Objective To evaluate and compare the clinical outcome of coracoclavicular screw and double Endobutton plate in treatment of acromioclavicular dislocation ( Rockwood Ⅲ-Ⅴ ). Methods Twenty-eight patients with Rockwood Ⅲ-Ⅴ acromioclavicular dislocation were subjected to surgical reconstruction from January 2008 to October 2009. The coracoclavicular screw was performed in 14 patients and the double Endobutton plate in the other 14 patients. Clinical evaluation was performed by using Constant score and subject should value (SSV) in both groups, and the preoperative and postoperative radiographs, curative effects and complications were compared. Results The patients in two groups were followed up for a range of 6-25 months (average 12.6 months) , which showed higher postoperative Constant score and SSV score than preoperation in both groups (P＜0.05). But the postoperative Constant sore and postoperative SSV score in the double Endobutton group were (89.8 ±8.3) points and (85.7 ±7. 3) points respectively, significantly better than (78. 0 ± 10. 3) points and (71. 8 ±9. 7) points respectively in the coracoclavicular screw group ( P ＜ 0.05). The radiologic measurement showed no significant difference in regard of the coracoclavicular distance three months after operation in two groups (P＞0.05). Conclusions The double Endobutton plate can attain significantly superior clinical outcomes for Rockwood Ⅲ-Ⅴ acromioclavicular dislocation compared with the coracoclavicular screw. The surgical technique of reconstructing the coracoclavicular ligament through anatomical approach will be the future trend in treatment of the acromioclavicular joint dislocation.

Objective:To investigate the feasibility of transplantation of neural stem cells (NSCs) modified by hypoxia-regulated nerve growth factor (NGF) gene to treat acute spinal cord injury (SCI) and observe the functional repair after SCI.Methods:Adeno-associated virus (AAV) was used as the vector to construct gene-modified NSCs. Three days after SCI attack on the animal model, the NSCs modified by hypoxia-regulated NGF were transplanted to the site of SCI as the NGF group. The GFP-modified neural stem cell group (GFP group), sham group, SCI group were set up. Hindlimb motor function was assessed by Basso-Beattie-Bresnahan (BBB) Locomotor Rating Scale, inclined plane tests and footprint analysis at 10 time points on day 1, 3, 7, 10, 14, 21, 28, 35, 42 and 60 after transplantation. The video cassette recorder (VCR) image and quantitative measurement of the height of the rat from the ground, the foot error and plantar steps were used to test the hindlimb support and flexibility of the rats. The degree of spinal cord injury in rats was roughly measured by observing the visual map of the spinal cord. The neuronal repair and morphological changes in SCI area were evaluated by Nissl staining, HE staining and immunofluorescence. CM-DiI was used to trace neural stem cells and to analyze the differentiation of NSCs by immunofluorescence.Results:Two months after transplantation of genetically modified NSCs, the BBB, inclined plane tests and footprint Analytical scores of NGF group rats were higher than those of SCI group and GFP group ( P<0.05); Through VCR image analysis, the hindlimb support and mobility of the rats in the NGF group were better than those in the SCI group and GFP group, and the difference was statistically significant ( P<0.05). Visual analysis showed that the spinal cord of the rats in each group was visually compared to the NGF group, and the spine did not show significant atrophy and color deepening, and the degree of injury was lower than that of the SCI group and GFP group; Through Nissl staining, HE staining and immunofluorescence detection, obviously positive in NeuN at the transplant site was noted at NGF group, and evidently regenerated neural structure can be seen at the morphological level. The cavity in SCI was obviously reduced, neurons and Nissl bodies were distinctly increased ( P<0.05). CM-DiI was used to track NSCs, NeuN was used to mark neurons, and GFAP was used to mark astrocytes. It was found that neural stem cells could differentiate into neurons and astrocytes. Neural stem cells in GFP group were more differentiated into astrocytes, and neural stem cells in NGF group were more differentiated into neurons. Conclusion:NSC transplantation with oxygen-regulated NGF gene mediated by adeno-associated virus can treat SCI, NSCs can differentiate into neural stem cells and astrocytes to fill the damaged cavity, NSCs secrete NGF as the carrier, playing the protective role on adjacent damaged nerve cells and reducing the death of neurons, which is expected to provide new ideas for the treatment of acute spinal cord injury, and at the same time make new attempts for the development of NGF protein drugs.

Objective:To introduce a novel technique note about anterior decompression through transoral axis slide and rotation osteotomy (ASRO) and identify its imaging parameters related to osteotomy, and to explore its clinical application value.Methods:CT data of cervical spine of 90 subjects were collected, including 54 males and 36 females. The age ranged from 26 to 72 years, with an average age of 48.7 years. The Mimics software was used to reconstruct the atlantoaxial three-dimensional model. We plan to perform osteotomy on both sides of the axis of the vertebral body in the anteroposterior direction and the ASRO related anatomical parameters were measured, including the minimum osteotomy angle, the maximum osteotomy angle, the minimum and maximumdistance between the osteotomy trajectory and the inner side of the articular surface, the length of the upper articular surface of the axis side mass, the depth of osteotomy at the highest point and lowest point of the axial osteotomy surface and the minimum osteotomy depth. A 56-year-old female patient was admitted to the hospital due to atlantoaxial dislocation with failure of occipital-cervical fusion, difficulty walking, weakness and hypoaesthesia in four limbs. Imaging revealed that narrow space between the transversal walking wire and upper-posterior of the odontoid process, compressing the spinal cord from the front and the back respectively. The ASRO technique was performed on the patient under neuro-electrophysiological monitoring, and the osteotomy angle, osteotomy depth, narrowest width of the upper cervical spinal canal, the medullary, spinal cord angle were measured and Japanese Orthopaedic Association Scores (JOA) cervical myelopathy evaluation were performed after the operation to evaluate the surgical treatment effect.Results:The minimum osteotomy angle and the maximum osteotomy angle was 14.7°± 4.36° and 33.0°± 8.67°. The minimum and maximumdistance between the osteotomy trajectory and the inner side of the articular surface, and the length of the upper articular surface of the axis side mass was 6.0±1.80 mm, 12.2±3.17 mm, and 17.2±1.90 mm, the ratio of the former two to the latter was 34%±8.7% and 70%± 15.0%. The depth of osteotomy at the upper edge, lower edge and narrowest place of the axial osteotomy surface were 6.0±1.80 mm, 12.2±3.17 mm and 17.2±1.90 mm. The postoperative imaging of the patient showed that the osteotomy angle was 17.1° on left side and 16.5° on right side, and the depth of osteotomy at the upper edge, lower edge and narrowest place of the axial osteotomy surface were 17.1 mm, 13.2 mm, and 9.1 mm on left side, and 17.4 mm, 11.8 mm, 8.46 mm on right side. All measured values met the ranges which were shown in the imaging anatomical study. The narrowest width of the upper cervical spinal canal increased from 6.58 mm to 15.28 mm, the medullary spinal cord angle increased from 131.7° to 153.8°postoperatively, and the cervical spine JOA score recovered from 6 points to 14 points, suggesting that the postoperative spinal canal space is obvious increased, the compression on the front of the spinal cord was significantly reduced. The patient's symptoms improved significantly.Conclusion:ASRO technique is a good choice for salvage of failed posterior occipitocervical fusion and some irreducible atlantoaxial dislocation because of the anterior bony fusion. It could direct decompress the spinal cord anteriorly, avoid the odontoid resection, which is a safe and feasible new technique.