P
Peter Regitnig
Researcher at Medical University of Graz
Publications - 138
Citations - 8163
Peter Regitnig is an academic researcher from Medical University of Graz. The author has contributed to research in topics: Breast cancer & Cancer. The author has an hindex of 41, co-authored 125 publications receiving 6944 citations. Previous affiliations of Peter Regitnig include University of Graz.
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Determination of layer-specific mechanical properties of human coronary arteries with nonatherosclerotic intimal thickening and related constitutive modeling
TL;DR: The study showed the need to model nonstenotic human coronary arteries with nonatherosclerotic intimal thickening as a composite structure composed of three solid mechanically relevant layers with different mechanical properties.
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Magnetic resonance imaging of the breast: recommendations from the EUSOMA working group.
Francesco Sardanelli,Carla Boetes,Bettina Borisch,Thomas Decker,Massimo Federico,Fiona J. Gilbert,Thomas H. Helbich,S H Heywang-Köbrunner,Werner A. Kaiser,Michael J. Kerin,Robert E. Mansel,Lorenza Marotti,L. Martincich,L. Mauriac,Hanne Meijers-Heijboer,Roberto Orecchia,Pietro Panizza,Antonio Ponti,Arnie Purushotham,Peter Regitnig,Marco Rosselli Del Turco,Fabienne Thibault,Robin Wilson +22 more
TL;DR: The working group strongly suggests that all breast cancer specialists cooperate for an optimal clinical use of this emerging technology and for future research, focusing on patient outcome as primary end-point.
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Anisotropic mechanical properties of tissue components in human atherosclerotic plaques.
TL;DR: Experimental data of individual samples indicated anisotropic and highly nonlinear tissue properties as well as considerable interspecimen differences in the atherosclerotic lesions.
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Single lamellar mechanics of the human lumbar anulus fibrosus
TL;DR: The single anulus lamella may be seen as the elementary structural unit of the anulus fibrosus, and exhibits marked anisotropy and distinct regional variation of tensile properties and fiber angles.
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Brain tissue deforms similarly to filled elastomers and follows consolidation theory
TL;DR: A systematic series of in vitro experiments on human brain tissue reveals the first direct evidence that the tissue obeys consolidation theory involving fluid migration, with properties similar to fine soils, but having much smaller volumetric compressibility.