Inner Lumen Tracheostomy Tube Capable of Continuous Monitoring of Cuff Pressure

Continuous monitoring and download of endotracheal tube cuff pressure for a 12-hour period were required to collect data for an ongoing program of research related to airway management of the critically ill patient. On the basis of reports from the anesthesia literature, continuous monitoring of cuff pressure via a traditional pressure transducer and monitor was identified as the best method to collect data. Although continuous pressure monitoring of many physiologic variables is routine in critical care settings, application of the technology to measurement of endotracheal tube cuff pressure has not been reported outside the operating room. The research team conducted bench testing and pilot testing in human subjects to establish feasibility, accuracy, and safety of continuous cuff pressure monitoring. Monitoring was feasible with stringent procedures applied to ensure safety. A bias of 0.5 cm H2O between continuous and intermittent measures was obtained in both in vitro and in vivo testing.

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Assessment of Endotracheal Cuff Pressure by Continuous Monitoring: A Pilot Study

American Journal of Critical Care ◽

10.4037/ajcc2009441 ◽

2009 ◽

Vol 18 (2) ◽

pp. 133-143 ◽

Cited By ~ 45

Author(s):

M. L. Sole ◽

D. A. Penoyer ◽

X. Su ◽

E. Jimenez ◽

S. J. Kalita ◽

...

Keyword(s):

Pilot Study ◽

Continuous Monitoring ◽

Cuff Pressure

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What is the Adequate Cuff Volume for Tracheostomy Tube? A Pilot Cadaver Study

Annals of Rehabilitation Medicine ◽

10.5535/arm.19210 ◽

2020 ◽

Vol 44 (5) ◽

pp. 402-408

Author(s):

Dong Min Kim ◽

Myung Jun Shin ◽

Sung Dong Kim ◽

Yong Beom Shin ◽

Ho Eun Park ◽

...

Keyword(s):

Tracheostomy Tube ◽

Cuff Pressure ◽

Cadaver Study ◽

Cuff Inflation ◽

Cuff Volume ◽

Tube Cuff ◽

Different Types ◽

Male Cadaver ◽

Tracheostomy Tubes ◽

Pressure Changes

Objective To determine the patterns of tracheostomy cuff pressure changes with various air inflation amounts in different types of tracheostomy tubes to obtain basic data for appropriately managing longterm tracheostomy.Methods We performed tracheostomy on a 46-year-old male cadaver. Three types of tracheostomy tubes (single-cuffed, double-cuffed, and adjustable flange), divided into 8 different subtypes based on internal tube diameters and cuff diameters, were inserted into the cadaver. Air was inflated into the cuff, and starting with 1 mL air, the cuff pressure was subsequently measured using a manometer.Results For the 7.5 mm/14 mm tracheostomy tube, cuff inflation with 3 mL of air yielded a cuff pressure within the recommended range of 20–30 cmH<sub>2</sub>O. The 7.5 mm/24 mm tracheostomy tube showed adequate cuff pressure at 5 mL of air inflation. Similar values were observed for the 8.0 mm/16 mm and 8.0 mm/27 mm tubes. Double-cuffed tracheostomy cuff pressures (7.5 mm/20 mm and 8.0 mm/20 mm tubes) at 3 mL air inflation had cuff pressures of 18–20 cmH<sub>2</sub>O at both the proximal and distal sites. For the adjustable flange tracheostomy tube, cuff pressure at 6 mL of cuff air inflation was within the recommended range. Maximal cuff pressure was achieved at inflation with almost 14 mL of air, unlike other tube types.Conclusion Various types of tracheostomy tubes showed different cuff pressures after inflation. These values might aid in developing guidelines For patients who undergo tracheostomy and are discharged home without cuff pressure manometers, this standard might be helpful to develop guidelines.

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A Case of Muscular Dystrophy who developed Deformation of the Vertebrae due to Excessive Cuff Pressure of the Tracheostomy Tube and Defective Tracheal Cannula Fixation

Nippon Jibiinkoka Gakkai Kaiho ◽

10.3950/jibiinkoka.122.1229 ◽

2019 ◽

Vol 122 (9) ◽

pp. 1229-1234

Author(s):

Yuka Kitani ◽

Hiromitsu Hatakeyama ◽

Masanori Komatsu ◽

Naoko Sakuma ◽

Kunihiko Shibata ◽

...

Keyword(s):

Muscular Dystrophy ◽

Tracheostomy Tube ◽

Cuff Pressure ◽

Tracheal Cannula

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Accuracy of finger-tip palpated tracheostomy tube cuff pressure readings among otolaryngologists

The Journal of Laryngology & Otology ◽

10.1258/0022215054273070 ◽

2005 ◽

Vol 119 (6) ◽

pp. 461-464 ◽

Cited By ~ 5

Author(s):

Pushkas Gopalan ◽

Simon T Browning

Keyword(s):

Tracheostomy Tube ◽

Cuff Pressure ◽

Good Practice ◽

High Standard ◽

Tracheal Mucosa ◽

Tube Cuff ◽

Tracheostomy Tubes ◽

Finger Tip ◽

Mucosal Ischaemia ◽

Consultant Group

The tracheal mucosa is very a delicate structure, and pressure–ischaemia problems following the use of cuffed tracheostomy tubes are well documented. Iatrogenic tracheal stenosis is one of the consequences of mucosal ischaemia and is very difficult to treat. In this study the accuracy of finger-tip tested tracheostomy tube cuff inflation pressure, as judged by consultants and non-consultants, was assessed by comparison with manometric pressure readings. The estimated pressure readings from the consultant group were more accurate than those from the non-consultant group, but a high standard deviation and very big difference between low and high readings in both these groups showed the real extent of the problem. Participants who performed 10 or more tracheostomies a year obtained more accurate results. No definite correlation was observed between the readings and the experience of the participants in otolaryngology or the size of the tube used. The authors recommend that instrumental monitoring of cuff pressure be considered good practice among junior otolaryngologists.

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Tracheal tube cuff pressure measurement?inexpensive continuous monitoring

Anaesthesia ◽

10.1111/j.1365-2044.1992.tb04242.x ◽

1992 ◽

Vol 47 (12) ◽

pp. 1106-1106 ◽

Cited By ~ 1

Author(s):

Y. Mersch ◽

G. Bardoczky ◽

A. D'Hollander

Keyword(s):

Tracheal Tube ◽

Pressure Measurement ◽

Continuous Monitoring ◽

Cuff Pressure ◽

Tube Cuff ◽

Tracheal Tube Cuff

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Passy-Muir Speaking Valve Use in a Children's Hospital: An Interdisciplinary Approach

Perspectives on Voice and Voice Disorders ◽

10.1044/vvd18.2.76 ◽

2008 ◽

Vol 18 (2) ◽

pp. 76-86 ◽

Cited By ~ 2

Author(s):

Lauren Hofmann ◽

Joseph Bolton ◽

Susan Ferry

Keyword(s):

Tracheostomy Tube ◽

Pediatric Population ◽

Interdisciplinary Approach ◽

Extended Period ◽

Speech Development ◽

Tube Placement ◽

Background Information ◽

Speaking Valve ◽

Children's Hospital ◽

Children’S Hospital

Abstract At The Children's Hospital of Philadelphia (CHOP) we treat many children requiring tracheostomy tube placement. With potential for a tracheostomy tube to be in place for an extended period of time, these children may be at risk for long-term disruption to normal speech development. As such, speaking valves that restore more normal phonation are often key tools in the effort to restore speech and promote more typical language development in this population. However, successful use of speaking valves is frequently more challenging with infant and pediatric patients than with adult patients. The purpose of this article is to review background information related to speaking valves, the indications for one-way valve use, criteria for candidacy, and the benefits of using speaking valves in the pediatric population. This review will emphasize the importance of interdisciplinary collaboration from the perspectives of speech-language pathology and respiratory therapy. Along with the background information, we will present current practices and a case study to illustrate a safe and systematic approach to speaking valve implementation based upon our experiences.

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