Critical Care (Jun 2021)

Lung distribution of gas and blood volume in critically ill COVID-19 patients: a quantitative dual-energy computed tomography study

  • Lorenzo Ball,
  • Chiara Robba,
  • Jacob Herrmann,
  • Sarah E. Gerard,
  • Yi Xin,
  • Maura Mandelli,
  • Denise Battaglini,
  • Iole Brunetti,
  • Giuseppe Minetti,
  • Sara Seitun,
  • Giulio Bovio,
  • Antonio Vena,
  • Daniele Roberto Giacobbe,
  • Matteo Bassetti,
  • Patricia R. M. Rocco,
  • Maurizio Cereda,
  • Rahim R. Rizi,
  • Lucio Castellan,
  • Nicolò Patroniti,
  • Paolo Pelosi,
  • Collaborators of the GECOVID Group

DOI
https://doi.org/10.1186/s13054-021-03610-9
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 12

Abstract

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Abstract Background Critically ill COVID-19 patients have pathophysiological lung features characterized by perfusion abnormalities. However, to date no study has evaluated whether the changes in the distribution of pulmonary gas and blood volume are associated with the severity of gas-exchange impairment and the type of respiratory support (non-invasive versus invasive) in patients with severe COVID-19 pneumonia. Methods This was a single-center, retrospective cohort study conducted in a tertiary care hospital in Northern Italy during the first pandemic wave. Pulmonary gas and blood distribution was assessed using a technique for quantitative analysis of dual-energy computed tomography. Lung aeration loss (reflected by percentage of normally aerated lung tissue) and the extent of gas:blood volume mismatch (percentage of non-aerated, perfused lung tissue—shunt; aerated, non-perfused dead space; and non-aerated/non-perfused regions) were evaluated in critically ill COVID-19 patients with different clinical severity as reflected by the need for non-invasive or invasive respiratory support. Results Thirty-five patients admitted to the intensive care unit between February 29th and May 30th, 2020 were included. Patients requiring invasive versus non-invasive mechanical ventilation had both a lower percentage of normally aerated lung tissue (median [interquartile range] 33% [24–49%] vs. 63% [44–68%], p < 0.001); and a larger extent of gas:blood volume mismatch (43% [30–49%] vs. 25% [14–28%], p = 0.001), due to higher shunt (23% [15–32%] vs. 5% [2–16%], p = 0.001) and non-aerated/non perfused regions (5% [3–10%] vs. 1% [0–2%], p = 0.001). The PaO2/FiO2 ratio correlated positively with normally aerated tissue (ρ = 0.730, p < 0.001) and negatively with the extent of gas-blood volume mismatch (ρ = − 0.633, p < 0.001). Conclusions In critically ill patients with severe COVID-19 pneumonia, the need for invasive mechanical ventilation and oxygenation impairment were associated with loss of aeration and the extent of gas:blood volume mismatch. Graphic abstract

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