Critical Care Explorations (Mar 2024)

Investigating the Association Between Dynamic Driving Pressure and Mortality in COVID-19-Related Acute Respiratory Distress Syndrome: A Joint Modeling Approach Using Real-Time Continuously-Monitored Ventilation Data

  • Daniel J. Tan, MBI,
  • Joseph M. Plasek, PhD,
  • Peter C. Hou, MD,
  • Rebecca M. Baron, MD,
  • Benjamin J. Atkinson, MD,
  • Li Zhou, MD, PhD

DOI
https://doi.org/10.1097/CCE.0000000000001043
Journal volume & issue
Vol. 6, no. 3
p. e1043

Abstract

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IMPORTANCE AND OBJECTIVES:. COVID-19-related acute respiratory distress syndrome (ARDS) is associated with high mortality and often necessitates invasive mechanical ventilation (IMV). Previous studies on non-COVID-19 ARDS have shown driving pressure to be robustly associated with ICU mortality; however, those studies relied on “static” driving pressure measured periodically and manually. As “continuous” automatically monitored driving pressure is becoming increasingly available and reliable with more advanced mechanical ventilators, we aimed to examine the effect of this “dynamic” driving pressure in COVID-19 ARDS throughout the entire ventilation period. DESIGN, SETTING, AND PARTICIPANTS:. This retrospective, observational study cohort study evaluates the association between driving pressure and ICU mortality in patients with concurrent COVID-19 and ARDS using multivariate joint modeling. The study cohort (n = 544) included all adult patients (≥ 18 yr) with COVID-19 ARDS between March 1, 2020, and April 30, 2021, on volume-control mode IMV for 12 hours or more in a Mass General Brigham, Boston, MA ICU. MEASUREMENTS AND MAIN RESULTS:. Of 544 included patients, 171 (31.4%) died in the ICU. Increased dynamic ΔP was associated with increased risk in the hazard of ICU mortality (hazard ratio [HR] 1.035; 95% credible interval, 1.004–1.069) after adjusting for other relevant dynamic respiratory biomarkers. A significant increase in risk in the hazard of death was found for every hour of exposure to high intensities of driving pressure (≥ 15 cm H2O) (HR 1.002; 95% credible interval 1.001–1.003). CONCLUSIONS:. Limiting patients’ exposure to high intensities of driving pressure even while under lung-protective ventilation may represent a critical step in improving ICU survival in patients with COVID-19 ARDS. Time-series IMV data could be leveraged to enhance real-time monitoring and decision support to optimize ventilation strategies at the bedside.