超声测量声门下径及小儿气管导管型号选择的经验公式。

Ultrasound measurement of subglottic diameter and an empirical formula for proper endotracheal tube fitting in children.

机构信息

Department of Anaesthesiology and Pain Medicine, Anaesthesia and Pain Research Institute, Yonsei University College of Medicine, Seoul, Korea.

出版信息

Acta Anaesthesiol Scand. 2013 Oct;57(9):1124-30. doi: 10.1111/aas.12167. Epub 2013 Aug 2.

DOI:10.1111/aas.12167

PMID:23909603

Abstract

BACKGROUND

The appropriate endotracheal tube (ETT) size is commonly determined using age-based formula; ETT size determination based on ultrasound (US) measurement of subglottic diameter (SD), the narrowest portion of the paediatric upper airway, may provide a better method for accurate fit. We aimed to validate ETT size determination using US measures of SD before intubation to establish an empirical formula for ETT fitting based on SD and biographic parameters.

METHODS

We included 215 children aged 1-72 months undergoing general anaesthesia. US was performed on the anterior neck to measure SD during mask ventilation under anaesthesia. Endotracheal intubation was performed with a cuffed ETT selected by age-based recommendation; the transverse outer diameter (OD) of the ETT within the trachea at the subglottis level (OD-ETT at SD) was measured.

RESULTS

The OD-ETT at SD was correlated with the actual OD-ETT outside the trachea (R(2) = 0.635), showing the validity of ultrasonographic measurement; moreover, the US-measured SD revealed strong correlation with the actual OD-ETT (R(2) = 0.834). US-measured SD and biographic data (age, height and weight) showed little correlation in children less than 12 months but good correlation (age, height) in children older than 12 months (P < 0.01).

CONCLUSIONS

US-measured OD-ETT at SD was in good agreement with the actual OD-ETT, suggesting that US-measured SD helps in choosing the appropriate ETT diameter for children. In children older than 12 months, the equation 'OD (mm) = 0.01 × age (months) + 0.02 × height (cm) + 3.3' may help select the appropriate ETT.

摘要

背景

通常使用基于年龄的公式来确定合适的气管内管（ETT）大小；基于超声（US）测量声门下直径（SD），即小儿上呼吸道最窄部分，来确定 ETT 大小，可能是一种更准确的方法。我们旨在通过在插管前使用 US 测量 SD 来验证 ETT 大小的确定，以建立基于 SD 和生物参数的 ETT 拟合的经验公式。

方法

我们纳入了 215 名年龄在 1-72 个月之间的接受全身麻醉的儿童。在麻醉下进行面罩通气时，在颈部前侧进行 US 以测量 SD。使用基于年龄的建议选择带套囊的 ETT 进行气管内插管；测量声门下水平气管内 ETT 的横向外径（OD）（SD 处的 ETT 横径 OD-ETT）。

结果

SD 处的 OD-ETT 与实际气管外 OD-ETT 相关（R²=0.635），表明超声测量的有效性；此外，US 测量的 SD 与实际 OD-ETT 有很强的相关性（R²=0.834）。在 12 个月以下的儿童中，US 测量的 SD 与生物统计学数据（年龄、身高和体重）相关性较小，但在 12 个月以上的儿童中相关性良好（年龄、身高）（P <0.01）。

结论

US 测量的 SD 处的 OD-ETT 与实际 OD-ETT 非常吻合，表明 US 测量的 SD 有助于为儿童选择合适的 ETT 直径。在 12 个月以上的儿童中，公式“OD（mm）=0.01×年龄（月）+0.02×身高（cm）+3.3”可能有助于选择合适的 ETT。

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超声测量声门下径及小儿气管导管型号选择的经验公式。

Ultrasound measurement of subglottic diameter and an empirical formula for proper endotracheal tube fitting in children.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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