Author: Xin, Yi; Martin, Kevin; Morais, Caio C A; Delvecchio, Paolo; Gerard, Sarah E; Hamedani, Hooman; Herrmann, Jacob; Abate, Nicholas; Lenart, Austin; Humayun, Shiraz; Sidhu, Uday; Petrov, Mihail; Reutlinger, Kristan; Mandelbaum, Tal; Duncan, Ian; Tustison, Nicholas; Kadlecek, Stephen; Chatterjee, Shampa; Gee, James C; Rizi, Rahim R; Berra, Lorenzo; Cereda, Maurizio
Title: Diminishing Efficacy of Prone Positioning With Late Application in Evolving Lung Injury. Cord-id: cbwoo210 Document date: 2021_4_28
ID: cbwoo210
Snippet: OBJECTIVES It is not known how lung injury progression during mechanical ventilation modifies pulmonary responses to prone positioning. We compared the effects of prone positioning on regional lung aeration in late versus early stages of lung injury. DESIGN Prospective, longitudinal imaging study. SETTING Research imaging facility at The University of Pennsylvania (Philadelphia, PA) and Medical and Surgical ICUs at Massachusetts General Hospital (Boston, MA). SUBJECTS Anesthetized swine and pati
Document: OBJECTIVES It is not known how lung injury progression during mechanical ventilation modifies pulmonary responses to prone positioning. We compared the effects of prone positioning on regional lung aeration in late versus early stages of lung injury. DESIGN Prospective, longitudinal imaging study. SETTING Research imaging facility at The University of Pennsylvania (Philadelphia, PA) and Medical and Surgical ICUs at Massachusetts General Hospital (Boston, MA). SUBJECTS Anesthetized swine and patients with acute respiratory distress syndrome (acute respiratory distress syndrome). INTERVENTIONS Lung injury was induced by bronchial hydrochloric acid (3.5 mL/kg) in 10 ventilated Yorkshire pigs and worsened by supine nonprotective ventilation for 24 hours. Whole-lung CT was performed 2 hours after hydrochloric acid (Day 1) in both prone and supine positions and repeated at 24 hours (Day 2). Prone and supine images were registered (superimposed) in pairs to measure the effects of positioning on the aeration of each tissue unit. Two patients with early acute respiratory distress syndrome were compared with two patients with late acute respiratory distress syndrome, using electrical impedance tomography to measure the effects of body position on regional lung mechanics. MEASUREMENTS AND MAIN RESULTS Gas exchange and respiratory mechanics worsened over 24 hours, indicating lung injury progression. On Day 1, prone positioning reinflated 18.9% ± 5.2% of lung mass in the posterior lung regions. On Day 2, position-associated dorsal reinflation was reduced to 7.3% ± 1.5% (p < 0.05 vs Day 1). Prone positioning decreased aeration in the anterior lungs on both days. Although prone positioning improved posterior lung compliance in the early acute respiratory distress syndrome patients, it had no effect in late acute respiratory distress syndrome subjects. CONCLUSIONS The effects of prone positioning on lung aeration may depend on the stage of lung injury and duration of prior ventilation; this may limit the clinical efficacy of this treatment if applied late.
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