Dear Editor,

Airway evaluation is a critical part of preoperative assessment. Classical bedside airway examinations include Mallampati scoring, thyromental and sternomental distances, as well as mouth opening. However, these physical assessments on their own lack the power to effectively predict cases of difficult intubation and just 50% of difficult airways are anticipated.¹1 Baker P. Assessment before airway management. Anesthesiol Clin. 2015;33:257-78.

Point of Care Ultrasound (POCUS) provides the potential for more predictive airway assessment and is a useful tool for mitigating the risk of unanticipated difficult airway. It is quick and inexpensive, portable, and does not expose the patient to the radiation of other imaging tests.²2 Alessandri F, Antenucci G, Piervincenzi E, et al. Ultrasound as a new tool in the assessment of airway difficulties: an observational study. Eur J Anaesthesiol. 2019;36:509-15. Various airway measurements have been investigated as predictors for difficult intubation, including measurements of the hyomental distance and multiple measurements of the soft tissue of the anterior neck, including the Skin to Epiglottis Distance (STED).²2 Alessandri F, Antenucci G, Piervincenzi E, et al. Ultrasound as a new tool in the assessment of airway difficulties: an observational study. Eur J Anaesthesiol. 2019;36:509-15. Patients with difficult airways have consistently larger STED.³3 Carsetti A, Sorbello M, Adrario E, et al. Airway ultrasound as predictor of difficult direct laryngoscopy: a systematic review and meta-analysis. Anesth Analg. 2022;134:740-50. Given that the evidence suggests STED is beneficial at predicting difficult airway, the purpose of this study was to assess whether there is a significant change in that measurement in patients undergoing surgery under general anesthesia with placement of an Endotracheal Tube (ETT) or Supraglottic Airway (SGA). ETT has been shown to cause postoperative laryngeal edema which may have effects on the STED and clinical implications in the scenario when a patient fails an extubation trial and needs to be reintubated.⁴4 Matsushita H, Shirozu K, Umehara K, et al. Association of an electromyographic tube for severe postoperative laryngeal edema and reintubation in neurosurgery: a retrospective study. J Anesth. 2021;35:611-6.

This observational study was conducted at the George Washington University Hospital from June 2022 to July 2022. A series of 46 adult patients scheduled for elective surgery requiring general anesthesia were prospectively enrolled. Informed consent was obtained prior to enrollment in the study. Patients underwent a variety of surgical procedures, and 39 patients received general anesthesia with an ETT, while 7 had an SGA for airway management. Exclusion criteria included patients undergoing or with history of any surgery that would involve the neck or airway, including facial, thyroid, pharyngeal or tracheal, or cervical spine, to name a few.

Ultrasound assessment was first conducted in the preoperative area using a portable ultrasound machine (Sonosite X-Porte Ultrasound System). The patient was placed supine with his/her neck in a neutral position. A high-frequency linear probe was placed in the transverse plane at the level of the thyrohyoid membrane, and measurements were taken from the skin to the deepest, posterior aspect of the epiglottis. The same procedure was repeated in the postoperative area, following extubation. Pre- and postoperative measurements for each patient were completed by a single researcher to ensure consistent technique and interrater reliability.

Additional intraoperative data was collected including length of intubation, intravenous (IV) fluid received, intraoperative positioning, as well as patient demographics (age, sex, and BMI).

In patients who had general anesthesia with an ETT or SGA, the net change in STED was 14.03 ± 17.19%. A multitude of variables were considered and compared, as shown in Table 1. When separating ETT and SGA cases the net change in STED was 14.85 ± 17.71% and 9.46 ± 14.20%, respectively. For men and women, the percent change was 11.52 ± 9.92% and 15.64 ± 20.58%, respectively.

For surgeries in which an ETT was in place for < 120 minutes or ≥ 120 minutes, the percent change in STED was 10.98 ± 12.48% and 17.03 ± 20.15%, respectively. For patients with BMI < 30 or ≥ 30, the percent change was 16.30±16.78% and 10.48±17.70%, respectively. For patients receiving < 1000 cc of intraoperative fluid or ≥ 1000 cc, the percent change was 11.12 ± 15.12% and 17.24 ± 19.53%, respectively. All results, except for SGA data alone, were found to be statistically significant with p-values < 0.05.

Our data demonstrates a significant increase in STED following surgery under general anesthesia with placement of an ETT. This increase was not significant when considering SGAs alone, likely due to the small sample size. We also saw a difference in the STED when comparing surgeries less than 120 minutes to those greater than 120 minutes, however their confidence intervals did overlap, preventing us from declaring statistical significance. Similarly, a significant difference could not be established when comparing obese to non-obese patients, men to women, or patients who received less than 1000 cc of IV fluid intraoperatively to patients who received 1000 cc or more of IV fluid intraoperatively.

Despite numerous initial studies showing ultrasound measurements of the STED as an accurate assessment tool for predicting difficult airways,³3 Carsetti A, Sorbello M, Adrario E, et al. Airway ultrasound as predictor of difficult direct laryngoscopy: a systematic review and meta-analysis. Anesth Analg. 2022;134:740-50. the authors are not aware of any study that assesses the intraoperative STED changes in patients after undergoing general anesthesia with an ETT. Although the increase in STED could be multifactorial and needs further investigation, our data suggests that ETT placement can increase the STED.

The reason for increased STED is not known however, and it may potentially arise secondary to edema caused by the airway device. There is evidence that an ETT can cause laryngeal edema.⁴4 Matsushita H, Shirozu K, Umehara K, et al. Association of an electromyographic tube for severe postoperative laryngeal edema and reintubation in neurosurgery: a retrospective study. J Anesth. 2021;35:611-6. Furthermore, it has been shown that long-term intubation and prone positioning can be associated with tongue edema.⁵5 Walsh A, Peesay T, Newark A, et al. Association of severe tongue edema with prone positioning in patients intubated for COVID-19. Laryngoscope. 2022;132:287-9. Identifying a marker for laryngeal edema would be useful and could prevent respiratory complications due to premature extubation of an edematous airway.

Our data suggests that there are postoperative changes to ultrasound measurements of the STED. Further studies are needed to clarify to what degree an ETT tube is causing these changes and if there are other modifiable factors - such as IVF, positioning, or length of intubation - which may decrease changes in the postoperative period.

IRB approval

This study was approved by the George Washington University institutional review board (IRB # NCR203147). Our IRB exempted us from written consents and all participants provided informed verbal consent.

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