Videolaryngoscopy vs. direct laryngoscopy for tracheal intubation by experienced anaesthetists: a meta-analysis and trial sequential analysis of randomised controlled trials

IF 7.5 1区 医学 Q1 ANESTHESIOLOGY
Anaesthesia Pub Date : 2024-10-21 DOI:10.1111/anae.16448
Clístenes C. de Carvalho, Idrys H. L. Guedes, Maria V. M. Dantas, Kariem El-Boghdadly
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We aimed to establish whether videolaryngoscopy increases the likelihood of a successful first tracheal intubation attempt and/or reduces the risk of oesophageal intubation and hypoxia when tracheal intubation is attempted by experienced anaesthetists, where high levels of competence with direct laryngoscopes might reduce the advantages of videolaryngoscopes.</p><p>This analysis was based on data from a systematic review, whose protocol was registered prospectively. We included randomised clinical trials that enrolled patients aged ≥ 16 y having elective surgery with tracheal intubation using either videolaryngoscopy or direct laryngoscopy performed by anaesthetists. Studies that involved anaesthesia trainees, anaesthesia associates and medical students were not included. Our primary outcome was rate of first attempt tracheal intubation success. We also assessed rates of oesophageal intubation and hypoxia. 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引用次数: 0

Abstract

There is compelling evidence to support the superiority of videolaryngoscopes over direct laryngoscopes for several adult tracheal intubation outcomes [1-3]. However, questions remain regarding this superiority in certain scenarios [4], including whether the results apply to experienced anaesthetists. We aimed to establish whether videolaryngoscopy increases the likelihood of a successful first tracheal intubation attempt and/or reduces the risk of oesophageal intubation and hypoxia when tracheal intubation is attempted by experienced anaesthetists, where high levels of competence with direct laryngoscopes might reduce the advantages of videolaryngoscopes.

This analysis was based on data from a systematic review, whose protocol was registered prospectively. We included randomised clinical trials that enrolled patients aged ≥ 16 y having elective surgery with tracheal intubation using either videolaryngoscopy or direct laryngoscopy performed by anaesthetists. Studies that involved anaesthesia trainees, anaesthesia associates and medical students were not included. Our primary outcome was rate of first attempt tracheal intubation success. We also assessed rates of oesophageal intubation and hypoxia. A trial sequential analysis was conducted to assess the risk of random error from subsequent meta-analyses for our main outcome.

In total, we included 120 studies comprising 12,954 patients. The overall risk of bias was generally categorised as either ‘some concerns’ or ‘high’, due primarily to outcome measurement or incomplete reporting (online Supporting Information Figure S1).

For tracheal intubation first-pass success, we included 117 studies evaluating 12,804 patients. There were varying levels of experience with devices across the studies. Videolaryngoscopy increased the likelihood of success during the first tracheal intubation attempt significantly (relative risk (95%CI) 1.05 (1.02–1.08), p < 0.001, Table 1). The rate of success during a first tracheal intubation attempt was estimated at 90.1% (95%CI 87.7–92.1%) with direct laryngoscopy and 95.3% (93.6–96.6%) with videolaryngoscopy. Further information can be found in the online Supporting Information Figure S2. Publication bias was assessed using the small sample bias approach (online Supporting Information Figure S3), and Egger's test showed a significant asymmetry (p < 0.001). The overall quality of evidence was judged low due to risk of publication bias and inconsistency. Trial sequential analysis indicated that the available data cannot exclude a type 1 error, and thus more information may still be required (Fig. 1).

For oesophageal intubation, we included 10 studies, with videolaryngoscopy reducing the risk of oesophageal intubation significantly (relative risk (95%CI) 0.33 (0.14–0.76), p = 0.015, Table 1). The quality of the evidence was considered moderate due to imprecision. For hypoxia, we included 10 studies. We did not detect significant differences between videolaryngoscopy and direct laryngoscopy for this outcome (Table 1), and the quality of evidence was low due to relevant imprecision.

Broadly, our results are consistent with available evidence supporting the superior rate of first-pass tracheal intubation success of videolaryngoscopy compared with direct laryngoscopy [1-3]. Even in scenarios where the value of videolaryngoscopy might be questioned, namely in the hands of experienced clinicians who are already skilled with direct laryngoscopy, these devices still showed a significant increase in the chance of first tracheal intubation attempt success.

It is important to note the significant variability in study results, highlighting the possibility that the superiority of videolaryngoscopy may not always hold true. Two characteristics that may partially explain this heterogeneity are the diverse types of devices used and the varying levels of expertise with video-assisted devices.

We must acknowledge the low certainty of the evidence which is due to publication bias and inconsistency. When viewed in isolation, this evidence may not seem robust enough to recommend the routine use of videolaryngoscopes by experienced anaesthetists. However, our results are in keeping with the overall trend, providing additional support for the superior efficacy of videolaryngoscopes over direct laryngoscopes. Therefore, it is reasonable to challenge the scepticism about whether videolaryngoscopy improves outcomes when used by experienced anaesthetists.

It is logical to assume that if an intervention can improve tracheal intubation efficacy, it would also reduce the risk of complications. As anticipated, our findings indicate that videolaryngoscopy significantly reduces the risk of oesophageal intubation compared with direct laryngoscopy. However, no significant difference was observed between the two interventions regarding incidence of hypoxia. This lack of statistically significant difference does not imply equivalence and may reflect lack of power in our analysis.

Collectively, the evidence supports the superiority of videolaryngoscopy in improving patient outcomes [1-3]. Even in scenarios where videolaryngoscopes might be deemed less valuable [4], our results still show enhanced efficacy and safety with an increased likelihood of successful first tracheal intubation attempts and a reduced risk of oesophageal intubation. As highlighted elsewhere [1, 5, 6], the focus might shift away from the specific operator towards identifying which video-assisted devices perform best in specific scenarios. However, we acknowledge that further studies are necessary.

In conclusion, videolaryngoscopy appears to improve tracheal intubation efficacy and safety in adult patients by increasing the chance of first-pass success and reducing the risk of oesophageal intubation during elective procedures performed by experienced anaesthetists, but with moderate or low certainty.

Abstract Image

由经验丰富的麻醉师进行气管插管的视频喉镜检查与直接喉镜检查:随机对照试验的荟萃分析和试验顺序分析。
有令人信服的证据表明,在一些成人气管插管结果方面,视频喉镜优于直接喉镜[1-3]。然而,在某些情况下这种优越性仍存在疑问[4],包括这些结果是否适用于经验丰富的麻醉师。我们的目的是确定在经验丰富的麻醉师尝试气管插管时,视频喉镜是否会增加首次气管插管成功的可能性和/或降低食道插管和缺氧的风险,因为经验丰富的麻醉师使用直接喉镜的能力较高,可能会降低视频喉镜的优势。我们纳入了一些随机临床试验,这些试验招募了年龄≥ 16 岁的择期手术患者,由麻醉师使用视频喉镜或直接喉镜进行气管插管。涉及麻醉受训人员、麻醉助理人员和医科学生的研究未包括在内。我们的主要结果是首次尝试气管插管的成功率。我们还评估了食道插管率和缺氧率。我们进行了一项试验序列分析,以评估后续荟萃分析对主要结果产生随机误差的风险。总体偏倚风险一般被归类为 "值得关注 "或 "较高",主要原因是结果测量或报告不完整(在线辅助信息图 S1)。对于气管插管首次成功率,我们纳入了 117 项研究,共评估了 12,804 名患者。这些研究对设备的使用经验各不相同。视频喉镜显著增加了首次气管插管成功的可能性(相对风险(95%CI)为 1.05 (1.02-1.08),p &lt; 0.001,表 1)。首次尝试气管插管的成功率估计为:直接喉镜检查 90.1%(95%CI 87.7-92.1%),视频喉镜检查 95.3%(93.6-96.6%)。更多信息请参见在线辅助信息图 S2。采用小样本偏倚法评估了发表偏倚(在线佐证资料图 S3),Egger 检验显示存在显著的不对称性(p &lt; 0.001)。由于存在发表偏倚和不一致的风险,证据的总体质量被判定为低。对于食道插管,我们纳入了 10 项研究,其中视频喉镜可显著降低食道插管的风险(相对风险 (95%CI) 0.33 (0.14-0.76),p = 0.015,表 1)。由于不精确,证据质量被视为中等。在缺氧方面,我们纳入了 10 项研究。总体而言,我们的研究结果与支持视频喉镜与直接喉镜相比具有更高的首次气管插管成功率的现有证据一致[1-3]。即使在视频喉镜的价值可能受到质疑的情况下,即在已经熟练掌握直接喉镜检查的经验丰富的临床医生手中,这些设备仍能显著提高首次气管插管成功的几率。我们必须承认,由于发表偏倚和不一致,证据的确定性很低。如果孤立地看,这些证据似乎不够有力,不足以建议有经验的麻醉师常规使用视频喉镜。然而,我们的研究结果与总体趋势一致,为视频喉镜优于直接喉镜提供了更多支持。因此,我们有理由对有经验的麻醉师使用视频咽喉镜是否能提高疗效的怀疑提出质疑。正如预期的那样,我们的研究结果表明,与直接喉镜检查相比,视频喉镜检查能显著降低食道插管的风险。然而,在缺氧发生率方面,两种干预方法没有明显差异。 总体而言,有证据表明视频喉镜在改善患者预后方面更具优势[1-3]。即使在视频喉镜可能被认为价值较低的情况下[4],我们的结果仍显示出更高的有效性和安全性,首次气管插管成功的可能性增加,食道插管的风险降低。正如其他地方强调的那样[1, 5, 6],重点可能会从特定操作者转移到确定哪些视频辅助设备在特定情况下表现最佳。总之,在由经验丰富的麻醉师实施的择期手术中,视频喉镜似乎可以提高气管插管的有效性和安全性,增加首次插管成功的几率,降低食管插管的风险,但确定性为中等或较低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Anaesthesia
Anaesthesia 医学-麻醉学
CiteScore
21.20
自引率
9.30%
发文量
300
审稿时长
6 months
期刊介绍: The official journal of the Association of Anaesthetists is Anaesthesia. It is a comprehensive international publication that covers a wide range of topics. The journal focuses on general and regional anaesthesia, as well as intensive care and pain therapy. It includes original articles that have undergone peer review, covering all aspects of these fields, including research on equipment.
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