Abstract
This study is focused on the adhesion and differentiation of the human primary mesenchymal stem cells (hMSC) to osteoblasts lineage on biological-derived hydroxyapatite (BHA) and lithium-doped BHA (BHA:LiP) coatings synthesized by Pulsed Laser Deposition. An optimum adhesion of the cells on the surface of BHA:LiP coatings compared to control (uncoated Ti) was demonstrated using immunofluorescence labelling of actin and vinculin, two proteins involved in the initiation of the cell adhesion process. BHA:LiP coatings were also found to favor the differentiation of the hMSC towards an osteoblastic phenotype in the presence of osteoinductive medium, as revealed by the evaluation of osteoblast-specific markers, osteocalcin and alkaline phosphatase. Numerous nodules of mineralization secreted from osteoblast cells grown on the surface of BHA:LiP coatings and a 3D network-like organization of cells interconnected into the extracellular matrix were evidenced. These findings highlight the good biocompatibility of the BHA coatings and demonstrate that the use of lithium as a doping agent results in an enhanced osteointegration potential of the synthesized biomaterials, which might therefore represent viable candidates for future in vivo applications.
Highlights
Surface properties of the biomaterials used for implants, such as chemistry and topography, are of crucial importance in establishing the tissue response to the success or failure of an implant [1,2,3,4].Titanium (Ti) implants have been widely used in dental and orthopedic fields for bone replacement and tissue engineering due to their remarkable performances [5,6]
Biologically-derived hydroxyapatite (BHA) and lithium-doped biological-derived hydroxyapatite (BHA) (BHA:LiP) coatings were synthesized by pulsed laser deposition onto medical-grade titanium (Ti) substrates
The morphological and cellular adhesion investigations performed in vitro showed that BHA:LiP coatings induced an enhanced adhesion of the primary human mesenchymal stem cells as compared to Ti or BHA
Summary
Titanium (Ti) implants have been widely used in dental and orthopedic fields for bone replacement and tissue engineering due to their remarkable performances [5,6]. Synthetic hydroxyapatite (HA) is a well-known biocompatible material used as an implantable ceramic for bone replacement due to its chemical-structural similarity with the inorganic part of Coatings 2019, 9, 781; doi:10.3390/coatings9120781 www.mdpi.com/journal/coatings. Coatings 2019, 9, 781 human bone tissues [10]. It is stable in simulated biological fluids and exhibits an osteoconductive behavior [11,12]. Despite this capacity, HA ceramics possess weak mechanical properties [13]
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