Department of Otolaryngology-Head and Neck Surgery, University of Toronto, The Hospital for Sick Children, Toronto, Ontario, Canada.
Laryngoscope. 2013 Nov;123(11):2742-8. doi: 10.1002/lary.24069. Epub 2013 Apr 1.
OBJECTIVES/HYPOTHESIS: To test whether a simple inexpensive device that dynamically minimizes endotracheal cuff pressure throughout the respiratory cycle reduces endotracheal cuff pressure-related subglottic injury.
Hypoxic animal model with one control and one experimental group.
Twelve S. scrofa domesticus piglets (14-16 kg) were intubated with standard endotracheal tubes and maintained in a hypoxic state to accelerate airway injury. Animals in the control group (n = 6) were ventilated with a constant pressure of 20 cm H₂O in the endotracheal tube cuff. Animals in the experimental group (n = 6) were ventilated using a custom-designed circuit that altered the pressure in the endotracheal tube cuff in synchrony with the ventilatory cycle. Larynges were harvested at the end of the experiment and examined histologically to determine the degree of airway injury induced by the endotracheal cuff.
Animals in the experimental group suffered significantly less airway damage than those in the control group. The differences were seen primarily in the subglottis (aggregate damage score 6.5 vs. 12, P <0.05), where the experimental endotracheal tube cuff exerted the least pressure. There was no difference in damage to the glottic or supraglottic structures.
A simple, reliable, and inexpensive means of modulating endotracheal tube cuff pressure with the ventilatory cycle led to a substantial decrease in airway injury in our animal model. Such reduction in cuff pressure may prove important for humans, particularly those in intensive care units who tend to have underlying conditions predisposing them to tracheal damage from the endotracheal tube cuff.
目的/假设:测试一种简单且经济的设备,该设备可在整个呼吸周期内动态将气管内套囊压力最小化,从而减少与气管内套囊压力相关的声门下损伤。
缺氧动物模型,有一个对照组和一个实验组。
对 12 只 14-16 公斤的家猪(S. scrofa domesticus)进行气管插管,并使其处于缺氧状态,以加速气道损伤。对照组(n = 6)的动物在气管内套囊内以 20cmH₂O 的恒定压力进行通气。实验组(n = 6)的动物使用定制的回路进行通气,该回路根据通气周期同步改变气管内套囊的压力。实验结束时采集喉头进行组织学检查,以确定气管内套囊引起的气道损伤程度。
实验组动物的气道损伤明显小于对照组。差异主要见于声门下区(总损伤评分 6.5 对 12,P <0.05),实验组气管内套囊的压力最小。声门或声门上结构的损伤无差异。
一种简单、可靠且经济的方法,通过通气周期来调节气管内套囊压力,可显著减少我们动物模型中的气道损伤。这种套囊压力的降低可能对人类,特别是那些有基础疾病、易发生气管导管套囊致气道损伤的重症监护病房患者非常重要。
