TY - JOUR
T1 - Limited Utility of Self-made Oxygen Generators Assembled From Everyday Commodities During the COVID-19 Pandemic
AU - Limper, Ulrich
AU - Klaas, Lena
AU - Köhler, Markus
AU - Lichte, Daniel
AU - Maldonado Samaniego, Nelson J.
AU - Suarez, Jose I.
AU - Jordan, Jens
AU - Hoffschmidt, Bernhard
N1 - Funding Information:
Ulrich Limper, Lena Klaus, Markus Köhler, Daniel Lichte, Jens Jordan, Bernard Hoffschmidt, and Nelson J Maldonado have nothing to disclose related to this project. Jose I Suarez is the Chair for the DSMB for the INTREPID Study supported by BARD. Dr Suarez has received no monetary compensation for this activity. He is also a member of the Clinical Events Committee for the REACT Study funded by IDORSIA. Dr Suarez has received less than US$10000 for this activity.
Publisher Copyright:
© The Author(s), 2022. Published by Cambridge University Press on behalf of Society for Disaster Medicine and Public Health, Inc.
PY - 2022
Y1 - 2022
N2 - The current COVID-19 pandemic has aggravated pre-existing oxygen supply gaps all over the world. In fact, oxygen shortages occurred in affluent areas with highly developed healthcare systems. The state-of-affairs created much suffering and resulted in potentially preventable deaths. Meanwhile, several international activities have been initiated to improve oxygen availability in the long-term by creating new networks of oxygen plants and supply channels. However, disasters such as the current pandemic may require rapid, autarkic oxygen production. Therefore, we determined whether oxygen resilience could conceivably be improved through self-made oxygen generators using material that is easily available even in remote areas. The team comprised engineers and physicians with hands-on experience in low- and middle-income countries. We constructed and tested self-made setups for water hydrolysis and membrane-based oxygen purification. We must conclude, however, that the massive amounts of oxygen patients with COVID-19 require cannot be reasonably met with such simple measures, which would require high efforts and hold potential risks.
AB - The current COVID-19 pandemic has aggravated pre-existing oxygen supply gaps all over the world. In fact, oxygen shortages occurred in affluent areas with highly developed healthcare systems. The state-of-affairs created much suffering and resulted in potentially preventable deaths. Meanwhile, several international activities have been initiated to improve oxygen availability in the long-term by creating new networks of oxygen plants and supply channels. However, disasters such as the current pandemic may require rapid, autarkic oxygen production. Therefore, we determined whether oxygen resilience could conceivably be improved through self-made oxygen generators using material that is easily available even in remote areas. The team comprised engineers and physicians with hands-on experience in low- and middle-income countries. We constructed and tested self-made setups for water hydrolysis and membrane-based oxygen purification. We must conclude, however, that the massive amounts of oxygen patients with COVID-19 require cannot be reasonably met with such simple measures, which would require high efforts and hold potential risks.
KW - emergency preparedness
KW - oxygen supply
KW - severe acute respiratory syndrome
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U2 - 10.1017/dmp.2022.122
DO - 10.1017/dmp.2022.122
M3 - Review article
C2 - 35545251
AN - SCOPUS:85130459579
SN - 1935-7893
VL - 17
JO - Disaster Medicine and Public Health Preparedness
JF - Disaster Medicine and Public Health Preparedness
IS - 3
M1 - e177
ER -