Background: – During general anesthesia, the effect of positive end-expiratory pressure (PEEP) on lung injury depends on the potential for lung recruitment, which is variable among patients. The recruitment-to-inflation ratio (R/I) is measured from ventilator data during a single-breath PEEP-release maneuver and has been proposed to assess recruitability without the need for additional equipment during acute respiratory distress syndrome. This study hypothesized that R/I reliably estimates the individual potential for lung recruitment during general anesthesia. Methods: – Twenty patients undergoing open abdominal surgery received mechanical ventilation with PEEP of 12 cm H2O for 30 min, which was then abruptly reduced to 2 cm H2O. Finally, a decremental PEEP trial was performed to measure collapse and overdistension at each level. Gas exchange, end-tidal carbon dioxide, respiratory mechanics by ventilator waveform analysis, regional overdistension and collapse by electrical impedance tomography, end-expiratory lung volume, and functional residual capacity by nitrogen dilution were measured. The R/I was calculated during the single-breath derecruitment maneuver from ventilator data. Results: – The R/I (median = 0.41, range = 0 to 0.86) was linearly correlated with recruited volume normalized to functional residual capacity measured by gas dilution (r = 0.48, slope = 0.27 [0.03, 0.52]), and recruited volume scaled to PEEP-induced inflation volume measured by tomography (r = 0.82, slope = 1.2 [0.77, 1.64]). Compared to patients with R/I of less than or equal to 0.40 (n = 10), those with R/I greater than 0.40 (n = 10) required higher PEEP to optimize regional mechanics and balance collapse and overdistension (median [quartile 1, quartile 3]: 10 [8, 11] cm H2O vs. 8 [7, 9]; P = 0.03) and showed decreases in dead space (−2 [−5, 1] % vs. 3 [0, 5]%; P = 0.013) and greater reductions in collapse (−44 [−31, −47] % vs. −30 [−20, −38]%; P = 0.016) and dynamic lung strain (−0.06 [−0.09, −0.05] vs. −0.04 [−0.05, −0.02]; P = 0.04) with higher PEEP. Conclusions: – During general anesthesia, the R/I reflects potential for lung recruitment. The R/I may help identify patients in whom higher PEEP improves physiology and may favor less injurious ventilation.
Rosa', T., Menga, L. S., Mastropietro, C., Settanni, D., Russo, A., Frassanito, L., Cascarano, L., Catarci, S., Delle Cese, L., Zanfini, B. A., Scaramuzzo, G., Dell'Anna, A. M., Spadaro, S., Antonelli, M., Grieco, D. L., Evaluation of the Potential for Lung Recruitment with the Recruitment-to-Inflation Ratio during General Anesthesia, <<ANESTHESIOLOGY>>, 2025; 143 (5): 1211-1224. [doi:10.1097/ALN.0000000000005677] [https://hdl.handle.net/10807/339961]
Evaluation of the Potential for Lung Recruitment with the Recruitment-to-Inflation Ratio during General Anesthesia
Rosa', Tommaso;Mastropietro, Claudia;Settanni, Donatella;Russo, Andrea;Frassanito, Luciano;Catarci, Stefano;Zanfini, Bruno Antonio;Dell'Anna, Antonio Maria;Antonelli, Massimo;Grieco, Domenico Luca
2025
Abstract
Background: – During general anesthesia, the effect of positive end-expiratory pressure (PEEP) on lung injury depends on the potential for lung recruitment, which is variable among patients. The recruitment-to-inflation ratio (R/I) is measured from ventilator data during a single-breath PEEP-release maneuver and has been proposed to assess recruitability without the need for additional equipment during acute respiratory distress syndrome. This study hypothesized that R/I reliably estimates the individual potential for lung recruitment during general anesthesia. Methods: – Twenty patients undergoing open abdominal surgery received mechanical ventilation with PEEP of 12 cm H2O for 30 min, which was then abruptly reduced to 2 cm H2O. Finally, a decremental PEEP trial was performed to measure collapse and overdistension at each level. Gas exchange, end-tidal carbon dioxide, respiratory mechanics by ventilator waveform analysis, regional overdistension and collapse by electrical impedance tomography, end-expiratory lung volume, and functional residual capacity by nitrogen dilution were measured. The R/I was calculated during the single-breath derecruitment maneuver from ventilator data. Results: – The R/I (median = 0.41, range = 0 to 0.86) was linearly correlated with recruited volume normalized to functional residual capacity measured by gas dilution (r = 0.48, slope = 0.27 [0.03, 0.52]), and recruited volume scaled to PEEP-induced inflation volume measured by tomography (r = 0.82, slope = 1.2 [0.77, 1.64]). Compared to patients with R/I of less than or equal to 0.40 (n = 10), those with R/I greater than 0.40 (n = 10) required higher PEEP to optimize regional mechanics and balance collapse and overdistension (median [quartile 1, quartile 3]: 10 [8, 11] cm H2O vs. 8 [7, 9]; P = 0.03) and showed decreases in dead space (−2 [−5, 1] % vs. 3 [0, 5]%; P = 0.013) and greater reductions in collapse (−44 [−31, −47] % vs. −30 [−20, −38]%; P = 0.016) and dynamic lung strain (−0.06 [−0.09, −0.05] vs. −0.04 [−0.05, −0.02]; P = 0.04) with higher PEEP. Conclusions: – During general anesthesia, the R/I reflects potential for lung recruitment. The R/I may help identify patients in whom higher PEEP improves physiology and may favor less injurious ventilation.
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