A strong rationale supports the development of adsorption-based extracorporeal blood purification in conditions such as sepsis, acute kidney disease, uremia, and acute liver failure. The retention of compounds as a consequence of acute or chronic organ dysfunction might have detrimental effects. When a causative effect of an accumulated compound in a pathogenic condition is demonstrated, a rationale for the removal of this solute is also established. Adsorption is a mass transfer mechanism in which a solute chemically interacts with the surface of a solid structure (sorbent) and is removed from its solvent (i.e., blood or plasma). Traditional extracorporeal blood purification techniques utilize semipermeable membranes and depend mainly on diffusion and convection as mechanisms of mass transfer. Protein-bound solutes and water-soluble compounds with molecular weight above 25 kDa are scantly removed by either diffusive or convective clearances. In contrast, recently developed resins have demonstrated safety aligned with notable adsorptive capability, which enables the extraction of endotoxins, inflammatory mediators, and uremic toxins. The understanding of the kinetics of these elements and the improvement in patient selection are key factors to propel exploratory and confirmatory trials that ultimately will lead to the expected changes in clinical practice.
Keyphrases
- liver failure
- hepatitis b virus
- aqueous solution
- respiratory failure
- clinical practice
- clinical trial
- water soluble
- aortic dissection
- drug induced
- oxidative stress
- magnetic resonance
- intensive care unit
- magnetic resonance imaging
- binding protein
- recombinant human
- protein protein
- ionic liquid
- mechanical ventilation
- heat shock protein