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Predicting the In Vivo Performance of Cardiovascular Biomaterials: Current Approaches In Vitro Evaluation of Blood-Biomaterial Interactions

Anne Strohbach, Raila Busch

2021International Journal of Molecular Sciences23 citationsDOIOpen Access PDF

Abstract

The therapeutic efficacy of a cardiovascular device after implantation is highly dependent on the host-initiated complement and coagulation cascade. Both can eventually trigger thrombosis and inflammation. Therefore, understanding these initial responses of the body is of great importance for newly developed biomaterials. Subtle modulation of the associated biological processes could optimize clinical outcomes. However, our failure to produce truly blood compatible materials may reflect our inability to properly understand the mechanisms of thrombosis and inflammation associated with biomaterials. In vitro models mimicking these processes provide valuable insights into the mechanisms of biomaterial-induced complement activation and coagulation. Here, we review (i) the influence of biomaterials on complement and coagulation cascades, (ii) the significance of complement-coagulation interactions for the clinical success of cardiovascular implants, (iii) the modulation of complement activation by surface modifications, and (iv) in vitro testing strategies.

Topics & Concepts

BiomaterialComplement systemCoagulationIn vivoInflammationCoagulation cascadeIn vitroComplement (music)MedicineComputational biologyImmunologyChemistryBiomedical engineeringBiologyImmune systemThrombinBiochemistryInternal medicineGenePlateletPhenotypeComplementationBiotechnologyPolymer Surface Interaction StudiesElectrospun Nanofibers in Biomedical ApplicationsPlatelet Disorders and Treatments
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