Cuffed vs Uncuffed ETTs

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Relevant Article Depot:

Use of 2.0-mm endotracheal tubes for periviable infants

Comparison of cuffed and uncuffed endotracheal tubes in young children during general anesthesia

Ron Litman, of blessed memory, thought it would be a good idea to present a “classic” article once a week or so as the PAAD. It doesn’t get any more classic than this! Thanks to Diane Gordon MD for asking for this one.

When we were “young pups”, cuffed endotracheal tubes (ETTs) were not used in children < 6-8 years of age because of a perceived risk of direct airway mucosal injury and impairment of submucosal blood flow at the cricoid ring, the narrowest part of the airway. The resultant injury and edema were thought to result in post-intubation stridor and croup (see also the classic paper Koka BV, Jeon IS, Andre JM, MacKay I, Smith RM. Postintubation croup in children. Anesth Analg. 1977 Jul-Aug;56(4):501-5. PMID: 56013…and yes, the senior author is Robert Smith of the original pediatric anesthesia textbook and for whom the AAP award is named for!). On the other hand, cuffed ETTs allow for fewer laryngoscopies for ill-fitting uncuffed tubes, were thought to reduce the risk of aspiration, allowed for lower fresh gas flows, and could be used to ventilate patients with stiff lungs more easily. This classic paper by Khine et al. put this issue to rest on all counts. Perhaps most importantly, post-intubation croup and the need for racemic epinephrine was not any different in patients treated with cuffed or uncuffed tubes.

The formula for cuffed tubes used in the Khine et al paper:

Cuffed tube size (mm ID) = (age/4 + 3) rounding upward when needed.

A further argument in favor of cuffed tubes was the introduction of the microcuff tube. Its short, compliant cuff was a breakthrough for cuffed tubes in neonates and small infants. (Weiss M, Gerber AC, Dullenkopf A. Appropriate placement of intubation depth marks in a new cuffed paediatric tracheal tube. Br J Anaesth 2005;94:80-87. PMID 15486002)

A recent Cochrane review (Flavia A De Orange, Rebeca Gac Andrade, Andrea Lemos, Paulo Sgn Borges, José N Figueiroa, Pete G Kovatsis. Cuffed versus uncuffed endotracheal tubes for general anaesthesia in children aged eight years and under. Cochrane Database Syst Rev. 2017 Nov 17;11(11): PMID: 29149469) highlighted the “low quality of evidence” of the Khine et al. and other papers on this subject. Nevertheless, the “people have spoken” and the use of cuffed ETTs is now pretty much a done deal and standard of care in children, infants, and neonates.

Myron Yaster MD and Robert Friesen MD

The effect of saline versus air for cuff inflation on the incidence of high intra-cuff pressure in paediatric MicroCuff® tracheal tubes: a randomised controlled trial

Incidence of Post-extubation Stridor in Infants With Cuffed vs. Uncuffed Endotracheal Tube: A Retrospective Cohort Analysis

Association between cuffed tracheal tube use and reduced ventilator-associated pneumonia and conditions after elective cardiac surgery in infants and young children

Holzki J, Hoeve H, Tan H, Coté CJ, Rothschild M, Ponde V, Ustalar Ozgen ZS, Yamashita M. Unveiling myths of the paediatric larynx: a comprehensive review of anatomical publications and modern insights on cuffed endotracheal tubes. Malaysian Journal of Anaesthesiology 2024; 2:137-156 doi.org/10.35119/myja.v3i2.81.

2. Fayoux P, Devisme L, Merrot O, Marciniak B. Determination of endotracheal tube size in a perinatal population: an anatomical and experimental study. Anesthesiology 2006;104(5):954-960. doi: 10.1097/00000542-200605000-0001, PMID: 16645447.

3. Isa M, Holzki J, Hagemeier A, Rothschild MA, Coté CJ. Anatomical In vitro investigations of the pediatric larynx: a call for manufacturer redesign of tracheal tube cuff location and perhaps a call to reconsider the use of uncuffed tracheal tubes. Anesth Analg 2021;133(4):894-902. doi : 10.1213/ane.0000000000005565, PMID: 33901057.

4. Maguire S, Wade D, Curley J, Morris S. Design considerations for development of cuffed endotracheal tube for small airways. Paediatr Anaesth. 2025 Feb;35(2):91-98. doi: 10.1111/pan.15033. Epub 2024 Nov 19. PMID: 39560156. Note: sponsored by Medtronics®

5. Eckenhoff JE. Some anatomic considerations of the infant larynx influencing endotracheal anesthesia. Anesthesiology 1951;12(4):401-410. doi: 10.1097/00000542-195107000-00001, PMID: 14847223.

6. de Wit M, Peelen LM, van Wolfswinkel L, de Graaff JC. The incidence of postoperative respiratory complications : a retrospective analysis of cuffed vs uncuffed tracheal tubes in children 0-7 years of age. Paediatr Anaesth 2018 ; 28 (1): 210-217. doi : 10.1111/pan.13340, PMID: 29436138.

7. Greaney D, Russell J, Dawkins I, Healy M. A retrospective observational study of acquired subglottic stenosis using low-pressure, high-volume cuffed endotracheal tubes. Paediatr Anaesth 2018;28(12):1136-1141. doi : 10.1111/pan.13519, PMID: 30375105.

8. Kayashima K, Mizuyama H, Takesue M, Doi T, Imai K, Murashima K. Adjusting pediatric endotracheal tube depths relative to the cricoid by using longitudinal ultrasound images of the saline-inflated cuff in the trachea : two case reports. A&A Case Reports 2018 ; 10(9):235-238. doi: 10.1213/XAA.0000000000000673, PMID: 29708918.

9. Weiss M, Dave M, Bailey M, Gysin C, Hoeve A, Hammer J, Nicolai T, Spielmann N, Gerber A. Endoscopic airway findings in children with or without prior endotracheal intubation. Paediatr Anaesth 2013 ; 23 (1) : 103-100. doi : 10.1111/pan.12102, PMID: 23289772.

Optimal tracheal tube cuff inflation in infants: implications for mechanical ventilation and respiratory mechanics

Regulation of Intracuff Pressure by Measurement of the Ratio of Expiratory to Inspiratory Tidal Volumes

Wratney AT, Benjamin DK, Jr., Slonim AD, He J, Hamel DS, Cheifetz IM: The endotracheal tube air leak test does not predict extubation outcome in critically ill pediatric patients. Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies 2008, 9(5):490–496.

Kanno K, Fujiwara N, Moromizato T, Fujii S, Ami Y, Tokushige A, Ueda S: Pre-Extubation Cuffed Tube Leak Test and Subsequent Post-Extubation Laryngeal Edema: Prospective, Single-Center Evaluation of PICU Patients. Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies 2023.

Schwartz RE, Stayer SA, Pasquariello CA: Tracheal tube leak test--is there inter-observer agreement? Canadian journal of anaesthesia = Journal canadien d’anesthesie 1993, 40(11):1049–1052.

Seegobin RD, van Hasselt GL: Endotracheal cuff pressure and tracheal mucosal blood flow: endoscopic study of effects of four large volume cuffs. BrMedJ(ClinResEd) 1984, 288(6422):965–968.

Kumar CM, Seet E, Van Zundert T: Measuring endotracheal tube intracuff pressure: no room for complacency. Journal of clinical monitoring and computing 2021, 35(1):3–10.

Moon K, Kitio SAY, Rice-Weimer J, Tobias JD: Regulation of Intracuff Pressure by Measurement of the Ratio of Expiratory to Inspiratory Tidal Volumes. Paediatric anaesthesia 2025, 35(11):940–945.