Personalized ventilatory strategy based on lung recruitablity in COVID-19-associated acute respiratory distress syndrome: a prospective clinical study

Hiroki Taenaka; Takeshi Yoshida; Haruka Hashimoto; Andi Muhammad Fadlillah Firstiogusran; Suguru Ishigaki; Hirofumi Iwata; Yusuke Enokidani; Hironori Ebishima; Naoko Kubo; Moe Koide; Yukiko Koyama; Ryota Sakaguchi; Natsuko Tokuhira; Yu Horiguchi; Akinori Uchiyama; Yuji Fujino

doi:10.1186/s13054-023-04360-6

Personalized ventilatory strategy based on lung recruitablity in COVID-19-associated acute respiratory distress syndrome: a prospective clinical study

Crit Care. 2023 Apr 19;27(1):152. doi: 10.1186/s13054-023-04360-6.

Authors

Hiroki Taenaka¹, Takeshi Yoshida², Haruka Hashimoto¹, Andi Muhammad Fadlillah Firstiogusran¹, Suguru Ishigaki¹, Hirofumi Iwata¹, Yusuke Enokidani¹, Hironori Ebishima¹, Naoko Kubo¹, Moe Koide¹, Yukiko Koyama¹, Ryota Sakaguchi¹, Natsuko Tokuhira¹, Yu Horiguchi¹, Akinori Uchiyama¹, Yuji Fujino¹

Affiliations

¹ The Department of Anesthesiology and Intensive Care Medicine, Osaka University Graduate School of Medicine, 2-15 Yamadaoka, Suita, Osaka, 565-0871, Japan.
² The Department of Anesthesiology and Intensive Care Medicine, Osaka University Graduate School of Medicine, 2-15 Yamadaoka, Suita, Osaka, 565-0871, Japan. takeshiyoshida@hp-icu.med.osaka-u.ac.jp.

Abstract

Background: Heterogeneity is an inherent nature of ARDS. Recruitment-to-inflation ratio has been developed to identify the patients who has lung recruitablity. This technique might be useful to identify the patients that match specific interventions, such as higher positive end-expiratory pressure (PEEP) or prone position or both. We aimed to evaluate the physiological effects of PEEP and body position on lung mechanics and regional lung inflation in COVID-19-associated ARDS and to propose the optimal ventilatory strategy based on recruitment-to-inflation ratio.

Methods: Patients with COVID-19-associated ARDS were consecutively enrolled. Lung recruitablity (recruitment-to-inflation ratio) and regional lung inflation (electrical impedance tomography [EIT]) were measured with a combination of body position (supine or prone) and PEEP (low 5 cmH₂O or high 15 cmH₂O). The utility of recruitment-to-inflation ratio to predict responses to PEEP were examined with EIT.

Results: Forty-three patients were included. Recruitment-to-inflation ratio was 0.68 (IQR 0.52-0.84), separating high recruiter versus low recruiter. Oxygenation was the same between two groups. In high recruiter, a combination of high PEEP with prone position achieved the highest oxygenation and less dependent silent spaces in EIT (vs. low PEEP in both positions) without increasing non-dependent silent spaces in EIT. In low recruiter, low PEEP in prone position resulted in better oxygenation (vs. both PEEPs in supine position), less dependent silent spaces (vs. low PEEP in supine position) and less non-dependent silent spaces (vs. high PEEP in both positions). Recruitment-to-inflation ratio was positively correlated with the improvement in oxygenation and respiratory system compliance, the decrease in dependent silent spaces, and was inversely correlated with the increase in non-dependent silent spaces, when applying high PEEP.

Conclusions: Recruitment-to-inflation ratio may be useful to personalize PEEP in COVID-19-associated ARDS. Higher PEEP in prone position and lower PEEP in prone position decreased the amount of dependent silent spaces (suggesting lung collapse) without increasing the amount of non-dependent silent spaces (suggesting overinflation) in high recruiter and in low recruiter, respectively.

Keywords: Acute respiratory distress syndrome; COVID-19; Electrical impedance tomography; Lung recruitability; Personalized ventilatory strategy.

MeSH terms

COVID-19* / complications
COVID-19* / therapy
Humans
Lung / diagnostic imaging
Positive-Pressure Respiration / methods
Prospective Studies
Respiratory Distress Syndrome* / etiology
Respiratory Distress Syndrome* / therapy