不同界面在小儿压力支持通气期间对同步性的影响:一项实验台研究
Influence of different interfaces on synchrony during pressure support ventilation in a pediatric setting: a bench study.
作者信息
Conti Giorgio, Gregoretti Cesare, Spinazzola Giorgia, Festa Olimpia, Ferrone Giuliano, Cipriani Flora, Rossi Marco, Piastra Marco, Costa Roberta
机构信息
Institute of Anesthesiology and Intensive Care and Pediatric ICU, Policlinico A Gemelli, Catholic University, Rome, Italy.
Post Anesthesia Care Unit, Pain Service, M Adelaide Hospital, Emergency and Intensive Care, Turin, Italy.
出版信息
Respir Care. 2015 Apr;60(4):498-507. doi: 10.4187/respcare.03309. Epub 2015 Jan 20.
BACKGROUND
In adults and children, patient-ventilator synchrony is strongly dependent on both the ventilator settings and interface used in applying positive pressure to the airway. The aim of this bench study was to determine whether different interfaces and ventilator settings may influence patient-ventilator interaction in pediatric models of normal and mixed obstructive and restrictive respiratory conditions.
METHODS
A test lung, connected to a pediatric mannequin using different interfaces (endotracheal tube [ETT], face mask, and helmet), was ventilated in pressure support ventilation mode testing 2 ventilator settings (pressurization time [Timepress]50%/cycling-off flow threshold [Trexp]25%, Timepress80%/Trexp60%), randomly applied. The test lung was set to simulate one pediatric patient with a healthy respiratory system and another with a mixed obstructive and restricted respiratory condition, at different breathing frequencies (f) (30, 40, and 50 breaths/min). We measured inspiratory trigger delay, pressurization time, expiratory trigger delay, and time of synchrony.
RESULTS
At each breathing frequency, the helmet showed the longest inspiratory trigger delay compared with the ETT and face mask. At f30, the ETT had a reduced Tpress. The helmet had the shortest Tpress in the simulated child with a mixed obstructive and restricted respiratory condition, at f40 during Timepress50%/Trexp25% and at f50 during Timepress80%/Trexp60%. In the simulated child with a normal respiratory condition, the ETT presented the shortest Tpress value at f50 during Timepress80%/Trexp60%. Concerning the expiratory trigger delay, the helmet showed the best interaction at f30, but the worst at f40 and at f50. The helmet showed the shortest time of synchrony during all ventilator settings.
CONCLUSIONS
The choice of the interface can influence patient-ventilator synchrony in a pediatric model breathing at increased f, thus making it more difficult to set the ventilator, particularly during noninvasive ventilation. The helmet demonstrated the worst interaction, suggesting that the face mask should be considered as the first choice for delivering noninvasive ventilation in a pediatric model.
背景
在成人和儿童中,患者与呼吸机的同步性在很大程度上取决于呼吸机设置以及用于向气道施加正压的接口。本实验研究的目的是确定在正常、混合性阻塞性和限制性呼吸状况的儿科模型中,不同的接口和呼吸机设置是否会影响患者与呼吸机的相互作用。
方法
使用不同接口(气管内插管[ETT]、面罩和头盔)连接到儿科人体模型的测试肺,在压力支持通气模式下进行通气,测试2种呼吸机设置(增压时间[Timepress]50%/呼气切换流量阈值[Trexp]25%,Timepress80%/Trexp60%),随机应用。测试肺被设置为模拟一名呼吸系统健康的儿科患者和另一名患有混合性阻塞性和限制性呼吸状况的患者,在不同呼吸频率(f)(30、40和50次/分钟)下进行测试。我们测量了吸气触发延迟、增压时间、呼气触发延迟和同步时间。
结果
在每个呼吸频率下,与ETT和面罩相比,头盔显示出最长的吸气触发延迟。在f30时,ETT的Tpress缩短。在模拟患有混合性阻塞性和限制性呼吸状况的儿童中,头盔在Timepress50%/Trexp25%时f40以及Timepress80%/Trexp60%时f50时具有最短的Tpress。在模拟呼吸系统正常的儿童中,在Timepress80%/Trexp60%时f50时,ETT呈现出最短的Tpress值。关于呼气触发延迟,头盔在f30时显示出最佳的相互作用,但在f40和f50时最差。在所有呼吸机设置期间,头盔显示出最短的同步时间。
结论
接口的选择会影响在增加的f下呼吸的儿科模型中的患者与呼吸机同步性,从而使设置呼吸机更加困难,尤其是在无创通气期间。头盔显示出最差的相互作用,这表明在儿科模型中进行无创通气时,面罩应被视为首选。
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