Particle Multimodality Monitoring and Hemodynamics

SONG Tianjiao; WANG Xiaoting; CHAO Yangong

doi:10.12290/xhyxzz.2022-0626

Volume 13 Issue 6

Nov. 2022

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Medical Journal of Peking Union Medical College Hospital > 2022 > 13(6): 942-947. > DOI: 10.12290/xhyxzz.2022-0626

SONG Tianjiao, WANG Xiaoting, CHAO Yangong. Particle Multimodality Monitoring and Hemodynamics[J]. Medical Journal of Peking Union Medical College Hospital, 2022, 13(6): 942-947. DOI: 10.12290/xhyxzz.2022-0626

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Particle Multimodality Monitoring and Hemodynamics

1.
ICU of the First Affiliated Hospital of Tsinghua University, Beijing 100020, China
2.
Department of Critical Care Medicine, Peking Union Medical College Hospital, Chinese Academy of Medical Sciences & Peking Union Medical College, Beijing 100730, China

Funds:

National Natural Science Foundation of China 81771938

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Corresponding author:
CHAO Yangong, E-mail: chaoyg1059@foxmail.com
Received Date: October 29, 2022
Accepted Date: November 08, 2022
Available Online: November 16, 2022
Issue Publish Date: November 29, 2022

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Abstract

Abstract

Hemodynamic optimization is key to resuscitation of critically ill patients in intensive medicine. Delayed or improper treatment will inevitably lead to hypoperfusion, tissue hypoxia and multiple organ failure, which affects the patients' outcome. Therefore, early identification of patients at risk and implementation of adequate monitoring and guidance intervention have a profound impact on the results. The key principle of hemodynamic management is to optimize blood flow and oxygen flow according to current tissue metabolism. To achieve this goal, we need to monitor and get blood pressure, cardiac output, organ-specific automatic regulation and tissue microcirculation. However, the clinical monitoring data is huge. At the same time nearly one hundred pieces of data objectively present the pathophysiological state of the patient, and the changes of data at different time periods can describe the progress of the patients' condition. Therefore, the integrated analysis of time/ frequency domain based on millisecond-level high-resolution data will promote the understanding and practice of hemodynamics at microcosmic level, and help to facilitate clearer judgment and more precise treatment of patients' condition.
- multimodal monitoring,
- hemodynamic,
- sepsis,
- critically ill

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