Objective To study the effect of acupuncture on the ratio of CD4+ CD25+ regulatory T cells and expression of transcription factor Foxp3 in patients with septic shock.Methods Sixty-four patients with septic shock were randomly divided into two groups by using the random number table method.Acupuncture group (34 cases) was treated with both western medicine and acupuncture,and control group(30 cases) was treated with western medicine.The period of treatment was 7 days.After treatment,the ratio of CD4+ CD25+ T cells in peripheral blood was determined by flow cytometry.And the expression of Foxp3 mRNA in peripheral blood was detected by quantitative real time PCR.Results After treating for 7 days,the ratios of CD4+ CD25+ Treg cells and CD4+ CD25+ Foxp3 + Treg cells were (20.23 ± 1.12) ％ and (78.70 ± 7.65) ％ respectively in peripheral blood of the control group,which in the acupuncture groupwere (17.32 ± 0.78) ％ and (68.53 ± 8.01) ％,the differences were statistically significant between the two groups(t =2.587,2.749,all P ＜ 0.05).The levels of Foxp3 mRNA in peripheral blood were (1.21 ±0.02) and (1.02 ± 0.04) in the control group and acupuncture group,the difference was statistically significant(t =2.119,P ＜ 0.05).Conclusion Acupuncture can adjust immune status of patients with septic shock by reducing the ratio of CD4+ CD25+ Treg cells and down-regulating the expression of Foxp3 mRNA.

Objective To investigate the safety and efficacy of three column osteotomy (3-CO) procedures through previous spinal fusion site for the revision surgical treatment in severe spinal deformity patients.Methods From Oct.2010 to May 2014 in our hospital,a total of 12 severe spinal deformity patients underwent 3-CO for the revision surgical treatment.There were 7 males and 5 females with the average age of (21.8±3.8) years,ranging from 18 to 30 years.The mean time from the initial operation to the revision surgery was (10.2±4.8) years (ranging from 3 to 17 years).The reasons for revision were:curve progression in 7 patients,neurologic deficit in 2 cases,implant failure in 1 patient and pseudarthrosis in 2 patients.The coronal parameters including major Cobb angle and distance between C7 plumb line and center sacral vertical line (C7PL-CSVL),and the sagittal parameters including global kyphosis curve and sagittal vertical axis (SVA) were measured pre-operatively,post-operatively and at last followup,respectively.The operation time,intraoperative blood loss and complications were recorded.The paired t test was used to evaluate the difference among pre-revision,post-revision and last follow-up.Results The average operation time was (451.7±83.1) min (range,320-600 min) and the average blood loss was (4 016.7± 1 080.0) ml (range,2 700-6 000 ml).The average follow-up time after revision operation was (35.4±9.8) months (range,24-49 months).The coronal Cobb angles of pre-revision and post-revision were 83.8°±23.3°and 34.6°± 13.7°.The average correction rate was 60.1％ ±8.8％.At last follow-up,the average coronal Cobb angle was 34.9°±13.8°,there was no significant loss of correction.The pre-revision and post-revision values of global kyphosis were 99.1°±13.3°and 38.7°±7.8° with a mean correction rate of 60.8％ ±6.7％.At the last follow-up,the average global kyphosis was 39.3°±7.5°and no loss of correction was found.For the C7PL-CSVL and SVA,pre-revision (30.3± 17.1) mm and (40.1±31.1) mm were corrected to (14.3 ±7.6) mm and (19.1± 12.3) mm immediately after revision operation,respectively.At final follow-up,the average C7PL-CSVL and SVA were(14.1 ± 7.6) mm and (19.6± 12.1) mm,the correction was well maintained.Obviously,two patient's neurological status improved from Frankel C before revision surgery to Frankel E.Complications were encountered in five patients (41.7％),including SEP signal changed in 1 patient (8.3％),transient neurologic deficit after revision surgery in 1 patient (8.3％),cerebrospinal fluid leak in 1 patient (8.3％),and pleural effusion in 2 patients (16.7％).During the follow-up time,there was no patient experienced pseudarthrosis,implant failure,infection or significant loss of correction.Conclusion Based on results of this study,it was concluded that 3-CO procedures through previous spinal fusion sites could obtain satisfactory and safety results in severe spinal deformity revision surgery.However,it is a technique-demanding procedure with more blood loss,longer operative time and higher risk of perioperative complications.

Objective To investigate the peri-nasopharyngeal invasion patterns of nasopharyngeal carcinoma (NPC) on MRI and its relationship with tumor staging. Methods One thousand five hundred and seventy-three patients with newly diagnosed NPC which were histo-pathologically proved were retrospectively studied. The MRI manifestations and invasion patterns of the NPCs were elevated according to the 2008 Tstaging system of NPC. Z test was used to analyze the rate of adjacent structures invasion in NPCs. Results The structures invaded by NPCs included pharyngobasilar fascia in 1299 cases (82. 58% ); parapharyngeal space, 1090 ( 69. 29% ); nasal cavities, 304 ( 19. 33% ); oropharynx, 49 ( 3. 12% ); carotid space,514(32. 68% ); medial pterygoid muscle, 661 (42. 02% ); lateral pterygoid muscle, 210( 13. 35% ); skull base bones, 943(59. 95% ); cranial nerves, 630(40. 05% ) and paranasal sinuses, 242 ( 15.38% ). The T-stage distribution was T1, 242 cases ( 15.38% ); T2, 288 ( 18. 31% ); T3, 410 (26. 06% ) and T4,633 (40. 24% ). Among the cases with nasal cavities invasion, 90. 46% (275/304)showed the involvement of the structures seen in T3 or T4 stage, which was found in all cases with oropharynx invasion. In addition,69. 14% (457/661) of cases with medial pterygoid muscle invasion and 92. 15% (223/242) of cases with paranasal sinuses invasion showed the involvement of structures seen in T4 stage. As for the invasion patterns of NPC, the lateral invasion of pharyngobasilar fascia was more frequent than upward invasion of skull base (Z = 14. 025, P ＜ 0. 01 ) and downward invasion of oropharynx ( Z = 45.032, P ＜ 0. 01 ), and the downward invasion of oropharynx was less frequent than upward invasion of skull base ( Z = 34. 301, P ＜ 0. 01 ) and forward invasion of nasal cavities ( Z = 14. 404, P ＜ 0. 01 ). Conclusion NPC has a predilection of lateral invasion rather than upward and downward invasion, and its upward and forward invasion are more common than downward invasion.

Objective: To investigate the causes of 30-day unplanned revision surgery following one-stage posterior vertebral column resection (PVCR) for severe spinal deformity and the methods of prevention and management. Methods: A total of 112 severe deformity patients underwent one-stage PVCR for surgical treatment in the 306^th Hospital of People′s Liberation Army from May 2010 to December 2015 were retrospectively reviewed. Six patients required reoperation within 30 days after PVCR, including 2 males and 4 females with average age of 21 years (ranging from 12 to 38 years). Four cases were congenital kyphoscoliosis, 1 was post-laminectomy kyphoscoliosis and 1 was post-tuberculous angular kyphosis. Three cases associated with preoperative neurologic deficit (Frankel C in 1 patient and D in 2 patients). The causes, management and outcomes of unplanned revision surgery within 30 days after PVCR were recorded. Results: The total incidence of unplanned revision surgery within 30 days following PVCR was 5.4% (6/112). There was 1 case due to cerebrospinal fluid leak, 5 cases with varying degrees of new neurologic deficits, the causes were as followed: dural buckling in 1 case, residual bone compression in 1 case, epidural hematoma compression in 2 cases, spinal subdural hematoma in 1 case. All the 6 cases underwent surgical exploration again, including further dural repair, decompression and hematoma clearance. After unplanned reoperation, 6 cases recovered completely. The average follow-up time after surgery was 30.8 months (ranging from 10 to 60 months). The major curve at coronal plane was improved from preoperative 87.7° to 34.2°, with a mean correction of 61.0% at final follow-up; the sagittal kyphosis curve was improved from preoperative 119.5° to 45.5°, with a mean correction of 61.9% at final follow-up. Two patients′ neurological status improved from Frankel D to Frankel E, one patient′s neurological status improved from Frankel C to Frankel E. Conclusions One-stage PVCR could be an effective method for treatment of severe spinal deformity. The causes of 30-day unplanned reoperation after PVCR are as followed: cerebrospinal fluid leak, dural buckling, residual bone compression and hematoma compression. Timely surgical exploration can gain good clinical outcomes.