R-Live Scaffold Free 3D Human Cardiac Tissue
Stable and Long Lasting Beating Cardiac Tissue.
R-Live: A Superior 3D Human Tissue Model
Combines Click Chemistry and Cell Surface Engineering to Assemble Multiple Cardiac Cell Types in 3D.
The Best Tissue Model for Your Study
Compare Various 2D and 3D Cardiac Tissue Constructs Composed of 1-3 Different Cell Types.
Excellent Cardiac Tissue Function
Outstanding Reproducible Performance in Cardiac Assays. Long Lasting, Durable Functional 3D Cardiac Tissue Model.
Maintain Healthy Cells
Maintains cellular biology and metabolism during manufacturing process to accurately represent the biology being modeled.
The Cells are the Scaffold
No hydrogels or polymers used in the Manufacturing Process. High Density Cell Tissue.
Schematic and images of the procedure to assemble scaffold free cardiac tissue via bio-orthogonal chemistry and cell surface engineering. (Top) Rapid method to assemble cardiac specific cell types in a stable co-culture. (Middle) Comparison of various cardiac tissue constructs containing different cell lines in 2D and 3D. (Bottom) Images showing different cardiac tissue markers. Plots describing the comparison of the various 2D and 3D cardiac tissues upon drug exposure. The 3D mixed cardiac tissue has superior cardiac function. Without ViaGlue, cells do not assemble and only single cells or monolayer of cells in culture are generated.
Download the "R-Live 3D Cardiac Tissue" brochure
Custom Tissue Partnerships
OrganoLinX works collaboratively with industry partners to design and create custom 3D tissues for a variety of in vitro and in vivo applications.
Learn more about the process of creating 3D tissues, or contact us for more information.