Quantifying the contribution of intracranial pressure and arterial blood pressure to spontaneous tympanic membrane displacement
Quantifying the contribution of intracranial pressure and arterial blood pressure to spontaneous tympanic membrane displacement
Objective: Although previous studies have shown associations between patient symptoms/outcomes and the spontaneous tympanic membrane displacement (spTMD) pulse amplitude, the contribution of the underlying intracranial pressure (ICP) signal to the spTMD pulse remains largely unknown. We have assessed the relative contributions of ICP and arterial blood pressure (ABP) on spTMD at different frequencies in order to determine whether spTMD contains information about the ICP above and beyond that contained in the ABP.
Approach: Eleven patients, who all had invasive ICP and ABP measurements in situ, were recruited from our intensive care unit. Their spTMD was recorded and the power spectral densities of the three signals, as well as coherences between the signals, were calculated in the range 0.1–5 Hz. Simple and multiple coherences, coupled with statistical tests using surrogate data, were carried out to quantify the relative contributions of ABP and ICP to spTMD.
Main results: Most power of the signals was found to predominate at respiration rate, heart rate, and their harmonics, with little outside of these frequencies. Analysis of the simple coherences found a slight preference for ICP transmission, beyond that from ABP, to the spTMD at lower frequencies (7/11 patients at respiration, 7/10 patients at respiration 1st harmonic) which is reversed at the higher frequencies (2/11 patients at heart rate and its 1st harmonic). Both ICP and ABP were found to independently contribute to the spTMD. The multiple coherence reinforced that ICP is preferentially being transmitted at respiration and respiration 1st harmonic.
Significance: Both ABP and ICP contribute independently to the spTMD signal, with most power occurring at clear physiological frequencies—respiration and harmonics and heart rate and harmonics. There is information shared between the ICP and spTMD that is not present in ABP. This analysis has indicated that lower frequencies appear to favour ICP as the driver for spTMD.
El-Bouri, Wahbi K.
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Vignali, Dario
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Iliadi, Konstantina
ed728e5b-c03f-427e-bbd5-39ca7330acb9
Bulters, Diederik
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Marchbanks, Robert J.
1ebe90b6-cb8a-4f9e-9585-4e264a951d7f
Birch, Anthony
755f2236-4c0c-49b5-9884-de4021acd42d
Simpson, David M.
53674880-f381-4cc9-8505-6a97eeac3c2a
8 August 2018
El-Bouri, Wahbi K.
d4a2509e-cae5-4cd7-9d3a-b514a6450228
Vignali, Dario
9603c180-b663-45b8-883c-520820241e64
Iliadi, Konstantina
ed728e5b-c03f-427e-bbd5-39ca7330acb9
Bulters, Diederik
d6f9644a-a32f-45d8-b5ed-be54486ec21d
Marchbanks, Robert J.
1ebe90b6-cb8a-4f9e-9585-4e264a951d7f
Birch, Anthony
755f2236-4c0c-49b5-9884-de4021acd42d
Simpson, David M.
53674880-f381-4cc9-8505-6a97eeac3c2a
El-Bouri, Wahbi K., Vignali, Dario, Iliadi, Konstantina, Bulters, Diederik, Marchbanks, Robert J., Birch, Anthony and Simpson, David M.
(2018)
Quantifying the contribution of intracranial pressure and arterial blood pressure to spontaneous tympanic membrane displacement.
Physiological Measurement, 39, [085002].
(doi:10.1088/1361-6579/aad308).
Abstract
Objective: Although previous studies have shown associations between patient symptoms/outcomes and the spontaneous tympanic membrane displacement (spTMD) pulse amplitude, the contribution of the underlying intracranial pressure (ICP) signal to the spTMD pulse remains largely unknown. We have assessed the relative contributions of ICP and arterial blood pressure (ABP) on spTMD at different frequencies in order to determine whether spTMD contains information about the ICP above and beyond that contained in the ABP.
Approach: Eleven patients, who all had invasive ICP and ABP measurements in situ, were recruited from our intensive care unit. Their spTMD was recorded and the power spectral densities of the three signals, as well as coherences between the signals, were calculated in the range 0.1–5 Hz. Simple and multiple coherences, coupled with statistical tests using surrogate data, were carried out to quantify the relative contributions of ABP and ICP to spTMD.
Main results: Most power of the signals was found to predominate at respiration rate, heart rate, and their harmonics, with little outside of these frequencies. Analysis of the simple coherences found a slight preference for ICP transmission, beyond that from ABP, to the spTMD at lower frequencies (7/11 patients at respiration, 7/10 patients at respiration 1st harmonic) which is reversed at the higher frequencies (2/11 patients at heart rate and its 1st harmonic). Both ICP and ABP were found to independently contribute to the spTMD. The multiple coherence reinforced that ICP is preferentially being transmitted at respiration and respiration 1st harmonic.
Significance: Both ABP and ICP contribute independently to the spTMD signal, with most power occurring at clear physiological frequencies—respiration and harmonics and heart rate and harmonics. There is information shared between the ICP and spTMD that is not present in ABP. This analysis has indicated that lower frequencies appear to favour ICP as the driver for spTMD.
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Accepted/In Press date: 12 July 2018
e-pub ahead of print date: 8 August 2018
Published date: 8 August 2018
Identifiers
Local EPrints ID: 424122
URI: http://eprints.soton.ac.uk/id/eprint/424122
ISSN: 0967-3334
PURE UUID: 9810374d-843d-4bfb-9b68-f2967aa51359
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Date deposited: 04 Oct 2018 16:30
Last modified: 16 Mar 2024 06:59
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Contributors
Author:
Wahbi K. El-Bouri
Author:
Dario Vignali
Author:
Konstantina Iliadi
Author:
Diederik Bulters
Author:
Robert J. Marchbanks
Author:
Anthony Birch
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