Communication Dans Un Congrès Année : 2025

MICROWAVE DIELECTRIC SPECTROSCOPY FOR BIOLOGICAL CHARACTERIZATION AND HEALTHCARE APPLICATIONS: EXPLORING THE 3D BIOLOGICAL SCALE

Résumé

Non-invasive techniques for characterizing biological materials are essential for advancing biomedical research. Among these, microwave dielectric spectroscopy (MDS) has emerged as a powerful method for non-invasive, non-destructive, cost-effective and label-free analysis. By measuring the interaction of microwave frequencies with biological structures, MDS provides insights into hydration, cellular density, and metabolic activity without damaging the sample. While MDS has been successfully applied to 2D biological systems, its adaptation for assessment of 3D samples remains largely unexplored. A few years ago, our team initiated efforts to bridge this gap, and this paper presents our progress while exploring the application of MDS to 3D biological objects, including cancerous hepatic spheroids.

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hal-05418342 , version 1 (16-12-2025)

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  • HAL Id : hal-05418342 , version 1

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Olivia Peytral-Rieu, David Dubuc, Katia Grenier. MICROWAVE DIELECTRIC SPECTROSCOPY FOR BIOLOGICAL CHARACTERIZATION AND HEALTHCARE APPLICATIONS: EXPLORING THE 3D BIOLOGICAL SCALE. BioElectromagnetics 2025, Jun 2025, Rennes (FR), France. ⟨hal-05418342⟩
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