Multiomic biomarkers after cardiac arrest

Victoria Stopa; Gabriele Lileikyte; Anahita Bakochi; Prasoon Agarwal; Rasmus Beske; Pascal Stammet; Christian Hassager; Filip Årman; Niklas Nielsen; Yvan Devaux

doi:10.1186/s40635-024-00675-y

Multiomic biomarkers after cardiac arrest

Victoria Stopa, Gabriele Lileikyte, Anahita Bakochi, Prasoon Agarwal, Rasmus Beske, Pascal Stammet, Christian Hassager, Filip Årman, Niklas Nielsen, Yvan Devaux^*

^*Corresponding author for this work

Cardiovascular Research Unit

Research output: Contribution to journal › Review article › peer-review

Abstract

Cardiac arrest is a sudden cessation of heart function, leading to an abrupt loss of blood flow and oxygen to vital organs. This life-threatening emergency requires immediate medical intervention and can lead to severe neurological injury or death. Methods and biomarkers to predict neurological outcome are available but lack accuracy. Such methods would allow personalizing healthcare and help clinical decisions. Extensive research has been conducted to identify prognostic omic biomarkers of cardiac arrest. With the emergence of technologies allowing to combine different levels of omics data, and with the help of artificial intelligence and machine learning, there is a potential to use multiomic signatures as prognostic biomarkers after cardiac arrest. This review article delves into the current knowledge of cardiac arrest biomarkers across various omic fields and suggests directions for future research aiming to integrate multiple omics data layers to improve outcome prediction and cardiac arrest patient's care.

Original language	English
Article number	83
Journal	Intensive Care Medicine Experimental
Volume	12
Issue number	1
DOIs	https://doi.org/10.1186/s40635-024-00675-y https://doi.org/10.1186/s40635-024-00675-y
Publication status	Published - 27 Sept 2024

Keywords

Artificial intelligence
Biomarkers
Cardiac arrest
Clinical outcomes
Machine learning
Multiomics
Prognosis

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title = "Multiomic biomarkers after cardiac arrest",

abstract = "Cardiac arrest is a sudden cessation of heart function, leading to an abrupt loss of blood flow and oxygen to vital organs. This life-threatening emergency requires immediate medical intervention and can lead to severe neurological injury or death. Methods and biomarkers to predict neurological outcome are available but lack accuracy. Such methods would allow personalizing healthcare and help clinical decisions. Extensive research has been conducted to identify prognostic omic biomarkers of cardiac arrest. With the emergence of technologies allowing to combine different levels of omics data, and with the help of artificial intelligence and machine learning, there is a potential to use multiomic signatures as prognostic biomarkers after cardiac arrest. This review article delves into the current knowledge of cardiac arrest biomarkers across various omic fields and suggests directions for future research aiming to integrate multiple omics data layers to improve outcome prediction and cardiac arrest patient's care.",

keywords = "Artificial intelligence, Biomarkers, Cardiac arrest, Clinical outcomes, Machine learning, Multiomics, Prognosis",

author = "Victoria Stopa and Gabriele Lileikyte and Anahita Bakochi and Prasoon Agarwal and Rasmus Beske and Pascal Stammet and Christian Hassager and Filip {\AA}rman and Niklas Nielsen and Yvan Devaux",

note = "Funding Y.D. is funded by the EU Horizon 2020 project COVIRNA (grant agreement #101016072), the National Research Fund (grants # C14/BM/8225223, C17/BM/11613033 and COVID-19/2020-1/14719577/miRCOVID), the Ministry of Higher Education and Research, and the Heart Foundation-Daniel Wagner of Luxembourg. V.S is funded by the Heart Foundation-Daniel Wagner of Luxembourg (YMCA project).C.H. is funded by The Novo Nordisk Foundation, The Lundbeck Foundation and The Danish Heart Foundation. {\textcopyright} 2024. The Author(s).",

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AU - Stopa, Victoria

AU - Lileikyte, Gabriele

AU - Bakochi, Anahita

AU - Agarwal, Prasoon

AU - Beske, Rasmus

AU - Stammet, Pascal

AU - Hassager, Christian

AU - Årman, Filip

AU - Nielsen, Niklas

AU - Devaux, Yvan

N1 - Funding Y.D. is funded by the EU Horizon 2020 project COVIRNA (grant agreement #101016072), the National Research Fund (grants # C14/BM/8225223, C17/BM/11613033 and COVID-19/2020-1/14719577/miRCOVID), the Ministry of Higher Education and Research, and the Heart Foundation-Daniel Wagner of Luxembourg. V.S is funded by the Heart Foundation-Daniel Wagner of Luxembourg (YMCA project).C.H. is funded by The Novo Nordisk Foundation, The Lundbeck Foundation and The Danish Heart Foundation. © 2024. The Author(s).

PY - 2024/9/27

Y1 - 2024/9/27

N2 - Cardiac arrest is a sudden cessation of heart function, leading to an abrupt loss of blood flow and oxygen to vital organs. This life-threatening emergency requires immediate medical intervention and can lead to severe neurological injury or death. Methods and biomarkers to predict neurological outcome are available but lack accuracy. Such methods would allow personalizing healthcare and help clinical decisions. Extensive research has been conducted to identify prognostic omic biomarkers of cardiac arrest. With the emergence of technologies allowing to combine different levels of omics data, and with the help of artificial intelligence and machine learning, there is a potential to use multiomic signatures as prognostic biomarkers after cardiac arrest. This review article delves into the current knowledge of cardiac arrest biomarkers across various omic fields and suggests directions for future research aiming to integrate multiple omics data layers to improve outcome prediction and cardiac arrest patient's care.

AB - Cardiac arrest is a sudden cessation of heart function, leading to an abrupt loss of blood flow and oxygen to vital organs. This life-threatening emergency requires immediate medical intervention and can lead to severe neurological injury or death. Methods and biomarkers to predict neurological outcome are available but lack accuracy. Such methods would allow personalizing healthcare and help clinical decisions. Extensive research has been conducted to identify prognostic omic biomarkers of cardiac arrest. With the emergence of technologies allowing to combine different levels of omics data, and with the help of artificial intelligence and machine learning, there is a potential to use multiomic signatures as prognostic biomarkers after cardiac arrest. This review article delves into the current knowledge of cardiac arrest biomarkers across various omic fields and suggests directions for future research aiming to integrate multiple omics data layers to improve outcome prediction and cardiac arrest patient's care.

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KW - Biomarkers

KW - Cardiac arrest

KW - Clinical outcomes

KW - Machine learning

KW - Multiomics

KW - Prognosis

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Multiomic biomarkers after cardiac arrest

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Keywords

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