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Объем 9, Проблема 2 (2020)

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Proximal Junctional Kyphosis Following Thoracolumbar Fusion Ending at the Lower Thoracic Spine: The Effect of Cement Augmentation

Rahul G Samtani*, Anthony Ho, James Bernatz, Zachary Napier and Joseph Ro-Brien

Study design: A retrospective comparative study.

Objective: The purpose of this study was to evaluate the role of cement augmentation in reducing the incidence of fractures and/or kyphosis at the proximal junction following treatment for adult thoracolumbar spinal deformity that ends at the lower thoracic spine.

Summary of background data: Proximal junctional kyphosis may occur due to ligamentous relaxation or fracture of the proximal vertebrae. The role of cement augmentation in preventing proximal junctional kyphosis or failure is unclear.

Methods: This study is a retrospective review of 25 patients who underwent >6 levels of instrumented fusion. Patients were divided into two groups according to whether or not they received cement augmentation at the upper instrumented vertebrae. All fusions had the lower thoracic spine as the cranial stopping point and S1 as the most caudal level.

Results: The mean age was 60.0 (range, 33-81), and the mean levels fused was 8.3 (range, 6-12). Average follow up was 20.4 months (range, 6-55). Six patients (24%) had acute proximal junctional kyphosis, two of whom did not receive cement augmentation and four of whom did. Of those patients, one was due to fracture in each group (P>0.05). However, the patient with cement and fracture leading to revision was not compliant with precautions due to delirium post operatively. Spinopelvic and regional spine measurements were statistically similar between the two groups.

Conclusion: Cement augmentation may prevent proximal junctional failure due to fracture, however, ligamentous proximal junctional kyphosis was seen in both the cemented and uncemented groups. Larger scale studies are required to further delineate the potential benefits of cement augmentation of the proximal aspect of thoracolumbar fusions stopping at the lower thoracic level.

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Electro-Acupuncture treatment Promotes Regeneration and Recovery of Spinal Cord Injured Nerve by Regulating HIF-1α/VEGF Signal Pathway

Weibing-Wei, Lingyao-Zhou, Hongsheng-Zhang, Zhengxin-Li, Yu-Yang and Binbin-Zhou*

Objective: The present study aimed to explore the effect of Electro-acupuncture (EA) on the mechanism of nerve regeneration and recovery in spinal cord injury rats by interfering with the expressions of factors associated with HIF-1α/VEGF signaling pathway, covering HIF-1α, VEGF, PKA, Synapsin I, CaMKII as well as BDNF.

Methods: 120 SD female rats after achieving the successful modeling of spinal cord injury were randomly split into Jia ji EA group (EA-1 group), Yang ming EA group (EA-2 group), as well as Sham group(n=48 per groups); subsequently, the rats were split into 5 subgroups (1-5week group, n=8 per subgroups). EA treatment was performed on the 3rd day after the mice achieved the modeling, and specimens were taken at different time points after the treatment. BBB score was employed to assess the variations of lower limb function in mice after they had spinal cord injury. Histological variations of mice after they had spinal cord injury were observed under an optical microscope after undergoing HE staining. The variation of positive cell count was characterized under an optical microscope. RT-PCR and WB techniques were adopted to identify the variations of mRNA and protein expressions of factors associated with HIF-1α/VEGF signaling pathway.

Results: Over time, the lower limb function of mice having spinal cord injury was to a certain extent recovered, and EA-1 and EA-2 groups were more obviously recovered than the control group. According to the results of HE staining, as compared with Sham group, the nerve cell structure of EA-1 and EA-2 groups could be noticeably repaired, and the number of neurons was remarkably up-regulated. As suggested by immunohistochemical results, the number of positive cells in the injured site of Sham group was evidently risen in EA-1 and EA-2 groups as compared with that of Sham Group. PCR and WB results indicated that EA-treatment could up-regulate the expressions of HIF-1α, VEGF, PKA, Synapsin I, BDNF genes, as well as the corresponding proteins, while suppressing the expressions of CaMKII genes and their corresponding proteins. The expression of EA-2 group was partially better than that of EA-1 group.

Conclusion: EA treatment can stimulate the expression of HIF-1α, VEGF, PKA, synapsin I, CaMKII, BDNF mRNA and their corresponding proteins associated with the activation pathway of HIF-1α/VEGF signal transduction pathway. Moreover, this treatment is capable of regulating blood oxygen microenvironment (e.g., local energy consumption, oxygen consumption and blood circulation) after rats get injured, while being critical to the recovery of spinal cord injury.

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