Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods

Alberto Porta; Francesca Gelpi; Vlasta Bari; Beatrice Cairo; Beatrice De Maria; Cora May Panzetti; Noemi Cornara; Enrico Giuseppe Bertoldo; Valentina Fiolo; Edward Callus; Carlo De Vincentiis; Marianna Volpe; Raffaella Molfetta; Valeria Pistuddi; Marco Ranucci

doi:10.3390/e24010080

Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods

Alberto Porta, Francesca Gelpi, Vlasta Bari, Beatrice Cairo, Beatrice De Maria, Cora May Panzetti, Noemi Cornara, Enrico Giuseppe Bertoldo, Valentina Fiolo, Edward Callus, Carlo De Vincentiis, Marianna Volpe, Raffaella Molfetta, Valeria Pistuddi, Marco Ranucci

Research output: Contribution to journal › Article › peer-review

Abstract

Cerebrovascular control is carried out by multiple nonlinear mechanisms imposing a certain degree of coupling between mean arterial pressure (MAP) and mean cerebral blood flow (MCBF). We explored the ability of two nonlinear tools in the information domain, namely cross-approximate entropy (CApEn) and cross-sample entropy (CSampEn), to assess the degree of asyn-chrony between the spontaneous fluctuations of MAP and MCBF. CApEn and CSampEn were com-puted as a function of the translation time. The analysis was carried out in 23 subjects undergoing recordings at rest in supine position (REST) and during active standing (STAND), before and after surgical aortic valve replacement (SAVR). We found that at REST the degree of asynchrony raised, and the rate of increase in asynchrony with the translation time decreased after SAVR. These results are likely the consequence of the limited variability of MAP observed after surgery at REST, more than the consequence of a modified cerebrovascular control, given that the observed differences disappeared during STAND. CApEn and CSampEn can be utilized fruitfully in the context of the evaluation of cerebrovascular control via the noninvasive acquisition of the spontaneous MAP and MCBF variability.

Original language	English
Pages (from-to)	80
Journal	Entropy
Volume	24
Issue number	1
DOIs	https://doi.org/10.3390/e24010080
Publication status	Published - Jan 2022

Keywords

Active standing
Autonomic nervous sys-tem
Beat-to-beat variability analysis
Cerebral autoregulation
Cerebro-vascular control
Cross-approximate entropy
Cross-sample entropy
State-space correspondence
Surgical aortic valve replacement

ASJC Scopus subject areas

Information Systems
Mathematical Physics
Physics and Astronomy (miscellaneous)
Electrical and Electronic Engineering

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10.3390/e24010080

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Porta, A., Gelpi, F., Bari, V., Cairo, B., De Maria, B., Panzetti, C. M., Cornara, N., Bertoldo, E. G., Fiolo, V., Callus, E., De Vincentiis, C., Volpe, M., Molfetta, R., Pistuddi, V., & Ranucci, M. (2022). Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods. Entropy, 24(1), 80. https://doi.org/10.3390/e24010080

Porta, A , Gelpi, F , Bari, V, Cairo, B, De Maria, B , Panzetti, CM, Cornara, N, Bertoldo, EG , Fiolo, V , Callus, E , De Vincentiis, C, Volpe, M, Molfetta, R, Pistuddi, V & Ranucci, M 2022, 'Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods', Entropy, vol. 24, no. 1, pp. 80. https://doi.org/10.3390/e24010080

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title = "Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods",

abstract = "Cerebrovascular control is carried out by multiple nonlinear mechanisms imposing a certain degree of coupling between mean arterial pressure (MAP) and mean cerebral blood flow (MCBF). We explored the ability of two nonlinear tools in the information domain, namely cross-approximate entropy (CApEn) and cross-sample entropy (CSampEn), to assess the degree of asyn-chrony between the spontaneous fluctuations of MAP and MCBF. CApEn and CSampEn were com-puted as a function of the translation time. The analysis was carried out in 23 subjects undergoing recordings at rest in supine position (REST) and during active standing (STAND), before and after surgical aortic valve replacement (SAVR). We found that at REST the degree of asynchrony raised, and the rate of increase in asynchrony with the translation time decreased after SAVR. These results are likely the consequence of the limited variability of MAP observed after surgery at REST, more than the consequence of a modified cerebrovascular control, given that the observed differences disappeared during STAND. CApEn and CSampEn can be utilized fruitfully in the context of the evaluation of cerebrovascular control via the noninvasive acquisition of the spontaneous MAP and MCBF variability.",

keywords = "Active standing, Autonomic nervous sys-tem, Beat-to-beat variability analysis, Cerebral autoregulation, Cerebro-vascular control, Cross-approximate entropy, Cross-sample entropy, State-space correspondence, Surgical aortic valve replacement",

author = "Alberto Porta and Francesca Gelpi and Vlasta Bari and Beatrice Cairo and {De Maria}, Beatrice and Panzetti, {Cora May} and Noemi Cornara and Bertoldo, {Enrico Giuseppe} and Valentina Fiolo and Edward Callus and {De Vincentiis}, Carlo and Marianna Volpe and Raffaella Molfetta and Valeria Pistuddi and Marco Ranucci",

note = "Funding Information: Funding: This research was funded by the Italian Ministry of Health, grant RF-2016-02361069 to Policlinico San Donato (project PEARL, principal investigator: A.P.). Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = jan,

doi = "10.3390/e24010080",

language = "English",

volume = "24",

pages = "80",

journal = "Entropy",

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T1 - Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods

AU - Porta, Alberto

AU - Gelpi, Francesca

AU - Bari, Vlasta

AU - Cairo, Beatrice

AU - De Maria, Beatrice

AU - Panzetti, Cora May

AU - Cornara, Noemi

AU - Bertoldo, Enrico Giuseppe

AU - Fiolo, Valentina

AU - Callus, Edward

AU - De Vincentiis, Carlo

AU - Volpe, Marianna

AU - Molfetta, Raffaella

AU - Pistuddi, Valeria

AU - Ranucci, Marco

N1 - Funding Information: Funding: This research was funded by the Italian Ministry of Health, grant RF-2016-02361069 to Policlinico San Donato (project PEARL, principal investigator: A.P.). Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2022/1

Y1 - 2022/1

N2 - Cerebrovascular control is carried out by multiple nonlinear mechanisms imposing a certain degree of coupling between mean arterial pressure (MAP) and mean cerebral blood flow (MCBF). We explored the ability of two nonlinear tools in the information domain, namely cross-approximate entropy (CApEn) and cross-sample entropy (CSampEn), to assess the degree of asyn-chrony between the spontaneous fluctuations of MAP and MCBF. CApEn and CSampEn were com-puted as a function of the translation time. The analysis was carried out in 23 subjects undergoing recordings at rest in supine position (REST) and during active standing (STAND), before and after surgical aortic valve replacement (SAVR). We found that at REST the degree of asynchrony raised, and the rate of increase in asynchrony with the translation time decreased after SAVR. These results are likely the consequence of the limited variability of MAP observed after surgery at REST, more than the consequence of a modified cerebrovascular control, given that the observed differences disappeared during STAND. CApEn and CSampEn can be utilized fruitfully in the context of the evaluation of cerebrovascular control via the noninvasive acquisition of the spontaneous MAP and MCBF variability.

AB - Cerebrovascular control is carried out by multiple nonlinear mechanisms imposing a certain degree of coupling between mean arterial pressure (MAP) and mean cerebral blood flow (MCBF). We explored the ability of two nonlinear tools in the information domain, namely cross-approximate entropy (CApEn) and cross-sample entropy (CSampEn), to assess the degree of asyn-chrony between the spontaneous fluctuations of MAP and MCBF. CApEn and CSampEn were com-puted as a function of the translation time. The analysis was carried out in 23 subjects undergoing recordings at rest in supine position (REST) and during active standing (STAND), before and after surgical aortic valve replacement (SAVR). We found that at REST the degree of asynchrony raised, and the rate of increase in asynchrony with the translation time decreased after SAVR. These results are likely the consequence of the limited variability of MAP observed after surgery at REST, more than the consequence of a modified cerebrovascular control, given that the observed differences disappeared during STAND. CApEn and CSampEn can be utilized fruitfully in the context of the evaluation of cerebrovascular control via the noninvasive acquisition of the spontaneous MAP and MCBF variability.

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KW - Autonomic nervous sys-tem

KW - Beat-to-beat variability analysis

KW - Cerebral autoregulation

KW - Cerebro-vascular control

KW - Cross-approximate entropy

KW - Cross-sample entropy

KW - State-space correspondence

KW - Surgical aortic valve replacement

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SN - 1099-4300

VL - 24

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JO - Entropy

JF - Entropy

IS - 1

ER -

Monitoring the Evolution of Asynchrony between Mean Arterial Pressure and Mean Cerebral Blood Flow via Cross-Entropy Methods

Abstract

Keywords

ASJC Scopus subject areas

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