Department of Anaesthesiology and Intensive Care Medicine, University Witten/Herdecke, Medical Centre Cologne-Merheim, Cologne, Germany.
Department of Anaesthesiology and Intensive Care Medicine, Medical Centre, University of Freiburg, Faculty of Medicine, Freiburg, Germany.
Anaesthesia. 2019 Dec;74(12):1563-1571. doi: 10.1111/anae.14815. Epub 2019 Aug 25.
Dental trauma is a common complication of tracheal intubation. As existing evidence is insufficient to validly assess the impact of different laryngoscopy techniques on the incidence of dental trauma, the force exerted onto dental structures during tracheal intubation was investigated. An intubation manikin was equipped with hidden force sensors in all maxillary incisors. Dental force was measured while 104 anaesthetists performed a series of tracheal intubations using direct laryngoscopy with a Macintosh blade, and videolaryngoscopy with a C-MAC , or the hyperangulated GlideScope or KingVision laryngoscopes in both normal and difficult airway conditions. A total of 624 tracheal intubations were analysed. The median (IQR [range]) peak force of direct laryngoscopy in normal airways was 21.1 (14.0-32.8 [2.3-127.6]) N and 29.3 (17.7-44.8 [3.3-97.2]) N in difficult airways. In normal airways, these were lower with the GlideScope and KingVision hyperangulated laryngoscopes, with a reduction of 4.6 N (p = 0.006) and 10.9 N (p < 0.001) compared with direct laryngoscopy, respectively. In difficult airways, these were lower with the GlideScope and KingVision hyperangulated laryngoscopes, with a reduction of 9.8 N (p < 0.001) and 17.6 N (p < 0.001) compared with direct laryngoscopy, respectively. The use of the C-MAC did not have an impact on the median peak force. Although sex of anaesthetists did not affect peak force, more experienced anaesthetists generated a higher peak force than less experienced providers. We conclude that hyperangulated videolaryngoscopy was associated with a significantly decreased force exerted on maxillary incisors and might reduce the risk for dental injury in clinical settings.
牙科创伤是气管插管的常见并发症。由于现有证据不足以有效评估不同喉镜技术对牙科创伤发生率的影响,因此研究了气管插管过程中施加在牙科结构上的力。在一个插管模型上,所有上颌切牙都配备了隐藏的力传感器。当 104 名麻醉师在正常和困难气道条件下分别使用直接喉镜(Macintosh 叶片)、视频喉镜(C-MAC)、超角度 GlideScope 或 KingVision 喉镜进行一系列气管插管时,测量了牙科力。共分析了 624 次气管插管。正常气道下直接喉镜的中位(IQR [范围])峰值力为 21.1(14.0-32.8 [2.3-127.6])N,困难气道下为 29.3(17.7-44.8 [3.3-97.2])N。在正常气道中,GlideScope 和 KingVision 超角度喉镜的峰值力较低,与直接喉镜相比分别降低了 4.6 N(p = 0.006)和 10.9 N(p < 0.001)。在困难气道中,GlideScope 和 KingVision 超角度喉镜的峰值力较低,与直接喉镜相比分别降低了 9.8 N(p < 0.001)和 17.6 N(p < 0.001)。C-MAC 的使用对中位峰值力没有影响。尽管麻醉师的性别不会影响峰值力,但经验更丰富的麻醉师产生的峰值力高于经验较少的麻醉师。我们的结论是,超角度视频喉镜可显著降低上颌切牙所受的力,可能会降低临床牙科损伤的风险。
