Domain-driven binding of fibrin(ogen) onto silk fibroin biomaterials

Matteo Santin; Stephen Denyer; Andrew Lloyd; A. Motta

doi:10.1106/088391102026326

Domain-driven binding of fibrin(ogen) onto silk fibroin biomaterials

Matteo Santin, Stephen Denyer, Andrew Lloyd, A. Motta

Research output: Contribution to journal › Article › peer-review

Abstract

Studies have demonstrated that serum protein adsorption onto silk fibroin-based biomaterials dramatically changes when the conformation of this natural polymer is rearranged by engineering procedures. In the present study, attention was paid to the binding of fibrin(ogen) to fibroin fibers and regenerated films. The fibroin specimens were incubated either in human plasma or in a fibrinogen solution to which thrombinwas added to activate the polymerization of the precursor into the final product, fibrin. The experiments were carried out in the presence and absence of calcium to investigate the role of calcium-dependent enzymes in the binding process. The two types of samples were analyzed by SEM, the micrographs showed completely different interactions with fibrinogen. Films did not show any visible fibrin polymerization, whereas the fibers were bound to the fibrin bundles by calcium-independent mechanisms.

Original language	English
Pages (from-to)	195-208
Number of pages	14
Journal	Journal of Bioactive and Compatible Polymers
Volume	17
Issue number	3
DOIs	https://doi.org/10.1106/088391102026326
Publication status	Published - May 2002

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title = "Domain-driven binding of fibrin(ogen) onto silk fibroin biomaterials",

abstract = "Studies have demonstrated that serum protein adsorption onto silk fibroin-based biomaterials dramatically changes when the conformation of this natural polymer is rearranged by engineering procedures. In the present study, attention was paid to the binding of fibrin(ogen) to fibroin fibers and regenerated films. The fibroin specimens were incubated either in human plasma or in a fibrinogen solution to which thrombinwas added to activate the polymerization of the precursor into the final product, fibrin. The experiments were carried out in the presence and absence of calcium to investigate the role of calcium-dependent enzymes in the binding process. The two types of samples were analyzed by SEM, the micrographs showed completely different interactions with fibrinogen. Films did not show any visible fibrin polymerization, whereas the fibers were bound to the fibrin bundles by calcium-independent mechanisms.",

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AU - Denyer, Stephen

AU - Lloyd, Andrew

AU - Motta, A.

N1 - Copyright Sage Publications

PY - 2002/5

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N2 - Studies have demonstrated that serum protein adsorption onto silk fibroin-based biomaterials dramatically changes when the conformation of this natural polymer is rearranged by engineering procedures. In the present study, attention was paid to the binding of fibrin(ogen) to fibroin fibers and regenerated films. The fibroin specimens were incubated either in human plasma or in a fibrinogen solution to which thrombinwas added to activate the polymerization of the precursor into the final product, fibrin. The experiments were carried out in the presence and absence of calcium to investigate the role of calcium-dependent enzymes in the binding process. The two types of samples were analyzed by SEM, the micrographs showed completely different interactions with fibrinogen. Films did not show any visible fibrin polymerization, whereas the fibers were bound to the fibrin bundles by calcium-independent mechanisms.

AB - Studies have demonstrated that serum protein adsorption onto silk fibroin-based biomaterials dramatically changes when the conformation of this natural polymer is rearranged by engineering procedures. In the present study, attention was paid to the binding of fibrin(ogen) to fibroin fibers and regenerated films. The fibroin specimens were incubated either in human plasma or in a fibrinogen solution to which thrombinwas added to activate the polymerization of the precursor into the final product, fibrin. The experiments were carried out in the presence and absence of calcium to investigate the role of calcium-dependent enzymes in the binding process. The two types of samples were analyzed by SEM, the micrographs showed completely different interactions with fibrinogen. Films did not show any visible fibrin polymerization, whereas the fibers were bound to the fibrin bundles by calcium-independent mechanisms.

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DO - 10.1106/088391102026326

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JO - Journal of Bioactive and Compatible Polymers

JF - Journal of Bioactive and Compatible Polymers

IS - 3

ER -

Domain-driven binding of fibrin(ogen) onto silk fibroin biomaterials

Abstract

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