Antimicrobial activity of ion-substituted calcium phosphates: A systematic review.

In this systematic review, the antimicrobial effect of ion-substituted calcium phosphate biomaterials was quantitatively assessed. The literature was systematically searched up to the 6th of December 2021. Study selection and data extraction was performed in duplo by two independent reviewers with a modified version of the OHAT tool for risk of bias assessment.

Site-specific differences in osteoblast phenotype, mechanical loading response and estrogen receptor-related gene expression.

The osteoporosis-resistant nature of skull bones implies inherent differences exist between their cellular responses and those of other osteoporosis-susceptible skeletal sites. Phenotypic differences in calvarial and femoral osteoblastic responses to induction of osteogenesis, mechanical loading, estrogen, growth factor and cytokine stimulation were investigated. Primary rat calvarial and femoral adult male osteoblasts were cultured and osteoblastic mineralisation and maturation determined using Alizarin Red staining and expression of osteogenic marker genes assessed.

Chitosan functionalized poly-ε-caprolactone electrospun fibers and 3D printed scaffolds as antibacterial materials for tissue engineering applications.

Tissue engineering (TE) approaches often employ polymer-based scaffolds to provide support with a view to the improved regeneration of damaged tissues. The aim of this research was to develop a surface modification method for introducing chitosan as an antibacterial agent in both electrospun membranes and 3D printed poly-ε-caprolactone (PCL) scaffolds. The scaffolds were functionalized by grafting methacrylic acid N-hydroxysuccinimide ester (NHSMA) onto the surface after Ar-plasma/air activation.

Sprouty 2, an Early Response Gene Regulator of FosB and Mesenchymal Stem Cell Proliferation During Mechanical Loading and Osteogenic Differentiation.

Sprouty 2 (Spry2), an inhibitor of MAP kinase signaling was previously shown by our group to be induced during mechanical loading of mesenchymal stem cells (MSCs). Here, we studied the implication of Spry2 activation during mechanical loading and chemically induced MSC differentiation. Spry 2 expression showed an immediate early response during mechanical loading and chemical induction of osteogenic differentiation and followed the same pattern as osteogenic associated gene FosB and was necessary for the induction of FosB, as Spry 2 knock down also abrogated the upregulation of FosB expression.

Bonding performance of experimental bioactive/biomimetic self-etch adhesives doped with calcium-phosphate fillers and biomimetic analogs of phosphoproteins.

Objectives: This study examined the bonding performance and dentin remineralization potential of an experimental adhesive containing calcium-phosphate (Ca/P) micro-fillers, and self-etching primers doped with phosphoprotein biomimetic analogs (polyacrylic acid-(PAA) and/or sodium trimetaphosphate-(TMP)).

Methods: Experimental self-etching primers doped with biomimetic analogs (PAA and/or TMP), and an adhesive containing Ca(2+), PO4(-3)-releasing micro-fillers (Ca/P) were formulated. Sound human dentin specimens were bonded and cut into sticks after aging (24h or 6 months) under simulated pulpal pressure (20cm H2O), and tested for microtensile bond strength (μTBS).

Di-Calcium Phosphate and Phytosphingosine as an Innovative Acid-Resistant Treatment to Occlude Dentine Tubules.

The present investigation evaluated the ability of an experimental di-calcium phosphate (DCP) desensitising agent used alone or combined with phytosphingosine (PHS) to occlude dentine tubules and resist a citric acid (CA) or artificial saliva (AS) challenge. Three groups of human dentine specimens (DS) were treated with the following: (1) PHS alone, (2) DCP or (3) a combination of PHS and DCP. Dentine hydraulic conductance of DS was evaluated using a digital flow sensor at 6.

In vitro osteoinductive potential of porous monetite for bone tissue engineering.

Tissue engineering-based bone grafts are emerging as a viable alternative treatment modality to repair and regenerate tissues damaged as a result of disease or injury. The choice of the biomaterial component is a critical determinant of the success of the graft or scaffold; essentially, it must induce and allow native tissue integration, and most importantly mimic the hierarchical structure of the native bone. Calcium phosphate bioceramics are widely used in orthopaedics and dentistry applications due to their similarity to bone mineral and their ability to induce a favourable biological response.

Preparation of multicompartment sub-micron particles using a triple-needle electrohydrodynamic device.

Control over the size and morphology of polymeric carriers for drug delivery systems is essential to optimize their functionality. In the current study, we demonstrate the feasibility of using an electrohydrodynamic process with a triple-needle device to prepare nearly mono-dispersed, spherical, tri-layered sub-micron particles. Three biocompatible polymer solutions of poly (lactic-co-glycolic acid) (PLGA), polycaprolactone (PCL) and polymethylsilsesquioxane (PMSQ) were used to prepare particles with three distinct layers.

Gene expression responses to mechanical stimulation of mesenchymal stem cells seeded on calcium phosphate cement.

Introduction: The aim of the study reported here was to investigate the molecular responses of human mesenchymal stem cells (MSC) to loading with a model that attempts to closely mimic the physiological mechanical loading of bone, using monetite calcium phosphate (CaP) scaffolds to mimic the biomechanical properties of bone and a bioreactor to induce appropriate load and strain.

Methods: Human MSCs were seeded onto CaP scaffolds and subjected to a pulsating compressive force of 5.5±4.

Remineralisation properties of innovative light-curable resin-based dental materials containing bioactive micro-fillers.

Innovative dental restorative materials should be highly bioactive to induce therapeutic effects at the bonding interface during intimate contact with biological fluids. This study aimed at evaluating the remineralisation properties of innovative light-curable resin-based dental materials containing bioactive calcium-phosphosilicates micro-fillers. The apatite formation ability was assessed by ATR-FTIR, XRD, calcium-chelation dye-assisted confocal microscopy (CLSM) and SEM analysis after soaking in SBF.