Controlled Release of Fibrin Matrix-conjugated Platelet Derived Growth Factor Improves Ischemic Tissue Regeneration by Functional Angiogenesis

Overview

Journal Acta Biomater

Publisher Elsevier

Specialty Biomedical Engineering

Date 2015 Oct 27

PMID 26497625

Citations 21

Authors

Rainer Mittermayr

Paul Slezak

Nicolas Haffner

Daniel Smolen

Joachim Hartinger

Anna Hofmann

Jason Schense

Daniel Spazierer

Jorg Gampfer

Andreas Goppelt

Heinz Redl

Affiliations

Soon will be listed here.

Abstract

Statement Of Significance: In our experimental study we elucidated recombinant platelet derived growth factor (PDGF) as a potential candidate in inducing angiogenesis. To avoid preterm growth factor degradation in vivo PDGF.AB was covalently linked to a fibrin scaffold using a bi-domain functionalized peptide (FXIII substrate site and plasmin cleavage site). This allowed PDGF binding to fibrin during spray application to the donor site and subsequent prolonged release via endogenous plasmin. This resulted in a mature vascular network thus enhancing tissue perfusion and consequently improved clinical outcome. With our present work we could certainly provide researchers and clinicians with an innovative versatile and reproducible technology not only to induce functional vascularity but also to improve attempts in tissue engineering in general by e.g. using different growth factors. Hence, we believe that this approach studied in the present work may provide a valuable input in an effort to drive the aim forward bringing experimental work in tissue engineering to clinic by using a clinically well characterized and used fibrin scaffold in combination with a human recombinant growth factor (fibrin scaffold linked with the specific binding technology).

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