一种可调流量调节阀在肺模型和健康志愿者中控制呼气流量的效果：一项联合台架和随机交叉研究。

Control of the expiratory flow in a lung model and in healthy volunteers with an adjustable flow regulator: a combined bench and randomized crossover study.

机构信息

Department of Anesthesiology and Critical Care, Medical Center - University of Freiburg, Faculty of Medicine, University of Freiburg, Hugstetter Str. 55, 79106, Freiburg, Germany.

Department of Anesthesia, Intensive Care and Pain Medicine, Medical Center of the German Accident Insurance Institution, Murnau, Germany.

出版信息

Respir Res. 2021 Nov 14;22(1):292. doi: 10.1186/s12931-021-01886-7.

DOI:10.1186/s12931-021-01886-7

PMID:34775965

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8590868/

Abstract

BACKGROUND

Pursed-lips breathing (PLB) is a technique to attenuate small airway collapse by regulating the expiratory flow. During mandatory ventilation, flow-controlled expiration (FLEX), which mimics the expiratory flow course of PLB utilizing a digital system for measurement and control, was shown to exert lung protective effects. However, PLB requires a patient's participation and coordinated muscular effort and FLEX requires a complex technical setup. Here, we present an adjustable flow regulator to mimic PLB and FLEX, respectively, without the need of a patient's participation, or a complex technical device.

METHODS

Our study consisted of two parts: First, in a lung model which was ventilated with standard settings (tidal volume 500 ml, respiratory rate 12 min, positive end-expiratory pressure (PEEP) 5 cmHO), the possible reduction of the maximal expiratory flow by utilizing the flow regulator was assessed. Second, with spontaneously breathing healthy volunteers, the short-term effects of medium and strong expiratory flow reduction on airway pressure, the change of end-expiratory lung volume (EELV), and breathing discomfort was investigated.

RESULTS

In the lung model experiments, expiratory flow could be reduced from - 899 ± 9 ml·s down to - 328 ± 25 ml·s. Thereby, inspiratory variables and PEEP were unaffected. In the volunteers, the maximal expiratory flow of - 574 ± 131 ml·s under baseline conditions was reduced to - 395 ± 71 ml·s for medium flow regulation and to - 266 ± 58 ml·s for strong flow regulation, respectively (p < 0.001). Accordingly, mean airway pressure increased from 0.6 ± 0.1 cmHO to 2.9 ± 0.4 cmHO with medium flow regulation and to 5.4 ± 2.4 cmHO with strong flow regulation, respectively (p < 0.001). The EELV increased from baseline by 31 ± 458 ml for medium flow regulation and 320 ± 681 ml for strong flow regulation (p = 0.033). The participants rated breathing with the flow regulator as moderately uncomfortable, but none rated breathing with the flow regulator as intolerable.

CONCLUSIONS

The flow regulator represents an adjustable device for application of a self-regulated expiratory resistive load, representing an alternative for PLB and FLEX. Future applications in spontaneously breathing patients and patients with mandatory ventilation alike may reveal potential benefits.

TRIAL REGISTRATION

DRKS00015296, registered on 20th August, 2018; URL: https://www.drks.de/drks_web/setLocale_EN.do .

摘要

背景

缩唇呼吸（PLB）是一种通过调节呼气流量来减轻小气道塌陷的技术。在强制通气期间，流量控制呼气（FLEX）利用数字系统进行测量和控制来模拟 PLB 的呼气流量过程，已被证明具有肺保护作用。然而，PLB 需要患者的参与和协调的肌肉用力，而 FLEX 需要复杂的技术设置。在这里，我们提出了一种可调流量调节器，分别模拟 PLB 和 FLEX，而无需患者参与或复杂的技术设备。

方法

我们的研究包括两部分：首先，在使用标准设置（潮气量 500ml，呼吸频率 12min，呼气末正压（PEEP）5cmHO）通气的肺模型中，评估利用流量调节器可能降低最大呼气流量。其次，在自主呼吸的健康志愿者中，研究中等到强呼气流量降低对气道压力、呼气末肺容积（EELV）变化和呼吸不适的短期影响。

结果

在肺模型实验中，呼气流量可从-899±9ml·s 降低至-328±25ml·s。因此，吸气变量和 PEEP 不受影响。在志愿者中，在基线条件下，最大呼气流量为-574±131ml·s，中等流量调节降至-395±71ml·s，强流量调节降至-266±58ml·s（p<0.001）。相应地，平均气道压力从中等流量调节时的 0.6±0.1cmHO 增加到 2.9±0.4cmHO，强流量调节时增加到 5.4±2.4cmHO（p<0.001）。EELV 从中等流量调节时的基线增加 31±458ml，强流量调节时增加 320±681ml（p=0.033）。参与者将带流量调节器的呼吸评为中度不适，但没有参与者将带流量调节器的呼吸评为无法忍受。