Enhancing Tissue Impedance Measurement through Modeling of Fluid Flow During Viscoelastic Relaxationhttps://www.embs.org/tbme/wp-content/uploads/sites/19/2023/01/TBME-00754-2022-Website_Image.jpeg789444IEEE Transactions on Biomedical Engineering (TBME)IEEE Transactions on Biomedical Engineering (TBME)//www.embs.org/tbme/wp-content/uploads/sites/19/2022/06/ieee-tbme-logo2x.png
This work proposes a model based on differential equations accounting for fluid outflow in tissue under deformation and its impact on impedance measurements used for cancerous tissue differentiation.
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Electromechanical Characterization of Human Brain Tissues: A Potential Biomarker for Tumor Delineationhttps://www.embs.org/tbme/wp-content/uploads/sites/19/2022/10/TBME-01936-2021-Website_2021-Image.gif789444IEEE Transactions on Biomedical Engineering (TBME)IEEE Transactions on Biomedical Engineering (TBME)//www.embs.org/tbme/wp-content/uploads/sites/19/2022/06/ieee-tbme-logo2x.png
The study demonstrates that simultaneous electromechanical characterization of brain tumors and normal brain tissues can be an effective biomarker for tumor delineation, grading, and studying heterogeneity between the brain regions.
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