Effect of tension capnothorax on respiratory mechanics and individualized PEEP during robotic-assisted thoracic surgery: a prospective pilot observational study.

IF 2.9 3区医学 Q1 ANESTHESIOLOGY

Minerva anestesiologica Pub Date : 2025-03-31 DOI:10.23736/S0375-9393.24.18632-4

Álvaro Buñuel, Ricard Navarro-Ripoll, Stefano Italiano, Manuel López-Baamonde, Enric Barbeta, Robert Gatherer, Carlos Ferrando

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引用次数: 0

Abstract

Background: Tension capnothorax during robotic-assisted thoracic surgery (RATS) might promote intraoperative atelectasis, which predisposes to ventilation-induced lung injury (VILI). Lung-protective mechanical ventilation including recruitment maneuver (RM) and individualized positive-end expiratory pressure (iPEEP) minimizes VILI. This study examines the effects of capnothorax on respiratory mechanics (respiratory system compliance, Crs), and the potential differences in the iPEEP before-and-after capnothorax.

Methods: This is a prospective, observational pilot study enrolling patients scheduled for RATS using continuous tension capnothorax. The effects of capnothorax were analyzed with respiratory mechanics and volumetric capnography at different time points. The primary outcome were differences in Crs just before-and-after capnothorax. We also tested the iPEEP before-and-after capnothorax. After a RM, a PEEP titration trial was used to indentify the iPEEP.

Results: A total of 30 patients were included in the analysis. The application of capnothorax significantly impaired respiratory system mechanics, as shown by a decreased in Crs from 40 (7) to 21 (8) mL/cmH2O, P<0.001) and an increase in driving pressure (DP) from 8 (3) to 16 (5) cmH2O, P<0.001. A non-significantly increase was shown for dead spaces. RM + iPEEP significantly improved Crs from 21 (8) to 43 (8) mL/cmH2O and DP from 16 (5) to 8 (2) cmH2O (P<0.001). iPEEP before capnothorax was 6 (2) cmH2O, which increased to 12 (4) cmH2O, P<0.001 after it.

Conclusions: Tension capnothorax during RATS impairs respiratory system mechanics and increases iPEEP requirements to maintain an open-lung condition. Individualized PEEP after CO2 insufflation restores respiratory system mechanics and alveolar dead space.

查看原文本刊更多论文

机器人辅助胸外科手术中张力性capno胸对呼吸力学和个体化PEEP的影响：一项前瞻性试点观察研究。

背景：机器人辅助胸外科手术（RATS）中的张力性capno胸可能会促进术中肺不张，从而导致通气性肺损伤（VILI）。肺保护性机械通气包括复吸操作（RM）和个体化呼气末正压通气（iPEEP）可将VILI降至最低。本研究探讨了capno胸对呼吸力学（呼吸系统顺应性，Crs）的影响，以及capno胸前后iPEEP的潜在差异。方法：这是一项前瞻性、观察性的初步研究，纳入了计划使用持续张力性capno胸的大鼠患者。应用呼吸力学和容积容积造影分析不同时间点capno胸的效果。主要结果是capno胸前后Crs的差异。我们还测试了capno胸前后的iPEEP。RM后，正压滴定试验用于确定iPEEP。结果：共纳入30例患者。capno胸的应用显著损害了呼吸系统力学，Crs从40(7)降至21 (8)mL/cmH2O， P2O、P2O和DP从16(5)降至8 (2)cmH2O (P2O，增加至12 (4)cmH2O, P2O。结论：RATS期间张力性capno胸损害了呼吸系统力学，增加了维持开放肺状态的iPEEP需求。CO2注入后个体化PEEP可恢复呼吸系统力学和肺泡死腔。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Minerva anestesiologica 医学-麻醉学

CiteScore

4.50

自引率

21.90%

发文量

367

审稿时长

4-8 weeks

期刊介绍： Minerva Anestesiologica is the journal of the Italian National Society of Anaesthesia, Analgesia, Resuscitation, and Intensive Care. Minerva Anestesiologica publishes scientific papers on Anesthesiology, Intensive care, Analgesia, Perioperative Medicine and related fields. Manuscripts are expected to comply with the instructions to authors which conform to the Uniform Requirements for Manuscripts Submitted to Biomedical Editors by the International Committee of Medical Journal Editors.