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Tissue response to biphasic calcium phosphate covalently modified with either heparin or hyaluronic acid in a mouse subcutaneous implantation model
Author(s) -
Stojanović Sanja,
AlKhoury Hala,
Radenković Milena,
Cvetković Vladimir,
Jablonska Magdalena,
Schmelzer Christian E.H.,
Syrowatka Frank,
Živković Jelena M.,
Groth Thomas,
Najman Stevo
Publication year - 2021
Publication title -
journal of biomedical materials research part a
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.849
H-Index - 150
eISSN - 1552-4965
pISSN - 1549-3296
DOI - 10.1002/jbm.a.37126
Subject(s) - hyaluronic acid , glycosaminoglycan , in vivo , fibrosis , inflammation , calcium , resorption , materials science , bone tissue , heparin , biomedical engineering , chemistry , medicine , biochemistry , biology , anatomy , microbiology and biotechnology
Abstract Biphasic calcium phosphate (BCP) materials are widely employed as bone substitute materials due to their resorption/degradation properties. Inflammation after implantation of such materials represents a prerequisite for bone tissue repair and regeneration but can be also problematic if it is not only transient and if it is followed by fibrosis and scarring. Here, we modified BCP covalently with hyaluronan (HA) and heparin (Hep), glycosaminoglycans that possess anti‐inflammatory properties. Beside the characterization of particle surface properties, the focus was on in vivo tissue response after subcutaneous implantation in mice. Histological analysis revealed a decrease in signs of inflammatory response to BCP when modified with either HA or Hep. Reduced vascularization after 30 days was noticed when BCP was modified with either HA or Hep with greater cellularity in all examined time points. Compared to plain BCP, expression of endothelial‐related genes Flt1 and Vcam1 was higher in BCP‐HA and BCP‐Hep group at day 30. Expression of osteogenesis‐related genes Sp7 and Bglap after 30 days was the highest in BCP group, followed by BCP‐Hep, while the lowest expression was in BCP‐HA group which correlates with collagen amount. Hence, coating of BCP particles with HA seems to suppress inflammatory response together with formation of new bone‐like tissue, while the presence of Hep delays the onset of inflammatory response but permits osteogenesis in this subcutaneous bone‐forming model. Transferring the results of this study to other coated materials intended for biomedical application may also pave the way to reduction of inflammation after their implantation.