The present investigation was designed to study, whether endogenous antinociceptive system is effective on mirror-image pain induced by peripheral inflammation. After Complete Freund's adjuvant (CFA) was subcutaneously injected into one hindpaw, besides heat hyperalgesia and mechanical allodynia from 1 h to 72 h at the injured site, contralateral mechanical allodynia was also induced at 1 h and significantly lasted for 24 h after injection, which was called mirror-image pain. To explore the effects of endogenous antinociceptive system on mirror-image pain, endomorphin (EM) 2 was intrathecally administered at doses of 0.2 μg, 2 μg, 20 μg and EM1 was given at the maximum dose of 20 μg by the same way, respectively, 10 min prior to CFA injection. The present results showed that three doses of EM2could reverse the decreased contralateral mechanical threshold from 48.03 ± 9.07 mN ( pre-treatment with vehicle) to 200.49 ± 53.68mN, 247.63 ± 49.43 mN and 250.57 ± 55.34 mN ( pre-treatments with EM2 ), respectively, but not in a significantly dose-dependent manner. On the other hand, intrathecal pre-treatment with EM1, the contralateral mechanical threshold was 51.24 ± 12.59 mN after CFA injection, which was similar to that pre-treatment with vehicle. It indicates that spinal EM1 did not have remarkable effect on mirror-image pain behavior. The present results provide evidence for that spinal EM2, but not EM1, mainly originated from the endogenous antinociceptive system might play an inhibitory role in mirror-image mechanical allodynia induced by peripheral tissue inflammation.

Objective To investigate the effects of inositol hexaphosphate (IP6) on proliferation of human osteosarcoma cell line MG-63 and primary cultured osteoblasts so as to explore the optimal concentration for achieving anti-cancer effects.Methods We primary cultured and identified human osteoblasts.Then we made recovery and normal culture of human osteosarcoma cell line MG-63.We tested the proliferation of two kinds of cell lines under different concentrations of IP6 by MTT to determine the optimal concentration and then detected MG-63 cell cycle and apoptosis by flow cytometry.Results When IP6 concentration was more than 1 mmol/L,IP6 began to inhibit the proliferation of MG-63 cell line in the time-dose dependent manner.When the concentration reached 4 mmol/L,this inhibitory effect was the maximum.When IP6 concentration was 0.5 mmol/L or 1 mmol/L,the proliferation of osteoblasts was not obviously inhibited.When it was 2 mmol/L,the proliferation was slightly inhibited.A concentration of 4 mmol/L caused the apoptosis of osteoblasts.Conclusion IP6 can inhibit the proliferation of osteosarcoma cell line MG-63 and lead to its apoptosis.The optimal concentration is 2 mmol/L for achieving anti-cancer effects.

Objective Bacterial DNA is a pathogen-derived molecule which can regulate the innate immune system by stimulating NF-κB activation. The activity of bacterial DNA relies on its content of unmethylated CpG dinucleotides in particular base contexts("CpG motif"). In light of the pivotal role played by NF-κB in osteoclast differentiation, the ability of CpG oligodeoxynucleotides (CpG ODN) coming from bacterial DNA to modulate osteoclastogenesis was studied. Methods Bone marrow mononuclear cells (BMM) were purified from Balb/c mice, cultured in α-MEM media containing 10% FCS in the presence of mouse M-CSF, with either RANKL or ODNs for 5 days. Osteoclast formation was evaluated on day 5 according to TRAP and May-Grunwald-Giemsa staining. Results CpG ODN alone could induce osteoclast formation in the low degree in BMM culture. The relationship between CpG ODN and RANKL was that CpG ODN could inhibit RANKL-induced osteoclastogenesis when present from the beginning of BMM culture, but strongly increased RANKL-induced osteoclastogenesis in RANKL-pretreated BMMs. Conclusion The mechanism of CpG ODN regulating osteoclast differentiation was bidirectional, which might be a potential therapy for treating metabolic bone disease.

Objective To summarize the outcome of treatment for thoracic vertebra ossification of ligamentum flavum (OLF)with en-bloc removal of the spinal canal’s posterior wall termed as the “thinned cap uncovering”technique.Methods From 2003 to 2013,56 patients with OLF were treated with thinned cap uncovering technique.In this group,there were 40 male patients and 1 6 female ones,with the average age of 45 years (range of 30-65 years)and the average history of 3 years.The 56 patients were followed up for an average duration of 2 years and 7 months (1-5 years).Results According to WANG’s evaluation,45 cases (about 80%) had excellent results,9 cases (about 1 6%)had good results,and 3 cases had improved symptoms,the excellence to good rates being 96%.Conclusion Removal of the posterior wall of the spinal canal via “thinned cap uncovering”technique is a reliable and effective treatment for thoracic OLF.The strategy for successful operation is to use high speed drill to cut bone accurately,which allows discectomy for thoracic vertebra and to diminish faults and complications during the surgical procedure.

Objective To produce the biological calcium citrate cement with fresh oyster shells, and investigate its compressive strength and biocompatibility so as to provide the experimental basis for clinical application of the material.Methods The compressive strength of biological calcium citrate cement was measured and its surface morphology was observed by SEM.The calcium release curve and pH value were measured in the simulated body fluid.Last, its biocompatibility was detected by cytotoxicity test.Results Biological calcium citrate cement produced by 0.33mL/g liquid solid ratio had the maximum compressive strength, and the crystal structure of the material was uniform and orderly.The determination of pH value showed that the degradation and absorption of biological calcium citrate cement did not significantly change the pH value of the body fluid.With gradual degradation of the material, the concentration of Ca2+ in the solution increased gradually.Cytotoxicity test showed that this material had good biocompatibility and no cytotoxicity.Conclusion Biological calcium citrate cement possesses strong compressive strength and good biocompatibility, and it can form a microenvironment with low in alkaline and high in calcium.