Combes X, Jabre P, Amathieu R, Abdi W, Luis D, Sebbah J-L, Leroux B, Dhonneur G
Samu-Smur 94, département d'anesthésie-réanimation chirurgicale, hôpital Henri-Mondor, 51 avenue du Maréchal-de-Lattre-de-Tassigny, Créteil, France.
Ann Fr Anesth Reanim. 2011 Feb;30(2):113-6. doi: 10.1016/j.annfar.2010.11.016. Epub 2011 Feb 1.
The aim of this study was to assess airway management by emergency physicians in case of a simulated situation where intubation and ventilation were both impossible.
Observational manikin study.
A manikin (Airman®; Laerdal) allowing simulating difficult airway situations was used. The scenario assessed concerned a patient needing tracheal intubation for severe traumatic brain injury. The manikin was settled to make tracheal intubation under direct laryngoscopy impossible at the first attempt and to make facemask ventilation impossible after the second attempt. Manikin could initially be ventilated through the intubating laryngeal mask Airway (ILMA) but became impossible few seconds after its insertion. With impossible ventilation through the ILMA, arterial oxygen saturation decreased during 2 minutes before an hypoxic cardiac arrest occurred. Physicians could use classic laryngoscope with Macintosh blade, a Gum Elastic Bougie, an ILMA and a cricothyrotomy set. Adhesion to the national airway management algorithm was assessed. Time to cricothyroidotomy decision after ventilation through ILMA became impossible was measured.
Twenty-five emergency physicians were assessed. For 14 of them, national expert conference algorithm was perfectly followed. For ten physicians, cricothyroidotomy decision was taken after hypoxic cardiac arrest occurred.
Simulation with a manikin is useful to assess the adhesion rate to difficult intubation algorithms. Our study shows that the decision making process for cricothyrotomy is too often delayed as soon as ventilation became impossible and oxygenation compromized.
本研究旨在评估在模拟无法进行插管和通气的情况下,急诊医生的气道管理情况。
观察性人体模型研究。
使用了一种能够模拟困难气道情况的人体模型(Airman®;Laerdal)。所评估的场景涉及一名因严重创伤性脑损伤需要进行气管插管的患者。将人体模型设置为初次尝试直接喉镜下气管插管无法成功,且第二次尝试后面罩通气也无法进行。人体模型最初可通过插管型喉罩气道(ILMA)进行通气,但插入后几秒就无法通气了。在ILMA通气失败后,动脉血氧饱和度在缺氧性心脏骤停发生前的2分钟内下降。医生可以使用带麦金托什叶片的经典喉镜、弹性橡胶探条、ILMA和环甲膜切开套件。评估对国家气道管理算法的依从性。测量在ILMA通气失败后做出环甲膜切开决定的时间。
对25名急诊医生进行了评估。其中14人完全遵循了国家专家会议算法。10名医生在缺氧性心脏骤停发生后才做出环甲膜切开的决定。
使用人体模型进行模拟有助于评估对困难插管算法的依从率。我们的研究表明,一旦通气失败且氧合受损,环甲膜切开的决策过程往往会延迟。
