SARS-CoV-2 Leakage From the Gas Outlet Port During Extracorporeal Membrane Oxygenation for COVID-19

Overview

Journal ASAIO J

Specialty General Surgery

Date 2021 Jan 25

PMID 33492852

Citations 7

Authors

Tatsunori Ogawa

Tatsuki Uemura

Wataru Matsuda

Motohiko Sato

Kota Ishizuka

Takashi Fukaya

Noriko Kinoshita

Takato Nakamoto

Norio Ohmagari

Harutaka Katano

Tadaki Suzuki

Shigeru Hosaka

Affiliations

Soon will be listed here.

Abstract

Patients with the coronavirus disease 2019 (COVID-19) sometimes develop refractory respiratory failure and may require venovenous extracorporeal membrane oxygenation (VV-ECMO). It is known that the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is sometimes present in the blood of COVID-19 patients. VV-ECMO is often used for several weeks, and plasma leaks can occur, albeit rarely. Hence, in terms of infection control, a concern is that SARS-CoV-2 may leak from the gas outlet port of the oxygenator during ECMO support of critically ill COVID-19 patients. The aim of this study was to clarify whether SARS-CoV-2 leaks from the oxygenator during ECMO support. Five patients with critical COVID-19 pneumonia were placed on VV-ECMO. Silicone-coated polypropylene membrane oxygenators were used in the ECMO circuits for these patients. SARS-CoV-2 ribonucleic acid (RNA) was measured by quantitative reverse transcription polymerase chain reaction in serum and at the gas outlet port of the ECMO circuit at the time of circuit replacement or liberation from ECMO. SARS-CoV-2 RNA was detected in the gas outlet port of the ECMO circuit for three of the five patients. None of the medical staff involved in the care of these five patients has been infected with COVID-19. In conclusion, SARS-CoV-2 could leak to the gas outlet port of the ECMO circuit through silicone-coated polypropylene membranes during ECMO support of critically ill COVID-19 patients.

Citing Articles

Characterization of anisotropic pore structure and dense selective layer of capillary membranes for long-term ECMO by cross-sectional ion-milling method.

Fukuda M, Sadano K, Maeda T, Murata E, Miyashita N, Tanaka T J Artif Organs. 2024; 28(1):50-60.

PMID: 39162915 DOI: 10.1007/s10047-024-01461-z.

3D porous structure imaging of membranes for medical devices using scanning probe microscopy and electron microscopy: from membrane science points of view.

Fukuda M, Sakai K J Artif Organs. 2024; 27(2):83-90.

PMID: 38311666 DOI: 10.1007/s10047-023-01431-x.

A Study of the Phosphorylcholine Polymer Coating of a Polymethylpentene Hollow Fiber Membrane.

Ye F, Chen Z, Li C, Chen J, Yi G Polymers (Basel). 2023; 15(13).

PMID: 37447527 PMC: 10346637. DOI: 10.3390/polym15132881.

Evolutions of extracorporeal membrane oxygenator (ECMO): perspectives for advanced hollow fiber membrane.

Fukuda M J Artif Organs. 2023; 27(1):1-6.

PMID: 36914927 PMC: 10010948. DOI: 10.1007/s10047-023-01389-w.

Polypropylene Hollow Fiber Membrane by Dissolution-Inducing Pore Methods.

Qiu Z, He C Membranes (Basel). 2022; 12(5).

PMID: 35629788 PMC: 9144892. DOI: 10.3390/membranes12050463.

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