Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort

Neel Shah; Bing Xue; Ziqi Xu; Hanqing Yang; Eva Marwali; Heidi Dalton; Philip P.R. Payne; Chenyang Lu; Ahmed S. Said; Sheryl Ann Abdukahil; Nurul Najmee Abdulkadir; Lara Absil; Andrew Acker; Diana Adrião; Ali Ait Hssain; Chika Akwani; Eman Al Qasim; Razi Alalqam; Tala Al-Dabbous; Beatrice Alex; Abdulrahman Al-Fares; Huda Alfoudri; Jeffrey Aliudin; João Alves; Rita Alves; João Melo Alves; Joana Alves Cabrita; Maria Amaral; Nur Amira; Roberto Andini; Sivanesen Anthonidass; Massimo Antonelli; Yaseen Arabi; Antonio Arcadipane; Lukas Arenz; Christel Arnold-Day; Lovkesh Arora; Rakesh Arora; Muhammad Ashraf; Amirul Asyraf; Anika Atique; Benjamin Bach; John Kenneth Baillie; Erica Bak; Nazreen Abu Bakar; Mohanaprasanth Balakrishnan; Renata Barbalho; Wendy S. Barclay; Tom Fletcher; Ymkje Stienstra

doi:10.1111/aor.14542

Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort

Neel Shah
, Bing Xue
, Ziqi Xu
, Hanqing Yang
, Eva Marwali
, Heidi Dalton
, Philip P.R. Payne
, Chenyang Lu
, Ahmed S. Said
, Sheryl Ann Abdukahil
, Nurul Najmee Abdulkadir
, Lara Absil
, Andrew Acker
, Diana Adrião
, Ali Ait Hssain
, Chika Akwani
, Eman Al Qasim
, Razi Alalqam
, Tala Al-Dabbous
, Beatrice Alex

Abdulrahman Al-Fares, Huda Alfoudri, Jeffrey Aliudin, João Alves, Rita Alves, João Melo Alves, Joana Alves Cabrita, Maria Amaral, Nur Amira, Roberto Andini, Sivanesen Anthonidass, Massimo Antonelli, Yaseen Arabi, Antonio Arcadipane, Lukas Arenz, Christel Arnold-Day, Lovkesh Arora, Rakesh Arora, Muhammad Ashraf, Amirul Asyraf, Anika Atique, Benjamin Bach, John Kenneth Baillie, Erica Bak, Nazreen Abu Bakar, Mohanaprasanth Balakrishnan, Renata Barbalho, Wendy S. Barclay, Tom Fletcher, Ymkje Stienstra

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Background: Veno-venous extracorporeal membrane oxygenation (V-V ECMO) is a lifesaving support modality for severe respiratory failure, but its resource-intensive nature led to significant controversy surrounding its use during the COVID-19 pandemic. We report the performance of several ECMO mortality prediction and severity of illness scores at discriminating survival in a large COVID-19 V-V ECMO cohort. Methods: We validated ECMOnet, PRESET (PREdiction of Survival on ECMO Therapy-Score), Roch, SOFA (Sequential Organ Failure Assessment), APACHE II (acute physiology and chronic health evaluation), 4C (Coronavirus Clinical Characterisation Consortium), and CURB-65 (Confusion, Urea nitrogen, Respiratory Rate, Blood Pressure, age >65 years) scores on the ISARIC (International Severe Acute Respiratory and emerging Infection Consortium) database. We report discrimination via Area Under the Receiver Operative Curve (AUROC) and Area under the Precision Recall Curve (AURPC) and calibration via Brier score. Results: We included 1147 patients and scores were calculated on patients with sufficient variables. ECMO mortality scores had AUROC (0.58–0.62), AUPRC (0.62–0.74), and Brier score (0.286–0.303). Roch score had the highest accuracy (AUROC 0.62), precision (AUPRC 0.74) yet worst calibration (Brier score of 0.3) despite being calculated on the fewest patients (144). Severity of illness scores had AUROC (0.52–0.57), AURPC (0.59–0.64), and Brier Score (0.265–0.471). APACHE II had the highest accuracy (AUROC 0.58), precision (AUPRC 0.64), and best calibration (Brier score 0.26). Conclusion: Within a large international multicenter COVID-19 cohort, the evaluated ECMO mortality prediction and severity of illness scores demonstrated inconsistent discrimination and calibration highlighting the need for better clinically applicable decision support tools.

Original language	English
Pages (from-to)	1490-1502
Number of pages	13
Journal	Artificial Organs
Volume	47
Issue number	9
DOIs	https://doi.org/10.1111/aor.14542
Publication status	Published - 1 Sept 2023
Externally published	Yes

Keywords

ARDS
COVID-19
ECLS
extracorporeal life support
extracorporeal membrane oxygenation
mortality
prediction scores
Sars-Cov2
V-V ECMO

Access to Document

10.1111/aor.14542

Cite this

Shah, N., Xue, B., Xu, Z., Yang, H., Marwali, E., Dalton, H., Payne, P. P. R., Lu, C., Said, A. S., Abdukahil, S. A., Abdulkadir, N. N., Absil, L., Acker, A., Adrião, D., Hssain, A. A., Akwani, C., Qasim, E. A., Alalqam, R., Al-Dabbous, T., ... Stienstra, Y. (2023). Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort. Artificial Organs, 47(9), 1490-1502. https://doi.org/10.1111/aor.14542

@article{389fd75569aa49a68731a8d3f9c6c6ba,

title = "Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort",

abstract = "Background: Veno-venous extracorporeal membrane oxygenation (V-V ECMO) is a lifesaving support modality for severe respiratory failure, but its resource-intensive nature led to significant controversy surrounding its use during the COVID-19 pandemic. We report the performance of several ECMO mortality prediction and severity of illness scores at discriminating survival in a large COVID-19 V-V ECMO cohort. Methods: We validated ECMOnet, PRESET (PREdiction of Survival on ECMO Therapy-Score), Roch, SOFA (Sequential Organ Failure Assessment), APACHE II (acute physiology and chronic health evaluation), 4C (Coronavirus Clinical Characterisation Consortium), and CURB-65 (Confusion, Urea nitrogen, Respiratory Rate, Blood Pressure, age >65 years) scores on the ISARIC (International Severe Acute Respiratory and emerging Infection Consortium) database. We report discrimination via Area Under the Receiver Operative Curve (AUROC) and Area under the Precision Recall Curve (AURPC) and calibration via Brier score. Results: We included 1147 patients and scores were calculated on patients with sufficient variables. ECMO mortality scores had AUROC (0.58–0.62), AUPRC (0.62–0.74), and Brier score (0.286–0.303). Roch score had the highest accuracy (AUROC 0.62), precision (AUPRC 0.74) yet worst calibration (Brier score of 0.3) despite being calculated on the fewest patients (144). Severity of illness scores had AUROC (0.52–0.57), AURPC (0.59–0.64), and Brier Score (0.265–0.471). APACHE II had the highest accuracy (AUROC 0.58), precision (AUPRC 0.64), and best calibration (Brier score 0.26). Conclusion: Within a large international multicenter COVID-19 cohort, the evaluated ECMO mortality prediction and severity of illness scores demonstrated inconsistent discrimination and calibration highlighting the need for better clinically applicable decision support tools.",

keywords = "ARDS, COVID-19, ECLS, extracorporeal life support, extracorporeal membrane oxygenation, mortality, prediction scores, Sars-Cov2, V-V ECMO",

author = "Neel Shah and Bing Xue and Ziqi Xu and Hanqing Yang and Eva Marwali and Heidi Dalton and Payne, \{Philip P.R.\} and Chenyang Lu and Said, \{Ahmed S.\} and Abdukahil, \{Sheryl Ann\} and Abdulkadir, \{Nurul Najmee\} and Lara Absil and Andrew Acker and Diana Adri{\~a}o and Hssain, \{Ali Ait\} and Chika Akwani and Qasim, \{Eman Al\} and Razi Alalqam and Tala Al-Dabbous and Beatrice Alex and Abdulrahman Al-Fares and Huda Alfoudri and Jeffrey Aliudin and Jo{\~a}o Alves and Rita Alves and Alves, \{Jo{\~a}o Melo\} and Cabrita, \{Joana Alves\} and Maria Amaral and Nur Amira and Roberto Andini and Sivanesen Anthonidass and Massimo Antonelli and Yaseen Arabi and Antonio Arcadipane and Lukas Arenz and Christel Arnold-Day and Lovkesh Arora and Rakesh Arora and Muhammad Ashraf and Amirul Asyraf and Anika Atique and Benjamin Bach and Baillie, \{John Kenneth\} and Erica Bak and Bakar, \{Nazreen Abu\} and Mohanaprasanth Balakrishnan and Renata Barbalho and Barclay, \{Wendy S.\} and Tom Fletcher and Ymkje Stienstra",

year = "2023",

month = sep,

day = "1",

doi = "10.1111/aor.14542",

language = "English",

volume = "47",

pages = "1490--1502",

journal = "Artificial Organs",

issn = "0160-564X",

publisher = "John Wiley and Sons Inc",

number = "9",

}

Shah, N, Xue, B, Xu, Z, Yang, H, Marwali, E, Dalton, H, Payne, PPR, Lu, C, Said, AS, Abdukahil, SA, Abdulkadir, NN, Absil, L, Acker, A, Adrião, D, Hssain, AA, Akwani, C, Qasim, EA, Alalqam, R, Al-Dabbous, T, Alex, B, Al-Fares, A, Alfoudri, H, Aliudin, J, Alves, J, Alves, R, Alves, JM, Cabrita, JA, Amaral, M, Amira, N, Andini, R, Anthonidass, S, Antonelli, M, Arabi, Y, Arcadipane, A, Arenz, L, Arnold-Day, C, Arora, L, Arora, R, Ashraf, M, Asyraf, A, Atique, A, Bach, B, Baillie, JK, Bak, E, Bakar, NA, Balakrishnan, M, Barbalho, R, Barclay, WS, Fletcher, T & Stienstra, Y 2023, 'Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort', Artificial Organs, vol. 47, no. 9, pp. 1490-1502. https://doi.org/10.1111/aor.14542

TY - JOUR

T1 - Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort

AU - Shah, Neel

AU - Xue, Bing

AU - Xu, Ziqi

AU - Yang, Hanqing

AU - Marwali, Eva

AU - Dalton, Heidi

AU - Payne, Philip P.R.

AU - Lu, Chenyang

AU - Said, Ahmed S.

AU - Abdukahil, Sheryl Ann

AU - Abdulkadir, Nurul Najmee

AU - Absil, Lara

AU - Acker, Andrew

AU - Adrião, Diana

AU - Hssain, Ali Ait

AU - Akwani, Chika

AU - Qasim, Eman Al

AU - Alalqam, Razi

AU - Al-Dabbous, Tala

AU - Alex, Beatrice

AU - Al-Fares, Abdulrahman

AU - Alfoudri, Huda

AU - Aliudin, Jeffrey

AU - Alves, João

AU - Alves, Rita

AU - Alves, João Melo

AU - Cabrita, Joana Alves

AU - Amaral, Maria

AU - Amira, Nur

AU - Andini, Roberto

AU - Anthonidass, Sivanesen

AU - Antonelli, Massimo

AU - Arabi, Yaseen

AU - Arcadipane, Antonio

AU - Arenz, Lukas

AU - Arnold-Day, Christel

AU - Arora, Lovkesh

AU - Arora, Rakesh

AU - Ashraf, Muhammad

AU - Asyraf, Amirul

AU - Atique, Anika

AU - Bach, Benjamin

AU - Baillie, John Kenneth

AU - Bak, Erica

AU - Bakar, Nazreen Abu

AU - Balakrishnan, Mohanaprasanth

AU - Barbalho, Renata

AU - Barclay, Wendy S.

AU - Fletcher, Tom

AU - Stienstra, Ymkje

PY - 2023/9/1

Y1 - 2023/9/1

N2 - Background: Veno-venous extracorporeal membrane oxygenation (V-V ECMO) is a lifesaving support modality for severe respiratory failure, but its resource-intensive nature led to significant controversy surrounding its use during the COVID-19 pandemic. We report the performance of several ECMO mortality prediction and severity of illness scores at discriminating survival in a large COVID-19 V-V ECMO cohort. Methods: We validated ECMOnet, PRESET (PREdiction of Survival on ECMO Therapy-Score), Roch, SOFA (Sequential Organ Failure Assessment), APACHE II (acute physiology and chronic health evaluation), 4C (Coronavirus Clinical Characterisation Consortium), and CURB-65 (Confusion, Urea nitrogen, Respiratory Rate, Blood Pressure, age >65 years) scores on the ISARIC (International Severe Acute Respiratory and emerging Infection Consortium) database. We report discrimination via Area Under the Receiver Operative Curve (AUROC) and Area under the Precision Recall Curve (AURPC) and calibration via Brier score. Results: We included 1147 patients and scores were calculated on patients with sufficient variables. ECMO mortality scores had AUROC (0.58–0.62), AUPRC (0.62–0.74), and Brier score (0.286–0.303). Roch score had the highest accuracy (AUROC 0.62), precision (AUPRC 0.74) yet worst calibration (Brier score of 0.3) despite being calculated on the fewest patients (144). Severity of illness scores had AUROC (0.52–0.57), AURPC (0.59–0.64), and Brier Score (0.265–0.471). APACHE II had the highest accuracy (AUROC 0.58), precision (AUPRC 0.64), and best calibration (Brier score 0.26). Conclusion: Within a large international multicenter COVID-19 cohort, the evaluated ECMO mortality prediction and severity of illness scores demonstrated inconsistent discrimination and calibration highlighting the need for better clinically applicable decision support tools.

AB - Background: Veno-venous extracorporeal membrane oxygenation (V-V ECMO) is a lifesaving support modality for severe respiratory failure, but its resource-intensive nature led to significant controversy surrounding its use during the COVID-19 pandemic. We report the performance of several ECMO mortality prediction and severity of illness scores at discriminating survival in a large COVID-19 V-V ECMO cohort. Methods: We validated ECMOnet, PRESET (PREdiction of Survival on ECMO Therapy-Score), Roch, SOFA (Sequential Organ Failure Assessment), APACHE II (acute physiology and chronic health evaluation), 4C (Coronavirus Clinical Characterisation Consortium), and CURB-65 (Confusion, Urea nitrogen, Respiratory Rate, Blood Pressure, age >65 years) scores on the ISARIC (International Severe Acute Respiratory and emerging Infection Consortium) database. We report discrimination via Area Under the Receiver Operative Curve (AUROC) and Area under the Precision Recall Curve (AURPC) and calibration via Brier score. Results: We included 1147 patients and scores were calculated on patients with sufficient variables. ECMO mortality scores had AUROC (0.58–0.62), AUPRC (0.62–0.74), and Brier score (0.286–0.303). Roch score had the highest accuracy (AUROC 0.62), precision (AUPRC 0.74) yet worst calibration (Brier score of 0.3) despite being calculated on the fewest patients (144). Severity of illness scores had AUROC (0.52–0.57), AURPC (0.59–0.64), and Brier Score (0.265–0.471). APACHE II had the highest accuracy (AUROC 0.58), precision (AUPRC 0.64), and best calibration (Brier score 0.26). Conclusion: Within a large international multicenter COVID-19 cohort, the evaluated ECMO mortality prediction and severity of illness scores demonstrated inconsistent discrimination and calibration highlighting the need for better clinically applicable decision support tools.

KW - ARDS

KW - COVID-19

KW - ECLS

KW - extracorporeal life support

KW - extracorporeal membrane oxygenation

KW - mortality

KW - prediction scores

KW - Sars-Cov2

KW - V-V ECMO

U2 - 10.1111/aor.14542

DO - 10.1111/aor.14542

M3 - Article

SN - 0160-564X

VL - 47

SP - 1490

EP - 1502

JO - Artificial Organs

JF - Artificial Organs

IS - 9

ER -

Validation of extracorporeal membrane oxygenation mortality prediction and severity of illness scores in an international COVID-19 cohort

Abstract

Keywords

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