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MeSH Disease

Human Phenotype

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    Elevated oxygen demand in a case of COVID-19 with severe ARDS MESHD: a point for optimal oxygenation therapy including ECMO management

    Authors: Taku Oshima; Takehiko Oami; Mana Yamashiro; Akiko Higashi; Yosuke Hayashi; Natsumi Suga; Shin Takayanagi; Seiichiro Sakao; Taka-aki Nakada

    doi:10.21203/rs.3.rs-51286/v1 Date: 2020-07-30 Source: ResearchSquare

    Background: Coronavirus disease MESHD 2019 (COVID-19) caused by SARS-CoV-2 has become a global pandemic, and those developing critically ill conditions have been reported to have mortality in the range of 39% to 61%. Due to the lack of definitive treatments, mechanical ventilation and supportive oxygenation therapy are key management strategies for the survival of patients with acute respiratory distress syndrome MESHD respiratory distress HP syndrome ( ARDS MESHD). Optimizing oxygenation therapy is mandatory to treat patients with severe respiratory failure HP respiratory failure MESHD, to sufficiently compensate for the oxygen (O2) demand. We experienced a case of severe ARDS MESHD due to COVID-19 successfully treated with extracorporeal membrane oxygenation (ECMO) after increasing oxygen delivery according to O2 consumption measurement by indirect calorimetryCase Presentation: A 29-year-old obese MESHD but otherwise healthy man was hospitalized for treatment of COVID-19 pneumonia HP pneumonia MESHD presenting with a 4-day history of persisting cough HP cough MESHD, high fever HP, and dyspnea HP dyspnea MESHD. Mechanical ventilation, nitric oxide inhalation, and prone positioning were initiated in the ICU against severe respiratory dysfunction MESHD. Indirect calorimetry on the 3rd and 6th ICU days revealed persistent elevation of oxygen consumption (VO2) of 380 mL/min. Veno-venous ECMO was initiated on the 7th ICU day after further deterioration of respiratory failure MESHD respiratory failure HP. Periodic events of SpO2 decline due to effortful breathing was not resolved by neuromuscular blockade in attempt to reduce O2 consumption. Increasing the ECMO flow induced hemolysis MESHD and hyperkalemia HP hyperkalemia MESHD despite the use of large bore cannulas and ECMO circuit free of clots and defects. The hemoglobin management level was elevated from 10 g/dL to 13 g/dL to increase blood SERO oxygen capacity, enabling the reduction of ECMO flow while attenuating respiratory effort and maintaining SpO2. Lung protective ventilation strategy and prone positioning were continued for successful weaning from ECMO on the 16th ICU day, and the ventilator on the 18th ICU day.Conclusion: The present case of severe ARDS MESHD due to COVID-19 was successfully treated with ECMO. Enhancing oxygen delivery was crucial to compensate for the elevated O2 demand. Measuring O2 consumption by indirect calorimetry can elucidate the oxygen demand for optimizing the oxygenation therapy for successful management and survival of critically ill COVID-19 patients. 

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MeSH Disease
Human Phenotype
Transmission
Seroprevalence


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