The Intriguing, Still Undercovered, Clinical Role of Echocardiography in Critically Ill Coronavirus Disease Patients

We read with interest the article published in a recent issue of Critical Care Medicine by Chotalia et al (1) who investigated the prognostic role of right ventricle (RV) dilatation and/or dysfunction in 172 mechanically ventilated patients with acute respiratory distress syndrome (ARDS) due to severe acute respiratory syndrome coronavirus 2 (coronavirus disease [COVID]) disease. This elegant article (1) does confirm the potential clinical role of echocardiography in critically ill patients with COVID-related ARDS. However, in our opinion, the interpretation of the results obtained by Chotalia et al (1) may be limited by the selection criteria of the study population. According to their local clinical practice, echocardiography was performed not systematically but only in a subset of ICU COVID patients, characterized by increased troponin values and/or hemodynamic instability. About one third of the entire population (89/267 patients; 33%) was excluded from an echocardiographic assessment. This may prevent from an holistic understanding of echocardiographic findings in the real world of critically ill COVID patients. Furthermore, patients with preexistent heart disease were not included despite the known association between cardiovascular diseases and COVID disease progression (2). The negative correlation between RV alterations and urine output should be confirmed in larger unselected populations. Indeed, a high use of renal replacement therapy (46.5%) was reported by Chotalia et al (1), that is, almost half of the population was supposed to be anuric, and no biohumoral signs of systemic congestion was detectable in patients with RV dilatation and dysfunction (as inferred by comparable values of transaminase among the three subgroups). When exploring the relation between the RV and “pulmonary pathophysiology,” significant higher values of peak inspiratory airway and positive endexpiratory pressures observed in patients with RV dilatation and dysfunction cannot rule out a causative link between increased ventilatory pressures and RV alterations, as previously described in no-COVID ARDS (3). Unfortunately, no data on inflammatory activation (i.e., d-dimer) were provided in the article by Chotalia et al (1), so the link between RV alteration and pulmonary disease severity cannot by clearly elucidated. Due to nonuniformity of COVID disease, the clinical significance of echocardiography may be understood and achieved, especially in critically COVID patients by three-step approach: 1) a detailed and comprehensive description of echo findings in COVID ICU patients by a systematic use of echocardiography (4). This approach allows, in the real-world population, the identification of those echo variables with prognostic role; 2) serial echocardiographic Chiara Lazzeri, MD