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Sci Rep ; 10(1): 18493, 2020 10 28.
Artigo em Inglês | MEDLINE | ID: mdl-33116264

RESUMO

Due to their excellent mechanical and biocompatibility properties, titanium-based implants are successfully used as biomedical devices. However, when new bone formation fails for different reasons, impaired fracture healing becomes a clinical problem and affects the patient's quality of life. We aimed to design a new bioactive surface of titanium implants with a synergetic PEG biopolymer-based composition for gradual delivery of growth factors (FGF2, VEGF, and BMP4) during bone healing. The optimal architecture of non-cytotoxic polymeric coatings deposited by dip coating under controlled parameters was assessed both in cultured cells and in a rat tibial defect model (100% viability). Notably, the titanium adsorbed polymer matrix induced an improved healing process when compared with the individual action of each biomolecules. High-performance mass spectrometry analysis demonstrated that recovery after a traumatic event is governed by specific differentially regulated proteins, acting in a coordinated response to the external stimulus. Predicted protein interactions shown by STRING analysis were well organized in hub-based networks related with response to chemical, wound healing and response to stress pathways. The proposed functional polymer coatings of the titanium implants demonstrated the significant improvement of bone healing process after injury.


Assuntos
Regeneração Óssea/efeitos dos fármacos , Próteses e Implantes , Tíbia/fisiopatologia , Titânio/química , Actinas/química , Animais , Biopolímeros , Adesão Celular , Proliferação de Células , Materiais Revestidos Biocompatíveis/química , Biologia Computacional , Consolidação da Fratura/efeitos dos fármacos , Masculino , Espectrometria de Massas , Células-Tronco Mesenquimais , Microscopia de Fluorescência , Osseointegração/efeitos dos fármacos , Desenho de Prótese , Proteômica , Ratos , Ratos Wistar , Propriedades de Superfície
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