Thrombin Weakens the Amnion Extracellular Matrix (ECM) Directly Rather Than Through Protease Activated Receptors Read more about Thrombin Weakens the Amnion Extracellular Matrix (ECM) Directly Rather Than Through Protease Activated Receptors
Investigating a continuous shear strain function for depth-dependent properties of native and tissue engineering cartilage using pixel-size data. Read more about Investigating a continuous shear strain function for depth-dependent properties of native and tissue engineering cartilage using pixel-size data.
Scaffold-free cartilage subjected to frictional shear stress demonstrates damage by cracking and surface peeling Read more about Scaffold-free cartilage subjected to frictional shear stress demonstrates damage by cracking and surface peeling
Towards the feasibility of using ultrasound to determine mechanical properties of tissues in a sealed bioreactor Read more about Towards the feasibility of using ultrasound to determine mechanical properties of tissues in a sealed bioreactor
Determination of poroelastic properties of cartilage using constrained optimization coupled with finite element analysis Read more about Determination of poroelastic properties of cartilage using constrained optimization coupled with finite element analysis
Decidual GM-CSF is a critical common intermediate necessary for thrombin and TNF induced in-vitro fetal membrane weakening. Read more about Decidual GM-CSF is a critical common intermediate necessary for thrombin and TNF induced in-vitro fetal membrane weakening.
Coefficient of friction can identify damage in native and engineered cartilage subjected to frictional-shear stress Read more about Coefficient of friction can identify damage in native and engineered cartilage subjected to frictional-shear stress
Progesterone inhibits in-vitro fetal membrane weakening Read more about Progesterone inhibits in-vitro fetal membrane weakening
Progesterone Inhibits a Critical Pathway for Fetal Membrane Weakening, In Vitro Read more about Progesterone Inhibits a Critical Pathway for Fetal Membrane Weakening, In Vitro
Integrated RF Architectures in Fully Organic SOP Technology Read more about Integrated RF Architectures in Fully Organic SOP Technology
