Locally applied simvastatin is known to promote bone regeneration; however, the lack of suitable delivery systems has restricted its clinical use. In this study we demonstrate for the first time the use of premixed acidic calcium phosphate cement (CPC) as a delivery system for water-solubilized simvastatin. Freeze-dried simvastatin β-hydroxy acid (SVA) was added to the premixed cement paste in four different doses (1, 0.5, 0.25, and 0 mg SVA/g cement). The addition of the drug did not alter the cement setting time (38 min), compression strength (5.54 MPa), or diametral tensile strength (2.62 MPa). In a release study conducted in phosphate buffered saline at 37°C, a diffusion-controlled release was observed for over a week. Furthermore, the osteogenic effect of the released SVA was demonstrated in vitro. Cell proliferation, alkaline phosphatase activity, and mineralization were assayed after incubation with cement extracts. The lower doses of SVA (0.5 and 0.25 mg SVA/g cement) showed an approximately fourfold increase in mineralization as compared to the control. In conclusion, our findings suggest that premixed acidic CPC is a good option for local delivery of SVA, due to its ability of slowly releasing the drug, leading to a prolonged stimulation of osteogenesis.
In this work, Cu- and Ni-doped MIL-101 were synthesizedviaa microwave irradiation technique and used as adsorbents for CO2adsorption. The loading of MNPs in MIL-101 showed a beneficial effect on the adsorption capacity and cyclability.
Several ceramic biomaterials have been suggested as promising alternatives to autologous bone to replace or restore bone after trauma or disease. The osteoinductive potential of most scaffolds is often rather low by themselves and for this reason growth factors or drugs have been supplemented to these synthetic materials. Although some growth factors show good osteoinductive potential their drawback is their high cost and potential severe side effects. In this work the combination of the well-known drug simvastatin (SVA) and the inorganic element Zinc (Zn) is suggested as a potential additive to bone grafts in order to increase their bone regeneration/formation. MC3T3-E1 cells were cultured with Zn (10 and 25 µM) and SVA (0.25 and 0.4 µM) for 10 days to evaluate proliferation and differentiation, and for 22 days to evaluate secretion of calcium deposits. The combination of Zn (10 µM) and SVA (0.25 µM) significantly enhanced cell differentiation and mineralization in a synergetic manner. In addition, the release of reactive oxygen species (ROS) from primary human monocytes in contact with the same concentrations of Zn and SVA was evaluated by chemiluminescence. The combination of the additives decreased the release of ROS, although Zn and SVA separately caused opposite effects. This work shows that a new combination of additives can be used to increase the osteoinductive capacity of porous bioceramics.
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