CytoSorb® Cytokine Adsorber
The CytoSorb® cytokine adsorber is the only specifically approved extracorporeal cytokine adsorber in the European Union.
CytoSorb features advanced biocompatible and hemocompatible porous polymer sorbent bead technology, with an extremely high binding capacity, which has a documented ability to reduce a broad range of cytokines and other inflammatory mediators.
The goal is to reduce, but not eliminate, cytokines to levels that are no longer toxic, while still keeping the immune system intact.
The CytoSorb adsorber is composed of biocompatible porous polymer beads, each roughly the size of a grain of salt, that act like tiny sponges to remove substances from whole blood based on pore capture and surface adsorption. Substances that are larger than the pores, such as blood cells, cannot get into the pores and go around the beads. Very small substances, such as electrolytes and other blood chemistries, are also not captured.
During CytoSorb therapy, the patient’s entire blood volume is recirculated continuously through the adsorber, technically similar to extracorporeal hemoperfusion.
With an estimated total surface area of more than 40,000 square meters (>4 European soccer fields), an adsorber is able to decrease high cytokine levels efficiently and remain effective over an extended period of time (up to 24 hours).
CytoSorb binds proteins exceptionally well, and does so in a concentration dependent manner. Very high concentrations of cytokines and other substances are removed very efficiently, while normal to high normal levels are not significantly removed. This makes it difficult to over-treat and improves the safety profile of the technology.
- CytoSorb is ISO 10993 biocompatible, meeting strict standards of hemocompatibility and biocompatibility.
- CytoSorb is compatible with standard hemodialysis and heart-lung machines found in hospitals worldwide, and is compatible with both systemic heparin or regional citrate anti-coagulation
- CytoSorb is not genotoxic, cytotoxic, and does not cause complement activation or acute sensitivity.