Cai Yuzhu, Zhang Lingli, Liu Xinghui, Sun Yingying
Department of Anesthesiology and Perioperative Medicine, Anhui Provincial Children's Hospital Hefei, Anhui, P.R. China.
Department of Anesthesiology and Perioperative Medicine, Anhui Provincial Children's Hospital Hefei, Anhui, P.R. China.
J Cardiothorac Vasc Anesth. 2025 Jul;39(7):1731-1737. doi: 10.1053/j.jvca.2025.03.014. Epub 2025 Mar 17.
To evaluate the accuracy and reliability of sternal notch sagittal ultrasound imaging for neonatal endotracheal tube positioning by comparing the ultrasound-measured distance from the endotracheal tube tip to the right pulmonary artery with the electronic bronchoscopy-measured distance from the endotracheal tube tip to the carina.
A prospective, single-center, observational study using a self-controlled design.
Department of Anesthesiology and Perioperative Medicine at Anhui Provincial Children's Hospital, Hefei, China.
Neonates undergoing endotracheal intubation under general anesthesia for both elective and urgent surgeries were included, with all intubations performed in the operating room.
Neonates were evaluated for endotracheal tube position using both electronic bronchoscopy and ultrasound in the median sagittal plane at the sternal notch.
The distance from the endotracheal tube tip to the right pulmonary artery was measured using ultrasound imaging. The distance from the endotracheal tube tip to the carina was measured using electronic bronchoscopy. A high linear correlation was found between the two methods (r = 0.899, p < 0.001). The internal consistency of the three ultrasound measurements was high (Cronbach alpha = 0.985, ICC = 0.985). The precision of ultrasound measurements varied with endotracheal tube size, showing improved consistency with larger tube diameters. The mean absolute deviation (MAD) was 0.18 mm for the 2.5-mm ETT, 0.14 mm for the 3.0-mm ETT, and 0.12 mm for the 3.5-mm ETT, with corresponding coefficient of variation values of 5.60%, 4.50%, and 4.20%, respectively. No adverse events were observed during the ultrasound examination, whereas the incidence of hypoxemia during the electronic bronchoscopy examination was 18.4% (p < 0.001). In terms of operation time, the electronic bronchoscopy examination took (15.43 ± 4.34) seconds, while the ultrasound examination took (10.25 ± 4.27) seconds, with a significant difference between the two methods (p < 0.001).
Sternal notch sagittal ultrasound imaging shows highly consistent measurement results with electronic bronchoscopy for assessing the position of the endotracheal tube in neonates. Additionally, sternal notch sagittal ultrasound is safer and non-invasive, making it a viable alternative method for endotracheal tube positioning in neonates under general anesthesia, with significant clinical application value.
通过比较超声测量的气管导管尖端至右肺动脉的距离与电子支气管镜测量的气管导管尖端至隆突的距离,评估胸骨上切迹矢状面超声成像用于新生儿气管导管定位的准确性和可靠性。
一项采用自身对照设计的前瞻性、单中心观察性研究。
中国合肥安徽省儿童医院麻醉与围手术期医学科。
纳入接受择期和急诊手术全身麻醉下气管插管的新生儿,所有插管均在手术室进行。
在胸骨上切迹正中矢状面使用电子支气管镜和超声对新生儿气管导管位置进行评估。
使用超声成像测量气管导管尖端至右肺动脉的距离。使用电子支气管镜测量气管导管尖端至隆突的距离。两种方法之间存在高度线性相关性(r = 0.899,p < 0.001)。三次超声测量的内部一致性较高(Cronbach α = 0.985,组内相关系数ICC = 0.985)。超声测量的精度随气管导管尺寸而异,较大管径的一致性更好。2.5毫米气管导管的平均绝对偏差(MAD)为0.18毫米,3.0毫米气管导管为0.1毫米,3.5毫米气管导管为0.12毫米,相应的变异系数值分别为5.60%、4.50%和4.20%。超声检查期间未观察到不良事件,而电子支气管镜检查期间低氧血症的发生率为18.4%(p < 0.001)。在操作时间方面,电子支气管镜检查耗时(15.43 ± 4.34)秒,而超声检查耗时(10.25 ± 4.27)秒,两种方法之间存在显著差异(p < 0.001)。
胸骨上切迹矢状面超声成像在评估新生儿气管导管位置方面与电子支气管镜显示出高度一致的测量结果。此外,胸骨上切迹矢状面超声更安全且无创,使其成为全身麻醉下新生儿气管导管定位的一种可行替代方法,具有显著的临床应用价值。
