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Objective To establish an optimization model of hospital medical equipment purchase based on cost-benefit analysis to enhance equipment purchase demonstration.Methods An integer programming model for the types and amount of purchased hospital medical equipment was constructed with the cost benefit parameters based on market survey and the hospital annual purchase plan. LINGO optimization software was used to determine the optimal purchase scheme.Results The model acquired was applied to medical equipment purchase demonstration in some hospital, so that the purchase scheme was formed rapidly as desired.Conclusion The model may promote hospital medical equipment purchase demonstration and provide references for equipment selection.
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ObjectiveTo investigate the cell toxicity of a novel macropores calcium phosphate cement (CPC) scaffold and its influence on cell adhesion,growth and proliferation.MethodsA novel CPC material was synthesized by means of adding mannitol porogens and applying sodium solution as the cement liquid.The cell growth and proliferation in the novel CPC material extraction was observed by CCK8 assay.Scanning electron microscopy was used to observe hole diameter of the material,cell adhesion and growth in the material.The experiment of three point bending was used to test the biomechanic performance of the CPC material.ResultsThe novel CPC material reached hole diameter value of (267.43±118.01)μm,microporosity of (66.15±6.91)%.Maximum load,flexural strength and toughness of the novel CPC material was increased about one time compared to the traditional CPC(P<0.05).CCK8 assay showed there were no significant difference of the light absorption value of cells in the CPC extraction in the 4th,6th,8th day compare to the control group (P>0.05).ConclusionThe novel CPC material has the strong biomechanics performance,macropores,high microporosity and excellent biocompatibility,which is promising for ideal bone tissue engineering scaffold.