Department of Otolaryngology-Head and Neck Surgery, Hospital for Sick Children, Toronto, Ontario, Canada.
Otolaryngol Head Neck Surg. 2011 Feb;144(2):247-51. doi: 10.1177/0194599810392894. Epub 2011 Jan 4.
To explore whether hypoxic ventilation could allow a practical animal model of laryngotracheal injury secondary to endotracheal intubation.
Randomized controlled animal study.
Animal laboratory in a tertiary pediatric hospital.
Eight Sus scrofa piglets (15-18 kg) were anesthetized and intubated for 4 hours, with a 6-mm cuffed endotracheal tube. They were randomly assigned to either constant hypoxic ventilation (oxygen saturation under 70%) or nonhypoxic ventilation. Endotracheal tube cuff pressure was manually controlled and maintained at a constant level. After 4 hours, fluorescein dye was administered intravenously to highlight areas of hypoperfusion within the larynx. The animals were euthanized at the end of the procedure, and the larynx and trachea were harvested for gross and histological examination. The pathologist was blinded to the ventilation group. The severity of laryngeal injury was graded between 0 and 4 by a senior pathologist.
The experiment protocol was successfully completed in all animal subjects. The animals undergoing hypoxic ventilation showed a significantly higher median injury grade than the nonhypoxic animals (2 vs 1, respectively; P = .003). Damage was significantly worse in the hypoxic group at all anatomical sublevels.
Endotracheal tube-related laryngeal injury was demonstrated after only 4 hours of intubation using this animal model, and hypoxic ventilation increased the severity of injury. This study therefore provides an animal model that may be suitable for future investigation and prevention of intubation injury.
探索低氧通气是否可以建立一种实用的气管插管后喉气管损伤动物模型。
随机对照动物研究。
三级儿科医院的动物实验室。
8 头(15-18kg)小猪麻醉并插管 4 小时,使用 6mm 带套囊的气管导管。它们被随机分为低氧通气(氧饱和度低于 70%)或非低氧通气组。气管导管套囊压力由人工控制并保持在恒定水平。4 小时后,静脉内给予荧光素染料以突出喉部低灌注区域。在手术结束时处死动物,收获喉和气管进行大体和组织学检查。病理学家对通气组不知情。由一名资深病理学家对喉损伤的严重程度进行 0 至 4 级评分。
所有动物对象均成功完成实验方案。行低氧通气的动物显示出明显更高的中位数损伤等级(分别为 2 与 1;P=0.003)。在所有解剖亚级,低氧组的损伤明显更严重。
使用这种动物模型,仅在插管 4 小时后即可显示出与气管导管相关的喉损伤,并且低氧通气增加了损伤的严重程度。因此,本研究提供了一种可能适合未来插管损伤研究和预防的动物模型。
