key: cord-0771560-s4f4515o authors: Jones, Jennifer R.A.; Attard, Zachary; Bellomo, Rinaldo; Burgess, Nicola; Donovan, Ashleigh; Graco, Marnie; Rollinson, Thomas; Berlowitz, David J. title: Repeated proning in non‐intubated patients with COVID‐19 date: 2021-01-27 journal: Respirology DOI: 10.1111/resp.14008 sha: e94c94119a95a20efdb0471975cab6cdfacf3023 doc_id: 771560 cord_uid: s4f4515o nan The efficacy of proning for intubated and sedated patients with ARDS (Acute Respiratory Distress Syndrome) is well established. 1 Proning of non-intubated coronavirus disease 2019 (COVID-19) patients has, therefore, emerged as a potential early treatment of respiratory deterioration. [2] [3] [4] However, there are limited data on proning for non-intubated patients with COVID-19. Thus, in non-intubated COVID-19 patients, we aimed to examine whether, compared to the first proning treatment, subsequent proning treatments lead to a similar magnitude of change for key respiratory observations. This audit was performed during the second wave of COVID-19 in Victoria, Australia (1 July 1-30 September 2 020). Following ethics approval, we used clinical records to retrospectively identify patients where proning was deemed clinically indicated. This applied to 27 spontaneously breathing adults with COVID-19 admitted to the Austin Hospital. Proning was considered clinically indicated if the patient required supplemental oxygen or was tachypnoeic (respiratory rate ≥ 25 breaths per minute). We applied linear mixed effect modelling with the patient as a random effect for data analysis. We compared the changes in oxyhaemoglobin saturation (SpO 2 ), measured with pulse oximetry, and in respiratory rate (breaths per minute) induced by the first proning treatment with those induced by subsequent proning treatments. We performed a sensitivity analysis with events where oxygen flow rate (litres per minute) remained constant during proning to determine whether changes in supplemental oxygen during proning per se modified the findings. Statistical significance was set at P < 0.05 and analyses were performed using Stata 16.1. 5 The median age was 57 years (interquartile range (IQR): 51, 73), most were male (n = 21, 78%) and chronic disease burden was low (Charlson comorbidity index score median 1, IQR: 0-1). Twenty (74%) patients received proning at least once, six (22%) never received proning despite clinical indication (e.g. refused) and for one patient proning was documented but no data were available. There were 94 documented proning events in 20 patients, the majority occurred in the intensive care unit (n = 67, 71%) and the remaining in the COVID-19 ward (n = 27, 29%). For the patients who received proning (n = 20), the median (IQR) number of treatments per patient and their duration (min) were 3 (1, 6) and 105 (57, 170), respectively. Overall, the median SpO 2 change per proning treatment was −1% (−2, 2) and 0 (−3, 2) breaths per minute for respiratory rate. There was no statistically significant effect of subsequent proning treatment when compared to the first proning treatment for either change in SpO 2 or respiratory rate (SpO 2 : β = 0.10 (95% CI: −1.77 to 1.97); respiratory rate: β = −1.66 (95% CI: −4.21 to 0.89)). Plotting differences in SpO 2 and respiratory rate for the proning event sequence in each patient did not reveal any clear response trajectories, that is, 'responders' (Fig. 1) . The sensitivity analysis revealed that during the majority of proning treatments, patients were receiving supplemental oxygen (n = 83, 88%), predominantly via nasal prongs (n = 55 events, 59%). When oxygen flow rate remained constant (n = 61), SpO 2 decreased in 52% of treatments (pre-and post-proning difference < 0%, range: −9% to −1%) and increased in 39% of treatments (pre-and post-proning difference > 0%, range: 1% to 13%). In all these patients, there was no effect of subsequent proning treatment compared to the first for both SpO 2 and respiratory rate. In spontaneously breathing patients with COVID-19, the novel and clinically important findings of this research were that there was no evidence of a consistent response to proning treatment and that the magnitude of any response to proning was not indicative of any subsequent response to another proning treatment. Studies of proning in non-ventilated patients have reported improvement in oxygenation following proning and a lower incidence of intubation. 3, 4, 6, 7 However, none of these were controlled, let alone randomized. Moreover, all these studies had small sample sizes (n = 10-56) with limited or no data on subsequent proning outcomes. In contrast, a recent observational cohort study (n = 199) reported no difference in clinical outcomes for patients receiving proning in addition to high-flow nasal oxygen therapy. In fact, proning delayed but did not avoid intubation. 8 We observed a heterogeneous response to proning and were unable to identify responders and non-responders. In summary, in spontaneously breathing patients with COVID-19, on an analysis of close to 100 treatments, we found no evidence of reproducible response to proning and no relationship between the effect of proning on first treatment with subsequent treatments. Our findings imply uncertainty about the benefit of this intervention. 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