BACKGROUND: The use of prone position (PP) has been widespread during the COVID-19 pandemic. Whereas it has demonstrated benefits, including improved oxygenation and lung aeration, the factors influencing the response in terms of gas exchange to PP remain unclear. In particular, the association between baseline quantitative computed tomography (CT) scan results and gas exchange response to PP in invasively ventilated subjects with COVID-19 ARDS is unknown. The present study aimed to compare baseline quantitative CT results between subjects responding to PP in terms of oxygenation or CO2 clearance and those who did not. METHODS: This was a single-center, retrospective observational study including critically ill, invasively ventilated subjects with COVID-19–related ARDS admitted to the ICUs of Niguarda Hospital between March 2020–November 2021. Blood gas samples were collected before and after PP. Subjects in whom the PaO2/FIO2 increase was 6 20 mm Hg after PP were defined as oxygen responders. CO2 responders were defined when the ventilatory ratio (VR) decreased during PP. Automated quantitative CT analyses were performed to obtain tissue mass and density of the lungs. RESULTS: One hundred twenty-five subjects were enrolled, of which 116 (93%) were O2 responders and 51 (41%) CO2 responders. No difference in quantitative CT characteristics and oxygen were observed between responders and non-responders (tissue mass 1,532 6 396gvs 1,654 6 304 g, P 5.28; density 2544 6 109 HU vs 2562 6 58 HU P 5 .42). Similar findings were observed when dividing the population according to CO2 response (tissue mass 1,551 6 412 g vs 1,534 6 377 g, P 5 .89; density 2545 6 123 HU vs 2546 6 94 HU, P 5 .99). CONCLUSIONS: Most subjects with COVID-19–related ARDS improved their oxygenation at the first pronation cycle. The study suggests that baseline quantitative CT scan data were not associated with the response to PP in oxygenation or CO2 in mechanically ventilated subjects with COVID-19–related ARDS.
Zadek, F., Berta, L., Zorzi, G., Ubiali, S., Bonaiuti, A., Tundo, G., et al. (2024). Quantitative CT scan and response to pronation in COVID-19 ARDS. RESPIRATORY CARE, 69(11), 1380-1391 [10.4187/respcare.11625].
Quantitative CT scan and response to pronation in COVID-19 ARDS
Zadek, Francesco;Berta, Luca;Ubiali, Stefania;Tundo, Giulia;Brunoni, Beatrice;Bernasconi, Davide Paolo;Fumagalli, Roberto;Langer, Thomas
2024
Abstract
BACKGROUND: The use of prone position (PP) has been widespread during the COVID-19 pandemic. Whereas it has demonstrated benefits, including improved oxygenation and lung aeration, the factors influencing the response in terms of gas exchange to PP remain unclear. In particular, the association between baseline quantitative computed tomography (CT) scan results and gas exchange response to PP in invasively ventilated subjects with COVID-19 ARDS is unknown. The present study aimed to compare baseline quantitative CT results between subjects responding to PP in terms of oxygenation or CO2 clearance and those who did not. METHODS: This was a single-center, retrospective observational study including critically ill, invasively ventilated subjects with COVID-19–related ARDS admitted to the ICUs of Niguarda Hospital between March 2020–November 2021. Blood gas samples were collected before and after PP. Subjects in whom the PaO2/FIO2 increase was 6 20 mm Hg after PP were defined as oxygen responders. CO2 responders were defined when the ventilatory ratio (VR) decreased during PP. Automated quantitative CT analyses were performed to obtain tissue mass and density of the lungs. RESULTS: One hundred twenty-five subjects were enrolled, of which 116 (93%) were O2 responders and 51 (41%) CO2 responders. No difference in quantitative CT characteristics and oxygen were observed between responders and non-responders (tissue mass 1,532 6 396gvs 1,654 6 304 g, P 5.28; density 2544 6 109 HU vs 2562 6 58 HU P 5 .42). Similar findings were observed when dividing the population according to CO2 response (tissue mass 1,551 6 412 g vs 1,534 6 377 g, P 5 .89; density 2545 6 123 HU vs 2546 6 94 HU, P 5 .99). CONCLUSIONS: Most subjects with COVID-19–related ARDS improved their oxygenation at the first pronation cycle. The study suggests that baseline quantitative CT scan data were not associated with the response to PP in oxygenation or CO2 in mechanically ventilated subjects with COVID-19–related ARDS.
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