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Computer simulation clarifies mechanisms of carbon dioxide clearance during apnoea

Laviola, M.; Das, A.; Chikhani, M.; Bates, D.G.; Hardman, J.G.

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Authors

A. Das

M. Chikhani

D.G. Bates



Abstract

Background

Apnoeic oxygenation can come close to matching the oxygen demands of the apnoeic patient but does not facilitate carbon dioxide (CO2) elimination, potentially resulting in dangerous hypercapnia. Numerous studies have shown that high-flow nasal oxygen administration prevents hypoxaemia, and appears to reduce the rate of increase of arterial CO2 partial pressure (PaCO2), but evidence is lacking to explain these effects.

Methods

We extended a high-fidelity computational simulation of cardiopulmonary physiology to include modules allowing variable effects of: (a) cardiogenic oscillations affecting intrathoracic gas spaces, (b) gas mixing within the anatomical dead space, (c) insufflation into the trachea or above the glottis, and (d) pharyngeal pressure oscillation. We validated this model by reproducing the methods and results of five clinical studies on apnoeic oxygenation.

Results

Simulated outputs best matched clinical data for model selection of parameters reflecting: (a) significant effects of cardiogenic oscillations on alveoli, both in terms of strength of the effect (4.5 cm H2O) and percentage of alveoli affected (60%), (b) augmented gas mixing within the anatomical dead space, and (c) pharyngeal pressure oscillations between 0 and 2 cm H2O at 70 Hz.

Conclusions

Cardiogenic oscillations, dead space gas mixing, and micro-ventilation induced by pharyngeal pressure variations appear to be important mechanisms that combine to facilitate the clearance of CO2 during apnoea. Evolution of high-flow oxygen insufflation devices should take advantage of these insights, potentially improving apnoeic gas exchange.

Citation

Laviola, M., Das, A., Chikhani, M., Bates, D., & Hardman, J. (2019). Computer simulation clarifies mechanisms of carbon dioxide clearance during apnoea. British Journal of Anaesthesia, 122(3), 395-401. https://doi.org/10.1016/j.bja.2018.11.012

Journal Article Type Article
Acceptance Date Nov 4, 2018
Online Publication Date Dec 6, 2018
Publication Date 2019-03
Deposit Date Jan 14, 2019
Publicly Available Date Mar 28, 2024
Journal British Journal of Anaesthesia
Print ISSN 0007-0912
Electronic ISSN 1471-6771
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 122
Issue 3
Pages 395-401
DOI https://doi.org/10.1016/j.bja.2018.11.012
Keywords apnoea; carbon dioxide; computer simulation; high-flow nasal oxygenation; respiratory physiology
Public URL https://nottingham-repository.worktribe.com/output/1467026
Publisher URL https://www.sciencedirect.com/science/article/pii/S0007091218313011

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