Objective To investigate the clinical value of spinal nonfusion interspinous Coflex system for the degenerative lumbar spinal stenosis.Methods From March 2008 to August 2009,26 patients with degenerative lumbar spinal stenosis were treated by decompression with posterior spinous process and interspinous implant Coflex folder method,including 11 males and 15 females,with the mean age of 65.4years(range,45-78 years).L3,4 segment in 7 cases,L4,5 segment in 13 cases,concomitant L3,4,L4,5 segment stenosis in 6 cases.Patients were scanned by MRI and CT confirmed L3,4 and(or)L4,5 segments of the ligamentum flavum thickening,proliferation of small-joint bone,merger disc herniation causing central tube and lateral fossae stricture,nerve root or coccygeal plexus compression.Lumbar anteroposterior,lateral and flexion-extension X-ray films preoperatively,and at follow-up were used to measure the following parameters by eFilm and CAD software:the anterior and posterior disc space height,the range of motion at surgical level,and the segment of the spinal canal area of responsibility.Postoperative standard Japanese Orthopaedic Association(JOA)score for preoperative and postoperative scores.Results Patients were followed up 12-24months.The pain relieved in all patients.The JOA scores improved from(15.46 ±4.30)preoperatively to (24.50±1.58)postoperatively,the vertebral canal area of the affected segment was(218.4±16.2)mm2 before the operation,(264.6±9.9)mm2 after the operation.Single segment anterior disc space height did not change significantly,the difference was not statistically significant.The disc space posterior height increased compared with the preoperative height,and gradually decreased with time.No patients suffered Coflex loosening,fracture and emerge.Conclusion The treatment of lumbar spinal stenosis with Coflex system has satisfactory effect in minimal invasiveness and high security,which provides a safe and effective therapy for degenerative lumbar spinal stenosis.

Spinal cord injury is a difficult medical problem and need to be solved urgently.Application of tissue engineering to repair spinal cord injury has gradually become a hot spot.It is important to prevent the development of scar tissue while inducing cells' regeneration by using scaffold.Nanotechnology has improved the performance of scaffold because of its superiority.Nanoscaffold has obvious advantages compared with the traditional scaffolds.New scaffold materials can be obtained by nanotechnology.Nanoscaffold can also serve as a good drug carrier,and it may have beneficial effects on biological behaviors of seed cells on its surface,such as differentiation,proliferation and migration,which may promote tissue regeneration and functional recovery and get good results in repairment of spinal cord injury.This article summarized the research progress in recent years in nano spinal cord engineering scaffolds in order to provide a reference for research in related fields.

AIM:To investigate the role of ClC-3 chloride channel in the promotion of radio sensitization of na-sopharyngeal carcinoma CNE-2Z cells by dihydroartemisinin(DHA).METHODS:MTT was used to detect the inhibito-ry effect of DHA on the viability of CNE-2Z cells and normal nasopharyngeal epithelial NP69-SV40T cells,the radio sensi-tization effect of DHA on CNE-2Z cells was detected by cloning assay,the expression of ClC-3 protein was detected by Western blot,the expression of ClC-3 protein was down-regulated by siRNA technology,and the chlorine current of cells was recorded by whole cell patch-clamp technology.RESULTS:(1)Compared with NP69-SV40T cells,DHA selective-ly inhibited the proliferation of CNE-2Z cells,with IC10 values of(13.020±4.831)μmol/L and(5.244±1.050)μmol/L,respectively(P＜0.01).(2)The results of clonal formation experiments showed that DHA had a radio sensitizing effect on CNE-2Z cells,with a radio sensitization ratio of 1.9.(3)DHA could activate the chlorine channel of CNE-2Z cells and produce an outward chlorine current,but had no effect on the chlorine channel of NP69-SV40T cells.(4)DHA promoted the expression of ClC-3 chloric channel protein in CNE-2Z cells(P＜0.01).(5)Chlorine channel blocker NPPB could in-hibit the radio sensitizing effect of DHA on CNE-2Z cells by 1.84 times,and also inhibited the chlorine current activated by DHA.(6)the down-regulation of CNE-2Z ClC-3 protein could inhibit the radio sensitization effect of DHA on CNE-2Z cells by 4.19 times,and the activation of chlorine current by DHA on CNE-2Z cells was no longer produced.CONCLU-SION:DHA has a radio sensitizing effect on nasopharyngeal carcinoma CNE-2Z cells,which is likely to be related to the activation of ClC-3 chloride channel.