Improved respiratory mechanical estimation during pressure controlled mechanical ventilation

D. O. Kannangara; F. Newberry; S. Howe; V. Major; D. Redmond; A. Szlavecz; Y. S. Chiew; C. Pretty; B. Benyo; G. M. Shaw; J. G. Chase

doi:10.1007/978-981-10-0266-3_29

Improved respiratory mechanical estimation during pressure controlled mechanical ventilation

D. O. Kannangara, F. Newberry, S. Howe, V. Major, D. Redmond, A. Szlavecz, Y. S. Chiew, C. Pretty, B. Benyo, G. M. Shaw, J. G. Chase

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Other

Abstract

Mechanical ventilation (MV) therapy partially or fully replaces the work of breathing in patients with respiratory failure. Respiratory mechanics during pressure controlled (PC) or pressure support (PS) are often not estimated due to variability induced by patient’s spontaneous breathing effort (SB) or asynchronous events (AEs). Proposed is an algorithm which allows for the improvement of respiratory system mechanics estimation during pressure controlled ventilation. For testing, 10 retrospective airway pressure and flow data samples were obtained from 6 MV patients, with each data sample containing 450-500 breaths. All data samples with AE present experienced a decrease in 5th to 95th range (Range90) and mean absolute deviation (MAD) for the estimated respiratory system elastance after reconstruction. These results suggested improved in respiratory mechanics estimation during pressure controlled ventilation. The median [maximum (max), minimum (min)] decrease in MAD was 29.4% (51%, 18.6%), and the median (max, min) decrease in Range90 divided by median respiratory system elastance was 30.7% (48.8%, 6.4%). The algorithm is robust to many different spontaneous breathing efforts, asynchrony shapes and types. The proposed algorithm demonstrates the potential to effectively improve respiratory mechanics.

Original language	English
Title of host publication	International Conference for Innovation in Biomedical Engineering and Life Sciences
Editors	Fatimah Ibrahim, Mas Sahidayana Mohktar, Mohd Yazed Ahmad, Juliana Usman
Publisher	Springer
Pages	144-149
Number of pages	6
ISBN (Print)	9789811002656
DOIs	https://doi.org/10.1007/978-981-10-0266-3_29
Publication status	Published - 2016
Externally published	Yes
Event	International Conference for Innovation in Biomedical Engineering and Life Sciences 2015 - Putrajaya, Malaysia Duration: 6 Dec 2015 → 8 Dec 2015 https://link.springer.com/book/10.1007/978-981-10-0266-3 (Proceedings)

Publication series

Name	IFMBE Proceedings
Volume	56
ISSN (Print)	1680-0737

Conference

Conference	International Conference for Innovation in Biomedical Engineering and Life Sciences 2015
Abbreviated title	ICIBEL 2015
Country/Territory	Malaysia
City	Putrajaya
Period	6/12/15 → 8/12/15
Internet address	https://link.springer.com/book/10.1007/978-981-10-0266-3 (Proceedings)

Keywords

Model-based
Pressure control
Pressure support
Respiratory Mechanics
Spontaneous breathing

Access to Document

10.1007/978-981-10-0266-3_29

Cite this

Kannangara, D. O., Newberry, F., Howe, S., Major, V., Redmond, D., Szlavecz, A., Chiew, Y. S., Pretty, C., Benyo, B., Shaw, G. M., & Chase, J. G. (2016). Improved respiratory mechanical estimation during pressure controlled mechanical ventilation. In F. Ibrahim, M. S. Mohktar, M. Y. Ahmad, & J. Usman (Eds.), International Conference for Innovation in Biomedical Engineering and Life Sciences (pp. 144-149). (IFMBE Proceedings; Vol. 56). Springer. https://doi.org/10.1007/978-981-10-0266-3_29

@inproceedings{dca6317764ed42d38b0d25f9242fb78d,

title = "Improved respiratory mechanical estimation during pressure controlled mechanical ventilation",

abstract = "Mechanical ventilation (MV) therapy partially or fully replaces the work of breathing in patients with respiratory failure. Respiratory mechanics during pressure controlled (PC) or pressure support (PS) are often not estimated due to variability induced by patient{\textquoteright}s spontaneous breathing effort (SB) or asynchronous events (AEs). Proposed is an algorithm which allows for the improvement of respiratory system mechanics estimation during pressure controlled ventilation. For testing, 10 retrospective airway pressure and flow data samples were obtained from 6 MV patients, with each data sample containing 450-500 breaths. All data samples with AE present experienced a decrease in 5th to 95th range (Range90) and mean absolute deviation (MAD) for the estimated respiratory system elastance after reconstruction. These results suggested improved in respiratory mechanics estimation during pressure controlled ventilation. The median [maximum (max), minimum (min)] decrease in MAD was 29.4% (51%, 18.6%), and the median (max, min) decrease in Range90 divided by median respiratory system elastance was 30.7% (48.8%, 6.4%). The algorithm is robust to many different spontaneous breathing efforts, asynchrony shapes and types. The proposed algorithm demonstrates the potential to effectively improve respiratory mechanics.",

keywords = "Model-based, Pressure control, Pressure support, Respiratory Mechanics, Spontaneous breathing",

author = "Kannangara, {D. O.} and F. Newberry and S. Howe and V. Major and D. Redmond and A. Szlavecz and Chiew, {Y. S.} and C. Pretty and B. Benyo and Shaw, {G. M.} and Chase, {J. G.}",

note = "Publisher Copyright: {\textcopyright} International Federation for Medical and Biological Engineering 2016. Copyright: Copyright 2016 Elsevier B.V., All rights reserved.; International Conference for Innovation in Biomedical Engineering and Life Sciences 2015, ICIBEL 2015 ; Conference date: 06-12-2015 Through 08-12-2015",

year = "2016",

doi = "10.1007/978-981-10-0266-3_29",

language = "English",

isbn = "9789811002656",

series = "IFMBE Proceedings",

publisher = "Springer",

pages = "144--149",

editor = "Fatimah Ibrahim and Mohktar, {Mas Sahidayana} and Ahmad, {Mohd Yazed} and Juliana Usman",

booktitle = "International Conference for Innovation in Biomedical Engineering and Life Sciences",

url = "https://link.springer.com/book/10.1007/978-981-10-0266-3",

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Kannangara, DO, Newberry, F, Howe, S, Major, V, Redmond, D, Szlavecz, A, Chiew, YS, Pretty, C, Benyo, B, Shaw, GM & Chase, JG 2016, Improved respiratory mechanical estimation during pressure controlled mechanical ventilation. in F Ibrahim, MS Mohktar, MY Ahmad & J Usman (eds), International Conference for Innovation in Biomedical Engineering and Life Sciences. IFMBE Proceedings, vol. 56, Springer, pp. 144-149, International Conference for Innovation in Biomedical Engineering and Life Sciences 2015, Putrajaya, Malaysia, 6/12/15. https://doi.org/10.1007/978-981-10-0266-3_29

Improved respiratory mechanical estimation during pressure controlled mechanical ventilation. / Kannangara, D. O.; Newberry, F.; Howe, S. et al.

International Conference for Innovation in Biomedical Engineering and Life Sciences. ed. / Fatimah Ibrahim; Mas Sahidayana Mohktar; Mohd Yazed Ahmad; Juliana Usman. Springer, 2016. p. 144-149 (IFMBE Proceedings; Vol. 56).

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Other

TY - GEN

T1 - Improved respiratory mechanical estimation during pressure controlled mechanical ventilation

AU - Kannangara, D. O.

AU - Newberry, F.

AU - Howe, S.

AU - Major, V.

AU - Redmond, D.

AU - Szlavecz, A.

AU - Chiew, Y. S.

AU - Pretty, C.

AU - Benyo, B.

AU - Shaw, G. M.

AU - Chase, J. G.

PY - 2016

Y1 - 2016

N2 - Mechanical ventilation (MV) therapy partially or fully replaces the work of breathing in patients with respiratory failure. Respiratory mechanics during pressure controlled (PC) or pressure support (PS) are often not estimated due to variability induced by patient’s spontaneous breathing effort (SB) or asynchronous events (AEs). Proposed is an algorithm which allows for the improvement of respiratory system mechanics estimation during pressure controlled ventilation. For testing, 10 retrospective airway pressure and flow data samples were obtained from 6 MV patients, with each data sample containing 450-500 breaths. All data samples with AE present experienced a decrease in 5th to 95th range (Range90) and mean absolute deviation (MAD) for the estimated respiratory system elastance after reconstruction. These results suggested improved in respiratory mechanics estimation during pressure controlled ventilation. The median [maximum (max), minimum (min)] decrease in MAD was 29.4% (51%, 18.6%), and the median (max, min) decrease in Range90 divided by median respiratory system elastance was 30.7% (48.8%, 6.4%). The algorithm is robust to many different spontaneous breathing efforts, asynchrony shapes and types. The proposed algorithm demonstrates the potential to effectively improve respiratory mechanics.

AB - Mechanical ventilation (MV) therapy partially or fully replaces the work of breathing in patients with respiratory failure. Respiratory mechanics during pressure controlled (PC) or pressure support (PS) are often not estimated due to variability induced by patient’s spontaneous breathing effort (SB) or asynchronous events (AEs). Proposed is an algorithm which allows for the improvement of respiratory system mechanics estimation during pressure controlled ventilation. For testing, 10 retrospective airway pressure and flow data samples were obtained from 6 MV patients, with each data sample containing 450-500 breaths. All data samples with AE present experienced a decrease in 5th to 95th range (Range90) and mean absolute deviation (MAD) for the estimated respiratory system elastance after reconstruction. These results suggested improved in respiratory mechanics estimation during pressure controlled ventilation. The median [maximum (max), minimum (min)] decrease in MAD was 29.4% (51%, 18.6%), and the median (max, min) decrease in Range90 divided by median respiratory system elastance was 30.7% (48.8%, 6.4%). The algorithm is robust to many different spontaneous breathing efforts, asynchrony shapes and types. The proposed algorithm demonstrates the potential to effectively improve respiratory mechanics.

KW - Model-based

KW - Pressure control

KW - Pressure support

KW - Respiratory Mechanics

KW - Spontaneous breathing

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DO - 10.1007/978-981-10-0266-3_29

M3 - Conference Paper

AN - SCOPUS:84952776799

SN - 9789811002656

T3 - IFMBE Proceedings

SP - 144

EP - 149

BT - International Conference for Innovation in Biomedical Engineering and Life Sciences

A2 - Ibrahim, Fatimah

A2 - Mohktar, Mas Sahidayana

A2 - Ahmad, Mohd Yazed

A2 - Usman, Juliana

PB - Springer

T2 - International Conference for Innovation in Biomedical Engineering and Life Sciences 2015

Y2 - 6 December 2015 through 8 December 2015

ER -

Kannangara DO, Newberry F, Howe S, Major V, Redmond D, Szlavecz A et al. Improved respiratory mechanical estimation during pressure controlled mechanical ventilation. In Ibrahim F, Mohktar MS, Ahmad MY, Usman J, editors, International Conference for Innovation in Biomedical Engineering and Life Sciences. Springer. 2016. p. 144-149. (IFMBE Proceedings). https://doi.org/10.1007/978-981-10-0266-3_29

Improved respiratory mechanical estimation during pressure controlled mechanical ventilation

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Keywords

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