Objective To study the influence of traction on the blood circulation of femur head and its evaluation by DSA. Methods Using micro-catheter, transfemoral selective femoral circumflex arteriography in 22 healthy dogs was performed in unilateral hip before (Group A,n =22) and immediately (Group B,n=22) ,30( Group D,n =22) ,60(Group E,n=20) ,90( Group F,n = 10),120 (Group G,n=10) minutes during 2 kg skin hip traction, and immediately after traction removal (Group H,I,J,L and 0), and 30 minutes after traction removal with 60,90 and 120 minutes continuous traction(Group K,M and P),and 60 minutes after traction removal with 90 and 120 minutes continuous traction(Group N and Q). DSA was also performed immediately during 4 kg weight traction before continuous traction in 12 hips( Group C).Blood circulation of the femoral head was evaluated mainly by observing its perfusion and time of circulation. Femur head perfusion was assessed as good scoring 3,poor scoring 2 and extremely poor scoring 1. Femur head circulation time was assessed as normal scoring 3 .prolonged scoring 2 and remarkably prolonged scoring 1. Analysis of variance was employed for analysis of the angiographic findings between different groups.Results Good femoral head perfusion in Group A to Q was 22,0,0,0,0,0,0,22,22,1,18,0,0,8,0,0 and 1 hips respectively, poor one was 0,22,8,22,15,4,1,0,0,15,2,4,6,2,1,3 and 8 hips, respectively,extremely poor one was 0,0,4,0,5,6,9,0,0,4,0,6,4,0,9,7 and 1 hips, respectively; and normal femoral head blood circulation time was 22,0,0,0,0,0,0,22,22,1,18,0,0,8,0,0 and 1 hips, respectively, prolonged one was 0,22,9,22,15,4,2,0,0, 15,2,5,7,2,2,4 and 8 hips, respectively, remarkably prolonged one was 0,0,3,0,5,6,8,0,0,4,0,5,3,0,8,6 and 1 hips, respectively. F value of femoral head perfusion among group A and B,group B and C,group B,D,E,F and G,Group H,I,J,L and O,group K,M and P,Group N and Q was 437. 48,30. 25,29. 04,132. 69,143. 73,25.20, respectively, and their P value was all <0. 01. F value of femoral head circulation time among group A and B,group B and C,group B,D,E,F and G,Group H,I,J,L and O,group K,M and P,Group N and Q was 386. 26,31. 83,22.43,141. 94,119.69,21.68, respectively, and their P value was all < 0.01. Conclusions Traction could lead to ischemic response and circulation disorder of canine femoral head. The longer the traction time or the bigger the traction weight was, the poorer the femoral head perfusion and the longer the femoral head circulation time were, and the slower they recovered. DSA could directly reflect these changes in the femoral head with these angioarchitectural and hemodynamic indexes.

Staphylococcal protein A (SPA) has a high affinity for human immunoglobulin, and SPA immunoadsorption can specifically reduce the titer of autoantibodies and quickly relieve the clinical symptoms of myasthenia gravis (MG). Recent studies have suggested that immunoadsorption has better clinical efficacy and a lower incidence of adverse reactions than plasma exchange. A case of refractory MG with poor response to corticosteroids, intravenous immunoglobulins and immunosuppressive therapy was reported. The patient had low immune function and progressive pulmonary infection in the later stage of the disease. Respiratory muscle weakness was relieved quickly after four times of immunoadsorption therapy. The value of immunoadsorption in the treatment of refractory MG was explored with literature review.

Objective To evaluate the clinical efficacy and feasibility of using the expanding pedicle subtraction osteotomy (E-PSO) technique for the treatment of congenital severe thoracic angular kyphotic deformity.Methods We retrospectively reviewed a cohort of 13patients with congenital severe kyphosis admitted to our hospital from January 2010 to June 2015 including 5 males and 8 females,the average age is (34.9±20.5) years old (ranged 15-55 years old).The vertebral deformity in T7～83 cases,T8～93 cases,T9～102 cases,T10～114 cases,T9～111 case.All cases were treated by E-PSO technique.The multi-malformed vertebrae are considered as a complexus.And the osteotomy was performed within the complexus.The superior and inferior endplate of the complexus were reserved.After the osteotomy was completed,alternately pressed tightly closed the upper and lower parts.Results All cases were followed up for 10-42 months,with an average of 32 months.At the time of preoperation,postoperation andthe last follow-up,the deformity angle was 107.0°±3.5°,23.5°± 1.5° and 23.5°±0.2°;TK was 98.1°±7.6°,28.9°±3.0° and 29.5°±0.1 °,LL was 94.1 °± 1.5°,43.7°± 1.3° and 44.1 °±5.3°;SVA was (-0.6±39) mm,(1.6±7.9) mm and (6±0.7) mm,respectively;PI was 28.9°±1.6°,31.7±12.3°and 31.9°±2.1°;PT was 17.7°±1.9°,13.4°±3.4°and 13.1°±4.2°,SS was 11.3°±0.4°,18.2°±1.1° and 18.7°±2.1°,respectively.The sagittal parameters and spinopelvic parameters except SVA were significantly improved in the post-operation and the last follow-up compared with the pre-operation according to the image data.No significant loss of correction occurred during the follow-up,and there was no statistical difference.The preoperative VAS score was (5.7± 1.4) points,ODI score was (19.8±12.7) points.The last follow-up VAS score was (1.9±0.7) points,the ODI score was (9.2±0.7) points.No case of nerve damage,infection and other complications,and no dissection,displacement and rupture of internal fixation were found during the follow-up.Conclusion The use of E-PSO technique for the treatment of congenital severe thoracic kyphotic kyphosis is feasible and can achieve better curative effect.

Objective:To evaluate the feasibility and clinical efficacy of deformed complex vertebral osteotomy (DCVO) technique on the treatment of angular kyphosis of cured spinal tuberculosis.Methods:A retrospective study was performed on patients with angular kyphosis of cured spinal tuberculosis who underwent the DCVO technique or posterior vertebral column resection (PVCR) technique from Jan, 2007 to Jan, 2019. 33 patients were included, 18 males and 15 females, the average age was 39.5±15.0 years old (ranged 9-78 years old). The vertebral deformity in thoracic vertebrae 14 cases, thoracolumbar vertebrae 16 cases, and lumbar vertebrae 3 cases. 20 cases underwent the DCVO technique, while 13 cases underwent PVCR technique. For DCVO group, the multiple malformed vertebrae were considered a malformed complex, and a larger range and angle wedge osteotomy was performed within the complex using the DCVO technique. PVCR technique would resect the whole deformed vertebrae, and subsequently brought the two separated spinal columns together with instruments and titanium mesh. The intro-operative blood loss, operating time and complications were recorded. The radiological measurements included preoperative and postoperative spinopelvic parameters, which including thoracic kyphosis (TK), lumbar lordosis (LL), sagittal vertical axis (SVA), pelvic incidence (PI), pelvic tilt (PT), sacral slope (SS) and segmental kyphosis. The recovery of neurological function was evaluated by Frankle classification.Results:All patients were followed up for 7-72 months. Comparing with the cases underwent PVCR technique, the DCVO group has a significantly lower blood loss (1315.00±462.57 ml), operating time (293.00±83.86 min) and complications rate (1.5%). At the time of preoperation, postoperation and last follow-up, the deformity angle of DCVO group was 96.80°±6.32°, 29.10°±6.96°and 29.05°±6.49°, which gained an average 69.9% correction rate. The statistical analysis suggested that deformity angle was enormously corrected. And there was an insignificant difference between DCVO group and PVCR group. Meanwhile, the preoperative, postoperative and follow-up TK of DCVO group was 96.96°±29.13°, 37.15°±4.88° and 37.00°±3.89°respectively, whosecorrection rate was 67.1%; LL was 66.70°±21.21°, 42.25°±5.53° and 41.90°±4.98°, which have a significant difference between pre-operation and post-operation/follow-up ( F=23.997, P<0.001) ; SVA was 75.95±18.63 mm, 16.30±6.88 mm and 16.55±7.30 mm. PI was 47.50°±6.12°, 47.35°±5.54°and 47.90°±5.93°, PT was 37.25°±9.63°, 18.50°±1.99° and 19.00°±1.65°; SS was 10.25°±8.27°, 29.15°±5.91° and 28.85°±5.77°. The sagittal and spinopelvic parameters of two groups improved significantly at postoperation and follow-up. No obviously difference of spinal parameters was found between two groups at preoperation and postoperation. Both groups have cases with dysneuria. And all of these cases achieved different degrees of recovery at follow-up. Conclusion:The use of DCVO technique for the treatment of post-tubercular angular kyphosis is safe and efficiency. DCVO leads a better clinical outcomes and lower complication rate than VCR technique.