Journal of International Medical Research (Aug 2020)
Derecruitment volume assessment derived from pressure–impedance curves with electrical impedance tomography in experimental acute lung injury
Abstract
Objective To investigate the accuracy of derecruitment volume (V DER ) assessed by pressure–impedance (P-I) curves derived from electrical impedance tomography (EIT). Methods Six pigs with acute lung injury received decremental positive end-expiratory pressure (PEEP) from 15 to 0 in steps of 5 cmH 2 O. At the end of each PEEP level, the pressure–volume (P-V) curves were plotted using the low constant flow method and release maneuvers to calculate the V DER between the PEEP of setting levels and 0 cmH 2 O (V DER-PV ). The V DER derived from P-I curves that were recorded simultaneously using EIT was the difference in impedance at the same pressure multiplied by the ratio of tidal volume and corresponding tidal impedance (V DER-PI ). The regional P-I curves obtained by EIT were used to estimate V DER in the dependent and nondependent lung. Results The global lung V DER-PV and V DER-PI showed close correlations (r = 0.948, P<0.001); the mean difference was 48 mL with limits of agreement of −133 to 229 mL. Lung derecruitment extended into the whole process of decremental PEEP levels but was unevenly distributed in different lung regions. Conclusions P-I curves derived from EIT can assess V DER and provide a promising method to estimate regional lung derecruitment at the bedside.
