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Elena Stavenschi Toth
Elena Stavenschi Toth
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Cited by
Cited by
Year
TRPV4-mediates oscillatory fluid shear mechanotransduction in mesenchymal stem cells in part via the primary cilium
MA Corrigan, GP Johnson, E Stavenschi, M Riffault, MN Labour, DA Hoey
Scientific reports 8 (1), 3824, 2018
1102018
Oscillatory fluid flow induces the osteogenic lineage commitment of mesenchymal stem cells: The effect of shear stress magnitude, frequency, and duration
E Stavenschi, MN Labour, DA Hoey
Journal of biomechanics 55, 99-106, 2017
912017
Physiological cyclic hydrostatic pressure induces osteogenic lineage commitment of human bone marrow stem cells: a systematic study
E Stavenschi, MA Corrigan, GP Johnson, M Riffault, DA Hoey
Stem Cell Research & Therapy 9, 1-13, 2018
602018
Mesenchymal stem cell mechanotransduction is cAMP dependent and regulated by adenylyl cyclase 6 and the primary cilium
GP Johnson, E Stavenschi, KF Eichholz, MA Corrigan, S Fair, DA Hoey
Journal of Cell Science 131 (21), jcs222737, 2018
372018
Centriole splitting caused by loss of the centrosomal linker protein C-NAP1 reduces centriolar satellite density and impedes centrosome amplification
AM Flanagan, E Stavenschi, S Basavaraju, D Gaboriau, DA Hoey, ...
Molecular biology of the cell 28 (6), 736-745, 2017
332017
Pressure‐induced mesenchymal stem cell osteogenesis is dependent on intermediate filament remodeling
E Stavenschi, DA Hoey
The FASEB Journal 33 (3), 4178-4187, 2019
292019
Mechanically activated mesenchymal-derived bone cells drive vessel formation via an extracellular vesicle mediated mechanism
N Shen, M Maggio, I Woods, M C. Lowry, R Almasri, C Gorgun, ...
Journal of tissue engineering 14, 20417314231186918, 2023
12023
Biophysical Regulation of Stem Cell Osteogenic Lineage Commitment: A Role for the Cytoskeleton
E Stavenschi
Trinity College Dublin, 2019
12019
Mechanically activated bone cells drive vessel formation via an extracellular vesicle mediated mechanism
N Shen, M Maggio, I Woods, M Lowry, KF Eichholz, E Stavenschi, ...
bioRxiv, 2023.02. 10.527969, 2023
2023
A Simple In-Vitro Fluid Flow Stimulation Platform To Enhance Osteogenesis Of Human Mesenchymal Stem Cells
E Stavenschi
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