Annals of Intensive Care (Mar 2021)

Continuous positive airway pressure for respiratory support during COVID-19 pandemic: a frugal approach from bench to bedside

  • Guillaume Carteaux,
  • Manuella Pons,
  • François Morin,
  • Samuel Tuffet,
  • Arnaud Lesimple,
  • Bilal Badat,
  • Anne-Fleur Haudebourg,
  • François Perier,
  • Yvon Deplante,
  • Constance Guillaud,
  • Frédéric Schlemmer,
  • Elena Fois,
  • Nicolas Mongardon,
  • Mehdi Khellaf,
  • Karim Jaffal,
  • Camille Deguillard,
  • Philippe Grimbert,
  • Raphaëlle Huguet,
  • Keyvan Razazi,
  • Nicolas de Prost,
  • François Templier,
  • François Beloncle,
  • Alain Mercat,
  • Laurent Brochard,
  • Vincent Audard,
  • Pascal Lim,
  • Jean-Christophe Richard,
  • Dominique Savary,
  • Armand Mekontso Dessap

DOI
https://doi.org/10.1186/s13613-021-00828-2
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 14

Abstract

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Abstract Background We describe a frugal approach (focusing on needs, performance, and costs) to manage a massive influx of COVID-19 patients with acute hypoxemic respiratory failure (AHRF) using the Boussignac valve protected by a filter (“Filter Frugal CPAP”, FF-CPAP) in and out the ICU. Methods (1) A bench study measured the impact of two filters with different mechanical properties on CPAP performances, and pressures were also measured in patients. (2) Non-ICU healthcare staff working in COVID-19 intermediate care units were trained with a video tutorial posted on a massive open online course. (3) A clinical study assessed the feasibility and safety of using FF-CPAP to maintain oxygenation and manage patients out of the ICU during a massive outbreak. Results Bench assessments showed that adding a filter did not affect the effective pressure delivered to the patient. The resistive load induced by the filter variably increased the simulated patient’s work of breathing (6–34%) needed to sustain the tidal volume, depending on the filter’s resistance, respiratory mechanics and basal inspiratory effort. In patients, FF-CPAP achieved pressures similar to those obtained on the bench. The massive training tool provided precious information on the use of Boussignac FF-CPAP on COVID-19 patients. Then 85 COVID-19 patients with ICU admission criteria over a 1-month period were studied upon FF-CPAP initiation for AHRF. FF-CPAP significantly decreased respiratory rate and increased SpO2. Thirty-six (43%) patients presented with respiratory indications for intubation prior to FF-CPAP initiation, and 13 (36%) of them improved without intubation. Overall, 31 patients (36%) improved with FF-CPAP alone and 17 patients (20%) did not require ICU admission. Patients with a respiratory rate > 32 breaths/min upon FF-CPAP initiation had a higher cumulative probability of intubation (p < 0.001 by log-rank test). Conclusion Adding a filter to the Boussignac valve does not affect the delivered pressure but may variably increase the resistive load depending on the filter used. Clinical assessment suggests that FF-CPAP is a frugal solution to provide a ventilatory support and improve oxygenation to numerous patients suffering from AHRF in the context of a massive outbreak.

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