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Repair and regeneration requires more than a single component. It requires a foundational structure that more closely reflects the complexity of the body’s own extracellular matrix (ECM).
Our patented CXU ECM is designed to serve as that foundation. Composed of multiple ECM proteins, structural elements and sugars, it is engineered to more closely mimic human tissue ECM than collagen alone.
Following tissue loss or damage, the body’s structural foundation can be diminished or disrupted. CXU is designed as a biomimetic ECM intended to support cell migration, vascularization, integration and the conditions tissue repair and regeneration depend on.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
How CXU Works
How CXU Works
Starts as a flowable liquid
At room temperature, CXU flows to fill voids where tissue has been lost, maintaining continuous contact for seamless adaptation in the body’s tissue spaces.1,2,3,4,5
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
How CXU Works
Set as a gel
After ~10 minutes at 37°C, CXU transforms into a gel that provides volume and creates a stable interface: 1,2,3,4,6
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
How CXU Works
Starts as a flowable liquid
At room temperature, CXU flows to fill voids where tissue has been lost, maintaining continuous contact for seamless adaptation in the body’s tissue spaces.1,2,3,4,5
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
CXU™ scaffold is designed to provide a structural environment that may support host cell integration and remodeling, to enable multi-cell migration and proliferation within the ECM scaffold.
Conexeu is not simply repairing tissue. We are building a new blueprint for regeneration, one that is disciplined, intentional and grounded in more than a decade of research.
Developed over 10 years at the University of British Columbia, recipient of institutional and think tank awards
Acta Biomaterialia, Advances in Wound Care, Biomedical Materials, Canadian Journal of Diabetes, Experimental Dermatology, Gels, Journal of Burn Care, Tissue Engineering, Transplantation
*All cited studies are preclinical. Findings have not been validated in human clinical trials and are not predictive of clinical outcomes.
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