Papers by Author: Dong Xiao Li

Abstract: In the present study, three types of tetracalcium phosphate (TTCP) were prepared by solid-solid reaction or co-precipitation method and by different cooling modes. The effect of TTCP on the performance of calcium phosphate cement (CPC) was investigated. The result showed that the characteristic of TTCP varied with preparation method and played an important role in CPC performance. A solid-solid reacted TTCP yielded smaller particle size and resulted in bad workability and mechanical strength of CPC. The fast cooling of sintering TTCP by liquid nitrogen could avoid the decomposition of TTCP and make pure TTCP. TTCP prepared by wet-precipitation could improve performance of CPC and was promising to optimization of CPC.

Abstract: Protein adsorption is driven by various interactions. The contribution of surface charge to bovine serum albumin (BSA) adsorption on hydroxyapatite (HA) ceramic was investigated by adjusting the liquid environment in which the solid particles dispersed. Zeta potentials of HA and the adsorption of BSA on the surface were tested as a function of pH, ionic strength, Ca2+ and PO4 3- concentrations in the aqueous solutions, and the results showed that both of them were greatly affected by those experimental variations. Besides, the amount of adsorbed BSA was related to the variation of zeta potential of HA, as could be well understood in terms of electrostatic interactions.

Abstract: Calcium phosphate cement (CPC) has many advantages and is frequently used as a carrier of antibiotic and bone growth factors. Salmon calcitonin(S-CT) is effective in treating osteoporosis. Due to its potential of promoting bone cell proliferation, S-CT was combined with injectable CPC to accelerate the restoring of the bone defect induced by osteoporosis and the composite can be used in minimal invasive surgery. Uniform design was used to optimize the prescription, and the effects of pore-maker and S-CT on the characters of CPC were studied. The in vitro releasing of S-CT from the optimum CPC in deionized water, SBF and rabbit serum was studied with HPLC, respectively. The results showed that the contents of HA and citric acid-NaHCO3 affect the physical characters of CPC sharply, but S-CT has little effect on it. The releasing of S-CT in three different medium follow Hugichi equation, but the speed is slower in rabbit serum than in deionized water and SBF. S-CT carried porous injectable CPC composite possesses the basic performance for clinical needs, and it is promising to be used in osteoporosis induced bone defect and accelerate bone repair.

Abstract: This study was to develop an injectable biocompatible and porous calcium phosphate collagen composite cement scaffold by in situ setting. TTCP was prepared as main material of the CPC powder, and the collagen solution was added into the phosphoric acid directly to form the liquid phase. The injectable time (tI), setting time (tS) and setting temperature (TS), along with the PH value were recorded during the setting process. The compressive strength, morphology and porosity were tested. With the increase of collagen, this novel CPC get a tI of 5mins to 8mins, tS of 20mins to 30mins, compressive strength from 1.5MPa to 4MPa, and the porosity from 40% to 60%. This study gave a possibility to form a porous scaffold of collagen/CPC composite with the nature of injectability and setting in situ.