Complementary Split-Ring Resonator for Non-Invasive Diagnosis of Carotid Artery Atherosclerosis: Towards Future in-Vivo Measurements - 26/02/25
, Frédérique Deshours a, Georges Alquie a, Rania Shahbaz a, Sylvain Feruglio b, Olivier Meyer a, Dimitri Galayko b, Hamid Kokabi a, Jean-Michel Davaine cAbstract |
Objectives |
The limited penetration depth of electromagnetic (EM) waves into biological tissues is a significant challenge for the use of microwave sensors in medical diagnostics. This study proposes a sensor based on a complementary split-ring resonator (CSRR) for the non-invasive detection of carotid atherosclerotic plaques, designed to be placed on the patient's neck.
Material and methods |
The sensor employs a widened feed line and an optimized sensing area to concentrate the electric field and store a significant amount of energy within the biological tissue. Validation includes EM simulations and ex-vivo measurements on fresh animal tissues using monolayer and multilayer configurations to simulate human neck anatomy. A three-dimensional carotid artery model is also introduced to extend the analysis to deeper tissue layers and simulate different degrees of stenosis between 25% and 75%.
Results |
The sensor demonstrates a sensitivity of 0.72% and a detection resolution of 14 MHz for a dielectric constant range from 1 to 52 in material measurements, which has contributed to enhancing the EM penetration depth in neck tissues. Simulation results for atherosclerotic plaques in the carotid artery revealed a frequency shift difference induced by stable and vulnerable plaques of around 1 to 2 MHz.
Conclusion |
These findings highlight the sensor's potential for future use in the in- vivo diagnosis of carotid artery atherosclerosis.
Le texte complet de cet article est disponible en PDF.Graphical abstract |
Highlights |
• | Microwave sensors distinguish biological tissues by their dielectric properties. |
• | CSRR with strong coupling and expanded sensing area improves atheroma detection. |
• | Wave penetration through multilayers is studied using excised porcine tissues. |
• | EM simulations using a 3D carotid model predict types of atheroma with the CSRR. |
• | Will allow in-vivo measurements for non-invasive carotid plaque analysis. |
Keywords : Complementary split-ring resonator, Microwave sensor, Dielectric characterisation, Frequency sensitivity, Atherosclerosis, Carotid artery
Plan
Vol 46 - N° 2
Article 100883- avril 2025 Retour au numéro
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