Fractional-order modeling of arterial compliance in vascular aging: a computational biomechanical approach for investigating cardiovascular dynamics
Fractional-order modeling of arterial compliance in vascular aging: a computational biomechanical approach for investigating cardiovascular dynamics
Goal: the goal of this study is to investigate the application of fractional-order calculus in modeling arterial compliance in human vascular aging.
Methods: a novel fractional-order modified arterial Windkessel model that incorporates a fractional-order capacitor (FOC) element is proposed to capture the complex and frequency-dependent properties of arterial compliance. The model's performance is evaluated by verifying it using data collected from three different human subjects, with a specific focus on aortic pressure and flow rates.
Results: the results show that the FOC model accurately captures the dynamics of arterial compliance, providing a flexible means to estimate central blood pressure distribution and arterial stiffness.
Conclusions: this study demonstrates the potential of fractional-order calculus in advancing the modeling and characterization of arterial compliance in human vascular aging. The proposed FOC model can improve our understanding of the physiological changes in arterial compliance associated with aging and help to identify potential interventions for age-related cardiovascular diseases.
650-660
Bahloul, Mohamed A.
4163b3d7-bb36-4d5d-8aee-b0707763a9ed
Aboelkassem, Yasser
8c5d0e39-c019-4d4d-96e0-594fd65e1070
Belkhatir, Zehor
de90d742-a58f-4425-837c-20ff960fb9b6
Laleg-Kirati, Taous-Meriem
0363864e-a21e-44ed-9c9d-f43f3491b758
Bahloul, Mohamed A.
4163b3d7-bb36-4d5d-8aee-b0707763a9ed
Aboelkassem, Yasser
8c5d0e39-c019-4d4d-96e0-594fd65e1070
Belkhatir, Zehor
de90d742-a58f-4425-837c-20ff960fb9b6
Laleg-Kirati, Taous-Meriem
0363864e-a21e-44ed-9c9d-f43f3491b758
Bahloul, Mohamed A., Aboelkassem, Yasser, Belkhatir, Zehor and Laleg-Kirati, Taous-Meriem
(2023)
Fractional-order modeling of arterial compliance in vascular aging: a computational biomechanical approach for investigating cardiovascular dynamics.
IEEE Open Journal of Engineering in Medicine and Biology, 5, .
(doi:10.1109/OJEMB.2023.3343083).
Abstract
Goal: the goal of this study is to investigate the application of fractional-order calculus in modeling arterial compliance in human vascular aging.
Methods: a novel fractional-order modified arterial Windkessel model that incorporates a fractional-order capacitor (FOC) element is proposed to capture the complex and frequency-dependent properties of arterial compliance. The model's performance is evaluated by verifying it using data collected from three different human subjects, with a specific focus on aortic pressure and flow rates.
Results: the results show that the FOC model accurately captures the dynamics of arterial compliance, providing a flexible means to estimate central blood pressure distribution and arterial stiffness.
Conclusions: this study demonstrates the potential of fractional-order calculus in advancing the modeling and characterization of arterial compliance in human vascular aging. The proposed FOC model can improve our understanding of the physiological changes in arterial compliance associated with aging and help to identify potential interventions for age-related cardiovascular diseases.
Text
Fractional-Order_Modeling_of_Arterial_Compliance_in_Vascular_Aging_A_Computational_Biomechanical_Approach_for_Investigating_Cardiovascular_Dynamics
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Accepted/In Press date: 5 December 2023
e-pub ahead of print date: 14 December 2023
Identifiers
Local EPrints ID: 493134
URI: http://eprints.soton.ac.uk/id/eprint/493134
ISSN: 2644-1276
PURE UUID: fd0355fe-78c8-4021-aa39-b030622f3dc4
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Date deposited: 23 Aug 2024 16:50
Last modified: 23 Aug 2024 17:16
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Contributors
Author:
Mohamed A. Bahloul
Author:
Yasser Aboelkassem
Author:
Zehor Belkhatir
Author:
Taous-Meriem Laleg-Kirati
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