The effect of integrin-specific bioactive coatings on tissue healing and implant osseointegration

Abstract Implant osseointegration, defined as bone apposition and functional fixation, is a requisite for clinical success in orthopaedic and dental applications, many of which are restricted by implant loosening. Modification of implants to present bioactive motifs such as the RGD cell-adhesive seq...

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Veröffentlicht in:	Biomaterials 2008-07, Vol.29 (19), p.2849-2857
Hauptverfasser:	Petrie, Timothy A, Raynor, Jenny E, Reyes, Catherine D, Burns, Kellie L, Collard, David M, García, Andrés J
Format:	Artikel
Sprache:	eng
Schlagworte:	Advanced Basic Science Animals Bone Cell adhesion Cell Differentiation Cells, Cultured Dentistry FAK Fibronectin Integrins Integrins - chemistry Osseointegration Rats RGD Wound Healing
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container_title	Biomaterials
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creator	Petrie, Timothy A Raynor, Jenny E Reyes, Catherine D Burns, Kellie L Collard, David M García, Andrés J
description	Abstract Implant osseointegration, defined as bone apposition and functional fixation, is a requisite for clinical success in orthopaedic and dental applications, many of which are restricted by implant loosening. Modification of implants to present bioactive motifs such as the RGD cell-adhesive sequence from fibronectin (FN) represents a promising approach in regenerative medicine. However, these biomimetic strategies have yielded only marginal enhancements in tissue healing in vivo . In this study, clinical-grade titanium implants were grafted with a non-fouling oligo(ethylene glycol)-substituted polymer coating functionalized with controlled densities of ligands of varying specificity for target integrin receptors. Biomaterials presenting the α5 β1 -integrin-specific FN fragment FNIII7-10 enhanced osteoblastic differentiation in bone marrow stromal cells compared to unmodified titanium and RGD-presenting surfaces. Importantly, FNIII7-10 -functionalized titanium significantly improved functional implant osseointegration compared to RGD-functionalized and unmodified titanium in vivo . This study demonstrates that bioactive coatings that promote integrin binding specificity regulate marrow-derived progenitor osteoblastic differentiation and enhance healing responses and functional integration of biomedical implants. This work identifies an innovative strategy for the rational design of biomaterials for regenerative medicine.
doi_str_mv	10.1016/j.biomaterials.2008.03.036
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Modification of implants to present bioactive motifs such as the RGD cell-adhesive sequence from fibronectin (FN) represents a promising approach in regenerative medicine. However, these biomimetic strategies have yielded only marginal enhancements in tissue healing in vivo . In this study, clinical-grade titanium implants were grafted with a non-fouling oligo(ethylene glycol)-substituted polymer coating functionalized with controlled densities of ligands of varying specificity for target integrin receptors. Biomaterials presenting the α5 β1 -integrin-specific FN fragment FNIII7-10 enhanced osteoblastic differentiation in bone marrow stromal cells compared to unmodified titanium and RGD-presenting surfaces. Importantly, FNIII7-10 -functionalized titanium significantly improved functional implant osseointegration compared to RGD-functionalized and unmodified titanium in vivo . 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This study demonstrates that bioactive coatings that promote integrin binding specificity regulate marrow-derived progenitor osteoblastic differentiation and enhance healing responses and functional integration of biomedical implants. 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subjects	Advanced Basic Science Animals Bone Cell adhesion Cell Differentiation Cells, Cultured Dentistry FAK Fibronectin Integrins Integrins - chemistry Osseointegration Rats RGD Wound Healing
title	The effect of integrin-specific bioactive coatings on tissue healing and implant osseointegration
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