From the Departments of Anesthesiology and Critical Care Medicine.
Department of Critical Care Medicine, Rady Children's Hospital-San Diego, San Diego, CA.
Pediatr Emerg Care. 2021 Dec 1;37(12):e934-e939. doi: 10.1097/PEC.0000000000001821.
Ultrasonography is a portable, noninvasive tool that may be used to evaluate the upper airway. The purpose of our study was to present a systematic approach to identify salient features of the pediatric airway and determine whether ultrasonography can identify anatomical changes that occur with growth and development.
We present a prospective, observational trial where patients included were between 1 day and 10 years of age presenting for elective surgery who had no known history of unfavorable airway pathology. We sequentially obtained 5 ultrasound views under anesthesia: (1) sagittal sternal notch view of the trachea, (2) sagittal longitudinal view of trachea (LT), (3) axial view at the level of the vocal cords (AVC), (4) axial view at the level of the cricoid membrane (AC), and (5) sagittal longitudinal submental space view (SM). A broadband linear array transducer was used to identify airway structures and perform measurements.
Eighty-four percent of enrolled patients underwent airway imaging and were analyzed using multiple regression and Spearman correlation (ρ). In view 1, tracheal diameter via sagittal sternal notch view was immeasurable because of air disturbance. In the LT view, the distance from the skin to the cricothyroid membrane (LT1) did not statistically increase with age in days (P = 0.06); however, the distance from the cricoid to thyroid cartilage (LT2) did correlate to age (P < 0.001; 99% confidence interval [CI], 1.8 × 10-5, 7.7 × 10-5; ρ = 0.77, P = 0.001). We found a statistically significant relationship between age and the distance between the anterior and posterior commissures (AVC2; P < 0.001; 99% CI, 1.0 × 10-4, 1.7 × 10-4; ρ = 0.80, P < 0.001), the distance from the skin to the posterior commissure (AVC3; P < 0.001; 99% CI, 9.6 × 10-5, 2.0 × 10-4; ρ = 0.73, P < 0.001), the distance to the cricoid cartilage (AC; P < 0.001; 99% CI, 2.0 × 10-5, 7.7 × 10-5; ρ = 0.66, P < 0.001), and the distance from the tongue base to the soft palate (SM2; P < 0.001; 9% CI, 1.8 × 10-4, 3.9 × 10-4; ρ = 0.85, P < 0.001). There were no significant relationships between age and AVC1 (P = 0.16) and SM1 (P = 0.44).
Airway ultrasound is a feasible tool to evaluate the pediatric airway in children younger than 10 years; however, the detection of age-related changes of certain structures is limited to select measurements.
超声检查是一种便携、非侵入性的工具,可用于评估上呼吸道。本研究的目的是提出一种系统的方法来识别小儿气道的特征,并确定超声检查是否可以识别生长发育过程中发生的解剖结构变化。
我们进行了一项前瞻性、观察性试验,纳入了 1 天至 10 岁行择期手术且无已知不良气道病理的患者。我们在麻醉下依次获得 5 个超声图像:(1)胸骨切迹矢状位气管;(2)气管矢状位长轴(LT);(3)声带水平的轴向视图(AVC);(4)环状软骨膜水平的轴向视图(AC);(5)颏下矢状位长轴视图(SM)。使用宽带线性阵列换能器识别气道结构并进行测量。
84%的入组患者进行了气道成像,并使用多元回归和 Spearman 相关性(ρ)进行了分析。在视图 1 中,由于空气干扰,无法测量胸骨切迹矢状位的气管直径。在 LT 视图中,皮肤到环甲膜的距离(LT1)在天龄中没有统计学上的增加(P = 0.06);然而,环状软骨到甲状软骨的距离(LT2)与年龄相关(P < 0.001;99%置信区间[CI],1.8 × 10-5,7.7 × 10-5;ρ = 0.77,P = 0.001)。我们发现年龄与前-后联合之间的距离(AVC2;P < 0.001;99%CI,1.0 × 10-4,1.7 × 10-4;ρ = 0.80,P < 0.001)、皮肤到后联合的距离(AVC3;P < 0.001;99%CI,9.6 × 10-5,2.0 × 10-4;ρ = 0.73,P < 0.001)、到环状软骨的距离(AC;P < 0.001;99%CI,2.0 × 10-5,7.7 × 10-5;ρ = 0.66,P < 0.001)和舌骨基底到软腭的距离(SM2;P < 0.001;99%CI,1.8 × 10-4,3.9 × 10-4;ρ = 0.85,P < 0.001)之间存在显著的相关性。年龄与 AVC1(P = 0.16)和 SM1(P = 0.44)之间无显著相关性。
气道超声检查是一种可行的工具,可用于评估 10 岁以下儿童的小儿气道;然而,某些结构的年龄相关性变化的检测仅限于特定的测量。
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