Electrical impedance tomography: A compass for the safe route to optimal PEEP

医学 呼气末正压 通风(建筑) 电阻抗断层成像 到期 断层摄影术 放射科 内科学 呼吸系统 物理 热力学
作者
Nicolò Sella,Tommaso Pettenuzzo,Francesco Zarantonello,Giulio Andreatta,Alessandro De Cassai,Chiara Schiavolin,Caterina Simoni,Laura Pasin,Annalisa Boscolo,Paolo Navalesi
出处
期刊:Respiratory Medicine [Elsevier BV]
卷期号:187: 106555-106555 被引量:37
标识
DOI:10.1016/j.rmed.2021.106555
摘要

Setting the proper level of positive end-expiratory pressure (PEEP) is a cornerstone of lung protective ventilation. PEEP keeps the alveoli open at the end of expiration, thus reducing atelectrauma and shunt. However, excessive PEEP may contribute to alveolar overdistension. Electrical impedance tomography (EIT) is a non-invasive bedside tool that monitors in real-time ventilation distribution. Aim of this narrative review is summarizing the techniques for EIT-guided PEEP titration, while providing useful insights to enhance comprehension on advantages and limits of EIT for current and future users. EIT detects thoracic impedance to alternating electrical currents between pairs of electrodes and, through the analysis of its temporal and spatial variation, reconstructs a two-dimensional slice image of the lung depicting regional variation of ventilation and perfusion. Several EIT-based methods have been proposed for PEEP titration. The first described technique estimates the variations of regional lung compliance during a decremental PEEP trial, after lung recruitment. The optimal PEEP value is represented by the best compromise between lung collapse and overdistension. Later on, a second technique assessing alveolar recruitment by variation of the end-expiratory lung impedance was validated. Finally, the global inhomogeneity index and the regional ventilation delay, two EIT-derived parameters, showed promising results selecting the optimal PEEP value as the one that presents the lowest global inhomogeneity index or the lowest regional ventilation delay. In conclusion EIT represents a promising technique to individualize PEEP in mechanically ventilated patients. Whether EIT is the best technique for this purpose and the overall influence of personalizing PEEP on clinical outcome remains to be determined.

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