
Phase angle
SARS-CoV-2
author Moonen, Hanneke P.F.X.
Bos, Anneloes E.
Hermans, Anoek J.H.
Stikkelman, Eline
van Zanten, Florianne J.L.
van Zanten, Arthur R.H.
author_facet Moonen, Hanneke P.F.X.
Bos, Anneloes E.
Hermans, Anoek J.H.
Stikkelman, Eline
van Zanten, Florianne J.L.
van Zanten, Arthur R.H.
author_sort Moonen, Hanneke P.F.X.
title Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study
title_short Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study
title_full Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study
title_fullStr Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study
title_full_unstemmed Bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized COVID-19 ward and ICU patients : The prospective BIAC-19 study
title_sort bioelectric impedance body composition and phase angle in relation to 90-day adverse outcome in hospitalized covid-19 ward and icu patients : the prospective biac-19 study
url https://research.wur.nl/en/publications/bioelectric-impedance-body-composition-and-phase-angle-in-relatio
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