Peyton:Research: Difference between revisions
Line 44: | Line 44: | ||
== Stiffness Sensing as a Metastatic Indicator == | == Stiffness Sensing as a Metastatic Indicator == | ||
''Dannielle Ryman, in collaboration with Al Crosby in PSE''<br> | ''Dannielle Ryman, in collaboration with Al Crosby in PSE''<br> | ||
'''Funding: MRSEC'''<br> | '''Funding: MRSEC Seed Award'''<br> | ||
We are working with Yuri Ebata and Yujie Liu from Al Crosby's lab in PSE to make novel substrates with unique presentation of stiffness arrays and mechanical length scales. We are visualizing how breast cancer cells of varying known metastatic capability sense and respond (namely, migration and mitosis) to these changes in stiffness. | We are working with Yuri Ebata and Yujie Liu from Al Crosby's lab in PSE to make novel substrates with unique presentation of stiffness arrays and mechanical length scales. We are visualizing how breast cancer cells of varying known metastatic capability sense and respond (namely, migration and mitosis) to these changes in stiffness. | ||
Revision as of 14:05, 14 September 2012
Matrix Physicochemical Cues as Chemotherapeutic Protective Agents in Hepatocellular CarcinomaThuy Nguyen
Inflammatory Feedback Loops in Cardiovascular DiseaseWill Herrick
Stiffness Sensing as a Metastatic IndicatorDannielle Ryman, in collaboration with Al Crosby in PSE Predicting Tissue Tropism in MetastasisFUNDING: NSF PESO 1234852
Anomalous Diffusion Methods to Predict 3D Stem Cell Motility in Porous ScaffoldsTyler Vlass, in Collaboration with Josh Cohen at MIT and Ryan Hayward in PSE |