Simple, biomimetic tissue culture devices.
Think soft!
The physical properties of the substrate on which cells are grown profoundly influences the culture, as recent scientific data demonstrates. Substrate elasticity is as powerful to determine cell behavior and identity as is their chemical milieu.
Grow soft!
ExCellness provides non-degradable tissue culture surfaces with the elasticity of human tissue, ranging from the stiffness of bone to the softness of brain. Culturing your cells on our adapted culture substrates makes them "FEELING AT HOME"!
Enjoy soft!
Culturing your cells on ExCellness tailored culture substrates allows to:
Our solution : biomimetic, elastic cell culture substrates
Our technology is based on the fact that the softness of the culture surface influences cell performance. We offer culture dishes with elastic surfaces that imitate the physical properties of tissues in the human body, ranging from the stiffness of bone to the softness of brain tissues.
The physical properties of the substrate on which cells are grown profoundly influences the culture, as recent scientific data demonstrates. Substrate elasticity is as powerful to determine cell behavior and identity as is their chemical milieu.
Grow soft!
ExCellness provides non-degradable tissue culture surfaces with the elasticity of human tissue, ranging from the stiffness of bone to the softness of brain. Culturing your cells on our adapted culture substrates makes them "FEELING AT HOME"!
Enjoy soft!
Culturing your cells on ExCellness tailored culture substrates allows to:
- determine the optimal mechanical conditions for cells to express proteins of interest appropriately
- model healthy and diseased tissues in vitro
- determine the effect of substrate elasticity on cell proliferation rates, apoptosis, cytokine production, metabolism...
Our solution : biomimetic, elastic cell culture substrates
Our technology is based on the fact that the softness of the culture surface influences cell performance. We offer culture dishes with elastic surfaces that imitate the physical properties of tissues in the human body, ranging from the stiffness of bone to the softness of brain tissues.