ABSTRACT
Objective To observe the targeting effect of curcumin gelatin microsphere in rats in vivo. Methods Injections of curcumin gelatin microsphere and curcumin were injected via tail vein, respectively. HPLC was used to determine the content of curcumin in different organs. The pharmacokinetic parameters were calculated on the basis of compartment models by using DAS 2. 0 program. Targeting efficiency was used to evaluate tissue distribution of curcumin. Results Targeting efficiency of curcumin gelatin microsphere in heart, liver, spleen, lung and kidney was 0. 875, 0. 121, 1. 182, 5. 834 and 0. 896, respectively. Conclusion Curcumine gelatin microspheres can improve lung-targeting efficiency, and benefit for study on lung targeting therapeutic effect.
ABSTRACT
[Objective]To develop macroporous calcium phosphate cements(CPCs) by incorporating the gelatin microspheres(GMs) and to evaluate the performance of the composite as a bone substitute in vitro and in vivo. [Methods]GMs were prepared by improved emulsified cold-condensation method and macroporous CPCs were developed using GMs with three different weight ratios (0%,2.5% and 5%). The porosity and the compression strength of the three composites were measured to determine the proper weight ratio of GMs. The morphologic changes of osteoblasts were examined with scanning electron microscope at two days after the cells were seeded on the CPCs and GMs/CPCs. The cells were also cultured with different leaching liquor of three kinds of materials (0%,2.5% GMs/CPCs and polystyrene).Cell viability analysis was performed by MTT assay,and alkaline phosphatase was measured with alkaline phosphatase kit. At six months after implanted in the goat vertebre ,the samples with CPCs or GMs/CPCs were obtained and evaluated by X-ray image and histological anatomy.[Results]Porosity of the GMs/CPCs increased with the increase of GMs,but compression strength decreased. The proliferation and differentiation of the osteoblasts were enhanced with the 2.5% GMs/CPCs compared to the CPCs. In vivo study showed that the degradation of GMs/CPCs was improved.[Conclusion]Macroporous calcium phosphate cements can be developed by incorporating gelatin microspheres,and biocompatibility and degradability of the composite can be enhanced. The composite can be used as a bone substitute under non-loaded circumstances.