Proof-of-concept study of compartmentalized lung ventilation using system for asymmetric flow regulation (SAFR).

Igor Barjaktarevic, Glen Meyerowitz, Onike Williams, I Obi Emeruwa, Nir Hoftman
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Abstract

Asymmetrical distribution of acute lung injury in mechanically ventilated patients can result in a heterogeneity of gas distribution between different regions, potentially worsening ventilation-perfusion matching. Furthermore, overdistension of healthier, more compliant lung regions can lead to barotrauma and limit the effect of increased PEEP on lung recruitment. We propose a System for Asymmetric Flow Regulation (SAFR) which, combined with a novel double lumen endobronchial tube (DLT) may offer individualized lung ventilation to the left and right lungs, better matching each lung's mechanics and pathophysiology. In this preclinical experimental model, the performance of SAFR on gas distribution in a two-lung simulation system was tested. Our results indicate that SAFR may be a technically feasible and potentially clinically useful although further research is warranted.

Abstract Image

Abstract Image

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非对称流量调节系统(SAFR)的分区肺通气概念验证研究。
机械通气患者急性肺损伤的不对称分布可导致不同区域间气体分布的不均匀性,可能使通气-灌注匹配恶化。此外,更健康、更适应的肺区域的过度扩张可导致气压损伤,并限制PEEP增加对肺再循环的影响。我们提出了一种不对称流量调节系统(SAFR),该系统与新型双腔支气管内管(DLT)相结合,可以为左右肺提供个性化的肺通气,更好地匹配每个肺的力学和病理生理。在这个临床前实验模型中,测试了SAFR对两肺模拟系统中气体分布的影响。我们的研究结果表明,尽管需要进一步的研究,但SAFR在技术上是可行的,并且具有潜在的临床应用价值。
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