Abstract
COVID-19 is increasingly recognised to manifest phenotypic diversity in clinical presentation, severity and trajectory. As such, treatment, e.g. awake prone positioning, should be personalised and guided by the primary pathophysiology and immunopathology. https://bit.ly/2ZneHlF
To the Editors:
We read with interest the research letter by Ng et al. [1], which described their experience in prone positioning (PP) for awake patients with coronavirus disease 2019 (COVID-19) pneumonia, and concluded that this manoeuvre could delay or reduce the need for intensive care. We agree that the authors demonstrated safety and feasibility of PP in COVID-19 pneumonia patients. However, we humbly suggest a few crucial points be addressed before drawing conclusions on the efficacy of PP.
First, the median time from illness onset to starting oxygen therapy (OT) and awake PP was 9 and 11 days, respectively. In a study reported by Young et al. [2], six out of 18 COVID-19 patients received OT as their oximetry saturations (SpO2) were <92%, and median time from symptom onset to OT initiation was 4 days. Two among these six patients eventually needed intensive care for worsening respiratory failure. However, they had contrasting clinical trajectories, particularly in relation to tempo and extent of deterioration. The first patient desaturated at day 3, with rapid declining oxygenation that necessitated mechanical ventilation by day 8, while the second only developed hypoxia later at day 10 of illness. Although the latter was admitted to intensive care 3 days later, the patient needed at most venturi mask 50% and was successfully weaned by day 20 of illness. By referencing local data, it is plausible that most patients in the series reported by Ng et al. [1] were at low risk of developing severe COVID-19 pneumonia prior to awake PP.
Second, there was considerable patient heterogeneity with regard to severity of hypoxaemia. Unreported information, e.g. chest radiology and protocol to guide PP management, limit data interpretation. COVID-19 pneumonia is increasingly recognised to manifest phenotypic diversity, rather than a strict dichotomy, i.e. phenotype L and H [3, 4]. Moreover, PP's physiological effects would only benefit phenotype H, i.e. typical acute respiratory distress syndrome (ARDS), as characterised by predominantly dorsal consolidation and poor respiratory compliance [4]. Studies on PP in non-intubated ARDS patients pre-dating COVID-19 reported oxygenation improvement but there was no demonstrable improvement in clinical outcomes [5]. There was, however, an increased risk of death attributed to delayed intubation in severe ARDS regardless of choice/combination of adjunct therapies, e.g. noninvasive ventilation/high flow nasal therapy (HFNT) [5, 6].
Third, all but one patient had SpO2 >90% on room air at OT initiation. SpO2 ≥90% is an American Thoracis Society/Infectious Diseases Society of America 2007 criterion for clinical stability in hospitalised patients with community-acquired pneumonia [7]. Current guidelines do not recommend OT in acute myocardial infarction and stroke patients with SpO2 90–92%, as evidence on its potential harm continues to emerge [8]. Similarly, we recommend judicious use of OT, as hyperoxia could exacerbate cytokine release syndrome – the main immunopathological driver implicated in severe coronavirus infections [9]. It is regretful that the study of Ng et al. [1] did not define indications for OT, which could explain the remarkably discrepant intubation rates (10% versus 60%) of COVID-19 pneumonia patients treated at the same centre.
Finally, we would like to share our experience on using awake PP and HFNT (PP+HFNT) in three patients since late April 2020 (table 1). They were managed with the strategy below:
1) Inclusion criteria
SpO2 <92% on intranasal oxygen ≥6 L·min−1 or venturi mask 50%; or PF ratio <200
Considerable bilateral opacities on chest radiograph, i.e. compatible with degree of hypoxaemia
Respiratory rate <30 breaths·min−1
Not using accessory muscles of respiration, i.e. sternocleidomastoids
No contraindications to PP, e.g. cervical spine instability, pregnancy
2) Manoeuvre
Four 2-h sessions of PP daily
3) Termination criteria
ROX index persistently <4.88 despite optimising HFNT and/or worsening clinical status requiring intubation
Patient's inability to tolerate PP
All three patients required OT to keep SpO2 >92% by one week of illness. Patients were at day 13, 16 and 8 of illness when PP+HFNT was started. The first two required 5 and 2 days of PP+HFNT while the last was intubated for worsening hypoxaemia after 4 days. Our observations echo those of Young et al. [2]. Just as the importance of personalised mechanical ventilation strategies cannot be overemphasised in COVID-19 ARDS, we maintain that selecting the appropriate patient subgroup for awake PP on OT is equally crucial. While we await more data, we opine that awake PP may work in hypoxic COVID-19 whereby the trajectory in oxygenation deterioration is less precipitous, meaning cytokine release syndrome is more indolent (thus causes ARDS over a longer time span), or already abating (the worst is over). Development of a prognostic model derived from clinical, laboratory and physiological data may predict risk of severe hypoxaemia requiring mechanical ventilation and guide personalised treatment in COVID-19 pneumonia.
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Footnotes
Conflict of interest: C.F. Huang has nothing to disclose.
Conflict of interest: Y.F. Zhuang has nothing to disclose.
Conflict of interest: J. Liu has nothing to disclose.
Conflict of interest: C.K. Tay has nothing to disclose.
Conflict of interest: D.W. Sewa has nothing to disclose.
- Received June 5, 2020.
- Accepted June 22, 2020.
- Copyright ©ERS 2020.
This version is distributed under the terms of the Creative Commons Attribution Non-Commercial Licence 4.0.