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Research interests
My current research activities are mainly focused on the assessment and the understanding of biomechanics within the human body for disease characterization and therapy efficacy evaluation by using MR and ultrasound elastography. This interest goes far beyond the “plain” measurement of tissues’ viscoelastic properties, but reaches out into fundamental physics such as for instance anomalous wave propagation in fractal-like media and apoptotic cellular processes triggered via mechanotransduction.
At present, I envisage 4 main stream research foci in order to complement and extend the current research portfolio in the bioengineering group at KCL:
Fundamental physics of waves in scattering hierarchical media encompassing acoustics (shear and compressional waves) as well as electromagnetic waves (RF and light);
Broadband biomechanical modelling of the human heart via MR-elastography: assessing the viscoelastic, poroelastic and anisotropic mechanical properties of the myocardium;
Translational studies aiming at bringing novel mechanical imaging biomarkers to the patient for early diagnosis, intervention planning, and therapy;
Interaction of waves with cells: how can mechanotransduction steer the fate of a cell?
My current research activities are mainly focused on the assessment and the understanding of biomechanics within the human body for disease characterization and therapy efficacy evaluation by using MR and ultrasound elastography. This interest goes far beyond the “plain” measurement of tissues’ viscoelastic properties, but reaches out into fundamental physics such as for instance anomalous wave propagation in fractal-like media and apoptotic cellular processes triggered via mechanotransduction.
At present, I envisage 4 main stream research foci in order to complement and extend the current research portfolio in the bioengineering group at KCL:
Fundamental physics of waves in scattering hierarchical media encompassing acoustics (shear and compressional waves) as well as electromagnetic waves (RF and light);
Broadband biomechanical modelling of the human heart via MR-elastography: assessing the viscoelastic, poroelastic and anisotropic mechanical properties of the myocardium;
Translational studies aiming at bringing novel mechanical imaging biomarkers to the patient for early diagnosis, intervention planning, and therapy;
Interaction of waves with cells: how can mechanotransduction steer the fate of a cell?
研究兴趣
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JOURNAL OF MAGNETIC RESONANCE IMAGINGno. 2 (2024): 688-698
Marcos Wolf,Omar Darwish,Radhouene Neji, Michael Eder, Gere Sunder-Plassmann, Gertraud Heinz,Simon Daniel Robinson,Albrecht Ingo Schmid, Ewald V. Moser,Ralph Sinkus,Martin Meyerspeer
FRONTIERS IN PHYSIOLOGY (2024): 1327407-1327407
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Patriek Jurrius,Omar Darwish,Daniel Fovargue, Belul Shifa, Kathleen A. Welsh, Joanna Bell, Sarah-Jane Hamilton, J. David Spence,Giacomo Annio,Renee Miller,Marian Troelstra,Ashutosh Kothari,
openalex(2023)
medRxiv (Cold Spring Harbor Laboratory)no. 1 (2023)
Emma L Reeves,Jin Li,Konstantinos Zormpas-Petridis,Jessica K R Boult, James Sullivan,Craig Cummings,Barbara Blouw,David Kang,Ralph Sinkus,Jeffrey C Bamber,Yann Jamin,Simon P Robinson
Korean journal of radiologyno. 6 (2023): 564-573
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