Complete L₅ burst fracture treated by 270-degree decompression and reconstruction using titanium mesh cage via a single posterior vertebrectomy / 中华创伤杂志(英文版)

Complete burst fractures of the L₅ is relatively uncommon. How to accomplish a rigid internal fixation as well as preserve motor function is an enormous challenge. We report such a case treated via a single posterior vertebrectomy with 270-degree decompression and reconstruction using titanium mesh cage. The disc between L₅/S₁ was preserved by placing the titanium mesh cage on the inferior endplate of the L₅. We hope this method can offer a possible solution for other surgeons when they meet a similar fracture pattern.

Preparation of glial cell line-derived neurotrophic factor loaded microspheres and their in vitro releasing character / 中华创伤杂志

Objective To evaluate the effect of different preparation processes on preparation of the glial cell line-derived neurotrophic factor(GDNF)loaded microspheres and observe the biological activity of GDNF.Methods With polylactide-co-glycolide(PLGA)as the coating material,the GDNF-loaded microspheres were prepared by using double emulsion(W1/O/W2).Two-factor factorial design variance analysis was done to analyze the effects of the composition proportion of lactic acid(LA)and glycolic acid(GA)in PLGA and the stirring speed of multiple emulsion on particle size,entrapment efficiency,burst release and in vitro release characteristics of the GDNF-loaded microspheres.PC-12 bioassay was employed to detect the biological activity of the released GDNF so as to determine the optimal preparation process.Results The composition proportion of PLGA could affect the microspheres'burst release(P ＜ 0.05),with no effect on particle size and entrapment efficiency.with the higher.With higher proportion of GA,the release speed of GDNF in the microspheres was increased.When the stirring speed of multiple emulsion was increased from 1 000 r/min to 3 000 r/min,the particle size of the microspheres was decrease significantly(P ＜ 0.01),the burst release was increased markedly(P ＜ 0.01)and the in vitro release rate was accelerated.The activity of GDNF in the microspheres could last for about 20 days at 37℃,which was 10 days longer than that of single GDNF.Conclusions Double emulsioncan prepare the GDNF-loaded microspheres with high entrapment efficiency and suitable in vitro release time.In the meantime,the microspheres can extend the validity of GDNF.

Seed cells in neuro-tissue engineering on repairing spinal cord injury / 中国矫形外科杂志

The inhibitory environment and loss of axonal connections after spinal cord injury pose many obstacles to regenerating the lost tissue.Cellular therapy provides a means of restoring the cells lost to the injury and could potentially promote functional recovery after such injuries.This review presents a summary of the various types of cellular therapy used to treat spinal cord injury.A wide range of cell types have been investigated for such uses and the advantages and disadvantages of each cell type are discussed along with the research studying each cell type.Based on the current research,suggestions are given for future investigation of cellular therapies for spinal cord regeneration.