Skip to main page content
U.S. flag

An official website of the United States government

Dot gov

The .gov means it’s official.
Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

Https

The site is secure.
The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Access keys NCBI Homepage MyNCBI Homepage Main Content Main Navigation
. 2023 May;67(5):649-654.
doi: 10.1111/aas.14216. Epub 2023 Feb 19.

Transcutaneous carbon dioxide monitoring during prolonged apnoea with high-flow nasal oxygen

Pernille Pape  1 Zofia M Piosik  1   2 Camilla M Kristensen  1 Jesper Dirks  1 Lars S Rasmussen  1   3 Michael S Kristensen  1
Affiliations

Transcutaneous carbon dioxide monitoring during prolonged apnoea with high-flow nasal oxygen

Pernille Pape et al. Acta Anaesthesiol Scand. 2023 May.

Abstract

Background: The duration of apnoeic oxygenation with high-flow nasal oxygen is limited by hypercapnia and acidosis and monitoring of arterial carbon dioxide level is therefore essential. We have performed a study in patients undergoing prolonged apnoeic oxygenation where we monitored the progressive hypercapnia with transcutaneous carbon dioxide. In this paper, we compared the transcutaneous carbon dioxide level with arterial carbon dioxide tension.

Methods: This is a secondary publication based on data from a study exploring the limits of apnoeic oxygenation. We compared transcutaneous carbon dioxide monitoring with arterial carbon dioxide tension using Bland-Altman analyses in anaesthetised and paralysed patients undergoing prolonged apnoeic oxygenation until a predefined limit of pH 7.15 or PCO2 of 12 kPa was reached.

Results: We included 35 patients with a median apnoea duration of 25 min. Mean pH was 7.14 and mean arterial carbon dioxide tension was 11.2 kPa at the termination of apnoeic oxygenation. Transcutaneous carbon dioxide monitoring initially slightly underestimated the arterial tension but at carbon dioxide levels above 10 kPa it overestimated the value. Bias ranged from -0.55 to 0.81 kPa with limits of agreement between -1.25 and 2.11 kPa.

Conclusion: Transcutaneous carbon dioxide monitoring provided a clinically acceptable substitute for arterial blood gases but as hypercapnia developed to considerable levels, we observed overestimation at high carbon dioxide tensions in patients undergoing apnoeic oxygenation with high-flow nasal oxygen.

Keywords: apnoeic oxygenation; carbon dioxide; high-flow nasal oxygen; transcutaneous monitoring.

PubMed Disclaimer

References

REFERENCES

    1. Huang L, Dharmawardana N, Badenoch A, Ooi EH. A review of the use of transnasal humidified rapid insufflation ventilatory exchange for patients undergoing surgery in the shared airway setting. J Anesth. 2020;34:134-143.
    1. Piosik ZM, Dirks J, Rasmussen LS, Kristensen CM, Kristensen MS. Exploring the limits of prolonged apnoea with high-flow nasal oxygen: an observational study. Anaesthesia. 2021;76:798-804.
    1. Scheer BV, Perel A, Pfeiffer UJ. Clinical review: complications and risk factors of peripheral arterial catheters used for haemodynamic monitoring in anaesthesia and intensive care medicine. Crit Care. 2002;6:198-204.
    1. Sandberg KL, Brynjarsson H, Hjalmarson O. Transcutaneous blood gas monitoring during neonatal intensive care. Acta Paediatr Int J Paediatr. 2011;100:676-679.
    1. Reid CW, Martineau RJ, Miller DR, Hull KA, Baines J, Sullivan PJ. A comparison of transcutaneous, end-tidal and arterial measurements of carbon dioxide during general anaesthesia. Can J Anaesth. 1992;39:31-36.

LinkOut - more resources