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Objective:To investigate the clinical outcome and complications associated with utilizing sagittal plane stable vertebra-1 (SSV-1) as the distal instrumented vertebra (LIV) in posterior fusion of thoracic kyphosis with Scheuermann's Disease kyphosis (STK).Methods:A longitudinal study on patients with STK who underwent posterior correction and fusion surgery from January 2018 to June 2021 were conducted. All participants had a follow-up duration over two years. Patients were divided into two groups according to the segment of LIV: the SSV group, where LIV was located in SSV; and the SSV-1 group, where LIV was located in the vertebral body above SSV. The radiographic parameters, including global kyphosis (GK), lumbar lordosis (LL), and sagittal plane (SVA), LIV offset distance (LIV translation), pelvic incidence (PI), pelvic tilt (PT) and sacral slope (SS), were compared between the two groups. The SRS-22 scale was used to evaluate health-related quality of life at pre-operation and last follow-up, and the incidence of postoperative distal junctional kyphosis (DJK) was also recorded. Analytical techniques, such as Analysis of Variance and Mann-Whitney tests, were employed to compare inter-group differences.Results:A total of 57 patients were included in the study, 36 in the SSV group and 21 in the SSV-1 group. The average age for patients were 16.1±2.3 years (range 13-20 years), and the average follow-up time was 32.8±6.8 months (range 24-53 months). There were no statistically significant differences between the two groups in terms of gender, age, follow-up time, surgical time, intraoperative bleeding volume, and fusion level. Before surgery, the LIV deviation distance in the SSV group was significantly lower than that in the SSV-1 group (-7.9±11.0 mm vs. 31.5±11.5 mm, t=7.64, P<0.001). In the SSV group, the preoperative GK was 79.3°±10.5°, and the last follow-up GK was 44.4°±8.5°, which was significantly improved compared to preoperative value ( t=28.28, P<0.001); in the SSV-1 group, the preoperative GK was 81.1°±10.6°, and the value at 1-week post-operative was 44.9°±7.8°, which was significantly improved compared to pre-operative value ( t=22.23, P<0.001). At the last follow-up, it was 45.1°±8.7°, with a correction rate of 44.3%±8.5%. No significant difference was observed between the two groups in terms of GK, LL, SVA, PI, PT and SS at pre-operative, 1-week post-operative and last follow-up ( P>0.05). All patients had no intraoperative complications of nerve injury. During the follow-up period, one patient (1/21, 4.8%) developed DJK without complications such as proximal kyphosis, pseudarthrosis, or failed internal fixation. At the last follow-up, the functional score of SRS-22 in SSV-1 group improved from preoperative (3.5±0.54) to postoperative (4.1±0.62), with an average improvement rate of 19.2%±3.2%, and the difference was statistically significant ( t=3.74, P=0.001). These results indicating that the surgical treatment was effective in relieving the symptoms of the patients. Conclusion:Selecting SSV-1 as LIV in corrective surgeries for STK appears to produce commendable clinical results with minimal implant-associated complications over a two-year observation period.
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Objective:To evaluate the clinical outcomes and complications of second sacral alar-iliac (S 2AI) technique utilized in degenerative spinal deformity patients, and to analyze the potential risk factors for postoperative sagittal imbalance. Methods:From January 2014 to October 2020, a consecutive cohort of 39 degenerative spinal deformity patients who were treated with S 2AI were retrospectively reviewed, including 4 males and 35 females, aged 63.1±6.7 years (range, 43-73 years). All of the patients had a minimum of 2-year follow-up. According to the sagittal vertical axis (SVA) at the final follow-up, patients were divided into 2 groups. Sagittal balance group (SVA≤50 mm) and sagittal imbalance group (SVA>50 mm). Radiographic parameters including the Cobb's angle, coronal balance distance (CBD), thoracic kyphosis (TK), lumbar lordosis (LL), SVA, pelvic incidence (PI), pelvic tilt (PT) and sacral slope (SS) were measured in the standing radiographs before and after operation and at the latest follow up. Comparison was made between the two groups and the differences with statistical significance were analyzed with binary logistic regression analysis. Intraoperative and postoperative complications were recorded. The Scoliosis Research Society-22 (SRS-22) score were employed to evaluate the quality of life. Results:The average follow-up period was 30.3±9.1 months (range, 43-73 months). Eighteen patients (46%) were identified with sagittal imbalance at the last follow-up. Compared with the patients in the sagittal balance group, the preoperative SVA was significantly larger (83.1±56.2 mm vs. 48.1±51.1 mm, t=2.04, P=0.049) and the postoperative TK was significantly greater (27.8°±9.6° vs. 18.9°±13.4°, t=2.36, P=0.024) for patients in the sagittal imbalance group. Scores of pain domain (3.2±0.5 vs. 3.7±0.6) and self-image domain (3.4±0.8 vs. 3.8±0.6) in sagittal imbalance group were significantly lower than those of sagittal balance group ( P<0.05). Logistic regression analysis showed that larger preoperative SVA ( OR=1.02, P=0.028) and greater postoperative TK ( OR=1.09, P=0.022) were independent risk factors for the occurrence of sagittal imbalance during the follow-up periods. Conclusion:S 2AI screw fixation can achieve satisfying coronal deformity correction and great sagittal reconstruction after surgery in patients with degenerative spinal deformity. However, sagittal imbalance may still occur during the follow-up periods. Larger preoperative SVA and greater postoperative TK are independent risk factors for the occurrence of sagittal imbalance.
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Objective:To evaluate the prevalence and distribution of ossification of ligamentum flavum (OLF) at the segments adjacent to the apex in patients with degenerative kyphosis.Methods:All of 74 patients with degenerative kyphosis from January 2018 to December 2021 were retrospective reviewed. All patients were taken anteroposterior and lateral radiographs, CT scan and magnetic resonance imaging (MRI) of the entire spine. Global kyphosis, the morphology of kyphosis and the occurrence of OLF at three segments adjacent to the kyphosis apex were recorded.Results:Of the 74 patients, 54 patients (73%) developed OLF in three segments adjacent to the kyphotic apex. The mean age of the 54 patients was 61.4±6.8 years, and the mean global kyphosis was 49.5°±21.2°. Among other 20 patients without OLF, the mean age was 56.1±7.5 years, and the mean kyphosis angle was 52.1°±19.1°. There was a statistically significant difference in ages ( t=2.92, P=0.005), but no statistically significant difference was observed regarding global kyphosis ( t=0.48, P=0.634). In these 74 patients, 9 patients had angular kyphosis, of which 8 (89%) developed OLF; of the 65 patients without angular kyphosis, 46 patients (71%) developed OLF. There was no significant difference between them (χ 2=1.32, P=0.251). Among the 54 patients diagnosed with OLF, 5 patients (9%) suffered ossification of the posterior longitudinal ligament (OPLL) and 20 patients (37%) suffered dural ossification; 43 patients (80%) developed OLF at proximal segments of apex, 6 patient (11%) developed OLF at distal segments of apex, and 5 patients (9%) developed OLF both at proximal and distal segments of apex. Thirty-two patients (59%) developed OLF at the first segment adjacent to the kyphotic apex, 27 patients (50%) developed OLF at the second segment, and 15 patients (28%) developed OLF at the third segment. Conclusion:Among patients with degenerative kyphosis, about 73% may development OLF within three segments adjacent to the kyphotic apex, and it mostly occurred within two segments adjacent to the apex proximally.
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Objective:To investigate the imaging features and surgical strategies of late-onset spinal deformity after myelomeningocele (MMC) repair.Methods:A total of 23 patients with late-onset spinal deformity after MMC repair from January 2006 to December 2019 were retrospectively analyzed, including 16 males and 7 females, aged 15.4±5.9 years (range, 6-28 years). All patients underwent MMC resection and repair in infancy (0-4 years). The complications of MMC, imaging characteristics of spinal deformity (Cobb angle of scoliosis, coronal balance, regional kyphosis), surgical methods, clinical outcomes and incidence of complications were analyzed. The Scoliosis Research Society-22 (SRS-22) score and Oswestry disability index (ODI) were used to evaluate the quality of life.Results:All patients were followed up for 2.4±0.8 years (range, 1-4 years). Among 23 patients, MMC occurred in the upper thoracic segment in 3 cases, thoracic segment in 1 case, thoracolumbar segment in 13 cases, and lumbosacral segment in 6 cases. 16 patients had scoliosis or kyphosis with the apex of the spine in the same segment as the MMC lesion. Among 13 patients with MMC located in thoracolumbar segment, 12 patients had scoliosis and 9 patients had kyphosis. Among 6 patients with MMC located in lumbosacral segment, 3 patients had pelvic tilt. Vertebral deformities included widening of pedicle space in 21 cases, enlargement of spinal canal in 19 cases, absence of spinous process in 17 cases, malsegmentation in 17 cases, and hemivertebra deformity in 9 cases. Intramedullary lesions included split cord in 6 cases and tethered cord in 9 cases. The overall implant density was 57.2%±17% (range, 16.6%-100%). At the last follow-up, the Cobb angle of scoliosis was 40.9°±19.1°, which was significantly smaller than 71.5°±28.2° before operation ( P<0.001). The local kyphosis angle was 26.7°±12.9°, which was significantly lower than that before operation (40.4°±21.5°), the difference was statistically significant ( P<0.001).The coronal balance was 16.1±13.6 mm, which was smaller than that before operation 28.5± 23.7 mm, the difference was statistically significant ( P<0.001). The total score of SRS-22 was 18.7±0.7, which was higher than that before operation 17.7±0.9, and the difference was statistically significant ( t=-9.74, P<0.001); ODI was 25.5%±6.2% after operation, which was significantly lower than that before operation (44.8%±10.1%), the difference was statistically significant ( t=13.66, P<0.001). Dural rupture occurred in 4 patients, including postoperative cerebrospinal fluid leakage in 2 cases; postoperative pleural effusion in 1 patient; and screw malposition in 2 patients. Three patients had broken rods and one had deep infection at final follow-up. Conclusion:About 70% of MMC patients who underwent resection and repair in early childhood developed late-onset spinal deformity in adulthood with the lesion at the parietal vertebrae. Posterior correction can obtain satisfactory clinical results. If the posterior element of the apical vertebral body is hypoplastic, the implant density can be increased by anterior vertebral screw, lamina hook fixation, and S 2 sacroiliac screw.
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Objective:To analyze the radiographic improvements after Halo-gravity traction in severe kyphoscoliosis patientswith type III spinal cord on preoperative apex MRI, and to assess the clinical outcomes and surgical safety of Halo-gravity traction in this cohort.Methods:A total of 47 severe thoracic kyphoscoliosis patients with type III spinal cord on preoperative apex MRI who underwent preoperative Halo-gravity traction followed by one-stage posterior spinal fusion from February 2019 to June 2021 in the Nanjing Drum Tower Hospital were retrospectively analyzed. There were 18 males and 29 females with an average age of 22.5±12.8 years (range, 9-60 years). The average duration of traction was 7.4±3.9 weeks (range, 4-16 weeks). Radiographic parameters were measured including the coronal Cobb angle, distance between C 7 plumb line and center sacral vertical line (C 7PL-CSVL), sagittalglobal kyphosis (GK) and sagittal vertical axis (SVA) atpre-traction, post-traction and post-operation, respectively. The traction correction rate was measured as "traction degree before traction-traction degree after traction)/traction degree before traction" and the surgical correction rate was represented as "traction degree before traction-postoperative degree)/ traction degree before traction". The Frankel scoring system was used for the evaluation of neurological status at pre-traction, post-traction and post-operation. Results:All of 47 patients underwent the Halo-gravity traction and posterior spinal correction surgery. The C 7PL-CSVL was 35.7±16.9 mm at initial visit. At post-operation, C 7PL-CSVL was improved to 22.0±13.7 mm ( t=13.75, P<0.001), and the improvement rate was 39.9%±15.5%. The GK was 110.9°±22.1° at initial visit, which was improved to 84.1°±19.9° ( t=8.84, P<0.001) after Halo-gravity traction with an average correction of 23.7%±8.9%. At post-operation, GK was improved to 65.3°±19.3° ( t=10.63, P<0.001), and the improvement rate were 40.1%±20.7%. The SVA was 43.8±19.5 mm at initial visit. At post-operation, SVA was improved to 21.1±14.9 mm ( t=10.32, P<0.001), and the improvement rate were 53.1%±27.0%. A total of 14 patients showed neurological deficits of lower limbs at pre-traction, of which 8 patients had significant neurological improvement after Halo gravity traction; 3 patients had significant neurological improvement after surgery, and the remaining 3 patients had no significant neurological improvement during treatment. No new neurological deficits were observed after Halo-gravity traction or surgery. Conclusion:For severe kyphoscoliosis patients with type III spinal cord on preoperative apex MRI, the Halo-gravity traction could effectively correct the deformity, improve neurological function, enhance the tolerance of spinal cord to surgery and reduce the risk of intraoperative iatrogenic neurological deficit.
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Objective:To investigate reversal of vertebral wedging and to evaluate the contribution of adding satellite rods to correction maintenance in patients with adolescent Scheuermann kyphosis (SK) after posterior-only instrumented correction.Methods:A retrospective cohort study with SK was performed. From January 2009 to December 2018, a total of 26 SK patients (21 males and 5 females) who received posterior instrumented correction surgery at the age of 13–16 years were included. The mean age was 14.5±0.9 years. Risser sign was level 1 in 5 patients, level 2 in 10 patients and level 3 in 11 patients. Patients receiving placement with a standard 2-RC construct were composed in the 2-RC group, and those with enhanced instrumentation with satellite rods adding to 2-RC via duet screws were assigned to the S-RC group. The anterior vertebral body height (AVBH), posterior vertebral body height (PVBH), global kyphosis (GK), disc wedging angle (DWA), vertebral wedging angle (VWA) and Scoliosis Research Society questionnaires-22 (SRS-22) were collected preoperatively, immediately postoperatively, and at the latest follow-up. Further, these outcomes were compared between the two groups.Results:The average follow-up durations for the S-RC and 2-RC groups were 3.1±1.0 and 2.9±1.1 years ( t=0.04, P=0.837), respectively. Remarkable postoperative correction of GK was observed in S-RC group and 2-RC group without significant difference (51.1%±5.1% vs. 46.7%±5.8%, t=1.74, P=0.099). The correction loss of S-RC group was significantly less than that at 2-RC group during follow-up (0.6°±0.3° vs. 1.8°±0.8°, t=-6.52, P<0.001). The ratio between AVBH and PVBH of deformed vertebrae notably increased in S-RC group and 2-RC group from post-operation to the latest follow-up ( P<0.05). Compared with the 2-RC group, the S-RC group had significantly greater increase in AVBH/PVBH ratio during follow-up (32.6%±8.5% vs. 22.5%±13.4%, t=2.31, P=0.030). The two groups had similar preoperative and postoperative SRS-22 questionnaire scores for all domains ( P>0.05). Conclusion:The AVBH of deformed vertebrae could be increased after posterior correction in SK patients. Compared with the traditional two-rod construct, satellite rods construction could be more effective which could achieve greater vertebral remodeling and less correction loss.
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Objective:To investigate the clinical and imaging outcomes of Lenke 5 idiopathic scoliosis posterior selective fusion with "Last Touching Vertebra-1" as the lower instrumented vertebra (LIV).Methods:A total of 103 patients with Lenke 5 idiopathic scoliosis who underwent posterior selective fusion orthopedic surgery from April 2009 to March 2020 were analyzed retrospectively. The LIV was the last touching vertebra (LTV) in 45 cases (LTV group) and the LTV-1 in 58 cases (LTV-1 group). The follow-up duration was more than 2 years. SRS- 22 questionnaire was used to evaluate the clinical effects at 2 years after operation. The anterior and lateral radiographs of the whole spine were measured preoperatively, postoperatively and at 2 years after operation to obtain all the following imaging parameters, including scoliosis Cobb angle, apical vertebral translation (AVT), coronal balance, LIV tilt, LIV lower intervertebral disc angle, LIV translation, LIV lower vertebral translation, LTV/LIV rotation degree, lumbar lordosis angle, pelvic incidence angle, sagittal balance. The complications were summarized and were analyzed for investigating potential risk factors.Results:At 2 years after operation, the correction rates of main Cobb in LTV group and the LTV-1 group were 60.2%±11.1% and 55.3%±14.1%, respectively. The coronal balance was 3.5±9.8 mm and 4.9±10.6 mm respectively. The sagittal balance was -15.5±18.1 mm and -19.6±22.6 mm respectively. There was no significant difference between the two groups ( t=2.305, P=0.085; t=-0.695, P=0.489; t=0.992, P=0.324). The incidence of proximal junction kyphosis in the two groups was 2.2% (1/45) and 8.6% (5/58), respectively. The incidence of significant loss of main Cobb correction and distal adding-on was 13.3% (6/45) and 25.9% (15/58) respectively without significant difference (χ 2=1.891, P=0.169; χ 2=2.451, P=0.117). Compared with non-complication patients (39 cases), 19 patients with complications in LTV-1 group had a greater degree of coronal balance to the convex side (23.9±9.5 mm vs. 14.6±11.5 mm, t=3.06, P=0.003), a greater LIV tilt (29.2°±3.7° vs. 25.3°± 5.3°, t=2.85, P=0.006), and a greater degree of LTV rotation (1.0(1, 1) vs. 0.6(0, 1), Z=-2.97, P=0.003). Logistic regression analysis showed that large preoperative LIV tilt and large preoperative coronal balance were the risk factors of complications during follow-up. Conclusion:The selection of LTV and LTV-1 as LIV in patients with Lenke 5 adolescent idiopathic scoliosis could obtain satisfied coronal, sagittal balance and low incidence of mechanical related complications during follow-up. For patients with preoperative coronal balance >17.0 mm or LIV tilt >25.3°, the risk of mechanical related complications might be higher than that when "LTV-1" was selected as LIV.
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Objective:To investigate the feasibility and effects of modified sequential correction technique combined 3-columns osteotomy for severe kyphoscoliosis.Methods:A retrospective analysis was performed on 18 patients (7 males and 11 females) with severe kyphosis who received modified sequential correction technique combined 3-columns osteotomy in our hospital from June 2019 to April 2020. Preoperative, postoperative and final follow-up clinical and imaging outcomes were evaluated.Results:In this cohort, the average fixed segment was 11.2±3.8. The average operative duration was 401.9±68.9 min and the average intraoperative blood loss was 2 418.8±736.9 ml. The Cobb angle was improved significantly from 65.0°±16.4° pre-operatively to 41.6°±14.1° post-operatively. At final follow-up, it was 41.4°±14.3°, which was not significantly different from that after operation. Global kyphosis (GK) was 65.5°±20.8° pre-operatively and 28.1°±13.8° post-operatively with correction rate of 57.8%±17.8%. However, GK was 29.3°±14 .2° at postoperative 1 year , which was not significantly different from that after operation. There was no significant difference in C 7PL-CSVL ( F=0.449 , P=0.642) or SVA ( F=3.519, P=0.058) among the three time points. There was no alter of SEP and MEP observed during operation. Four patients had temporary lower limb numbness after operation, while the symptoms disappeared at 6 months after operation. There was no instrumental failure during the follow-up. Conclusion:Patients with severe kyphoscoliosis can obtain satisfied local correction by undergoing modified sequential correction technique combined 3-columns osteotomy without significant loss of correction at 1 year after operation. It can effectively avoid instability and dislocation of the osteotomy site and massive bleeding during the operation. As a simplified surgical procedure, it can reduce the difficulty of rod loading without prolonged operation duration. Further, this technique can ensure lower incidence of neurological complications and rod failure.
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Objective:To investigate the correlations between cosmetic and radiographic parameters in patients with congenital scoliosis (CS) with vertebral segmentation failureand the clinical implication of cosmetic parameters.Methods:A total of 27 CS patients were retrospectively reviewed. Anteroposterior and lateral radiographs of the entire spine was taken. Simultaneously, photos were taken from the back in natural standing position and standing forward bending position. Seven cosmetic parameters were measured on the photographs: shoulder area index 1 (SAI1), shoulder area index 2 (SAI2), lumbar area index (LAI), shoulder angle (α 1), axilla angle (α 2), right and left waist angle difference (RLWAD) and hump index. Also, seven radiographic parameterswere measured on the radiographs: radiographic shoulder height difference (RSHD), T 1 tilt, first rib angle (FRA), clavicle angle (CA), clavicle-rib cage intersection (CRCI), clavicle chest cage angle difference (CCAD) and Cobb's angle. The correlation between cosmetic parameters and radiographic parameters was analyzed by Pearson correlation coefficient. Results:Of the 27 patients, 4 were males and 23 were females, with a mean of age 14.0±2.6 years (range 11-18 years). The apical vertebra ranged from T 5 to T 11. LAI was significantly correlatedwith CCAD, but correlation coefficient was only -0.44. The range of correlation coefficientsbetween SAI1 and all radiographic parameters was -0.17 to 0.53, and the range of correlation coefficients between SAI2 and all radiographic parameters was -0.16 to 0.53. However, all correlation coefficients were less than 0.56. Conclusion:Radiographic parameters cannot reflect cosmetic appearances of CS patients with vertebral segmentation failures accurately. More attention should be paid to cosmetic parameters in the evaluation of patients' appearances.
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Objective:To investigate the risk factors of long-term shoulder imbalance in patients presented postoperative shoulder imbalance who underwent single segment hemivertebra resection, and the role of postoperative trunk shift in shoulder imbalance.Methods:All of 30 patients who presented shoulder imbalance after hemivertebrae resection and short fusion from July 2006 to December 2018 were reviewed in this study, including 16 males and 14 females, aged 4.53±2.05 years (range, 2-8 years). Among them, 10 cases were thoracic hemivertebra, 12 thoracolumbar hemivertebra and 8 lumbar hemivertebra. According to the vertical height difference at the highest point of soft tissue shadows on both shoulders in the final follow-up upright posteroanterior radiograph, which was shoulder imbalance (SI), they were divided into two groups: Group B (balance, shoulder imbalance less than 10 mm) and Group IB (imbalance, shoulder imbalance more than 10 mm). Several radiographic parameters were measured preoperatively, 3 months after surgery and at the final follow-up, such as SI, distance between C 7 plumbline and center sacral vertical line (C 7PL-CSVL), Cobb angle of main curve, cobb angle of proximal curve (CAPC), Cobb angle of distal curve (CADC), upper instrumented vertebra offset (UO), lower instrumented vertebra offset (LO), upper instrumented vertebra slope (US), lower instrumented vertebra slope (LS), T1 tilt and sagittal vertical axis (SVA). Results:The mean follow-up period was 54.3±33.7 months (range, 24-132 months). A mean of 3.1 segments were fused. 7 cases (70%) of thoracic, 6 cases (50%) of thoracolumbar and 3 cases of lumbar hemivertebrae (37.5%) with shoulder imbalance at 3 months after surgery remained imbalanced at the last follow-up. Thirteen cases presented coronal imbalance postoperative (C 7PL-CSVL>2 cm), among 6 cases whose trunk shafted to the side of the higher shoulder postoperatively, 5 cases presented aggravated SI at final follow-up, and among 7 cases whose trunk shafted to the side of the lower shoulder postoperatively, 6 cases presented aggravated SI at final follow-up, while the difference had statistical significance ( P=0.029). The static analysis indicated that postoperative and long-term C 7PL-CSVL, long-term lowest instrumented vertebra and long-term T 1 tilt were risk factors of shoulder imbalance at final follow-up. Conclusion:A proportion of congenital scoliosis patients who presented shoulder imbalance after hemivertebra resection plus short fusion are less likely to achieve shoulder balance at the final follow-up. Long-term shoulder imbalance is often presented in the patients whose trunk shafted to the side of the higher shoulder postoperatively.
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Objective:To investigate how pelvic incidence (PI) would change during the follow-up in degenerative scoliosis (DS) patients who underwent second sacralalar-iliac (S 2AI) fixation and identify the possible factors associated with the changes in PI. Methods:The DS patients who underwent long fusion to pelvis with S 2AI fixation with a minimum follow-up of two years between November 2014 to January 2017 were retrospectively reviewed in this study. The following sagittal radiographic parameters were measured, including pelvic incidence (PI), lumbar lordosis (LL), pelvic tilt (PT), PI minus LL (PI-LL), and sagittal vertical axis (SVA) at pre-operation, post-operation and 2-year follow-up. Patients were divided into two groups at immediate post-operation: PI decreased less than 5° or increased (Group PI stabilization); PI decreased larger than 5° (Group PI activity). Descriptive statistics were calculated for all patients in the form of mean value and standard deviation (SD). Comparisons of means between variables were performed using an unpaired Student's t test. Pearson correlation coefficienttest was performed to determine the correlations between all radiographic variables. Inter- and intra-observer reliability was assessed using intraclass correlation coefficient (ICC). The internal consistency of the measurements was characterized as excellent ( ICC≥0.9), good (0.7≤ ICC<0.9), acceptable (0.6< ICC≤0.7), poor (0.5≤ ICC<0.6), or unpredictable ( ICC<0.5). Results:There were no significant differences in terms of age, sex, radiographic measurements and scores of SRS-22 between twogroups preoperatively ( P>0.05). 80 DS patients with a mean age of 55.3±16.2 years were enrolled in this study with a mean follow-up period of 34.6±8.7 months. At post-operation, 39 patients (38.8%) were in group PI stabilization whose PI decreased from 45.7°±11.4° to 45.3°±11.2° with no significant difference; while the other 41 (61.2%) were in group PI activity whose PI significantly decreased from 51.6°±14.5° to 40.9°±14.0°. At the last follow-up, 24 patients (49%) in group PI activity had PI returned with an increase of larger than 5°; while the other 25 (51%) showed no increase with a mean ΔPI change of -4.2°. Subgroup comparison revealed that ΔPI, post-operation PI, post-operation PT and age were significantly different between the two subgroups. Pre-operation PI, post-operation PI, post-operation PT, post-operation PI-LL were significantly correlated with ΔPI at the last follow-up. Logistic regression analysis showed that post-operation PI was the associated factor ( OR=0.87, P=0.024). Conclusion:PI decreased in more than half of DS patients after spinal surgery using S 2AI screws, while returned among 48% of them during 2-year follow-up. Lower pre-operation PI, post-operation PI and PT were strongly associated with the return of PI.
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Objective:To evaluate whether pelvic fixation is needed in patients undergoing posterior lumbosacral hemivertebra (LSHV) resection and long fusion.Methods:All 32 adult spinal deformity patients with posterior hemivertebra (HV) resection and long segment fixation treated from April 2005 to August 2019 were analyzed retrospectively, including 12 males and 20 females with a mean age of 32.9±8.8 years. According to the state of coronal balance distance (CBD), there were 15 cases of type A (preoperative CBD≤ 30 mm), 1 case of type B (preoperative CBD>30 mm and C 7 plumb line offset to the concave side), and 16 cases of type C (preoperative CBD>30 mm and C 7 plumb line offset to the convex side). The clinical and imaging data before operation, immediately after operation and at the last follow-up were collected, and the short-term and long-term complications related to operation were recorded. The improvement of Cobb angle and coronal balance of primary curve and compensatory curve were evaluated on the whole spine frontal and lateral X-ray films, and the change of coronal balance type after operation was evaluated. According to the mode of distal internal fixation, the patients were divided into two groups: PF group (pelvic fixation): distal fixation to iliac or sacroiliac; NPF group (non-pelvic fixation): distal fixation to L 5 or S 1. Results:All 32 patients were followed up with an average time of 3.9±2.6 years (range 2-11 years). The Cobb angle of primary curve in PF and NPF groups were 42.6°±13.5° and 41.3°±10.9° respectively before operation, and corrected to 13.1°±5.4° and 17.7°±5.8° respectively after operation. It maintained at 13.4°±5.1°and 18.5°±6.7° in the two groups at the last follow-up, respectively ( FPF=32.58, FNPF=28.64, P<0.001). The correction rates were 69.3%±11.8% and 57.6%±10.3%, respectively ( t=2.14, P=0.012). The compensatory curves of in the two groups were corrected from 54.9°±14.8° and 46.8°±13.6° before operation to 17.3°±9.6° and 15.4°±8.4° after operation. It also maintained at 18.5°±8.8°and 17.6°±9.5° in the two groups at the last follow-up, respectively ( FPF=42.97, FNPF=38.56, P<0.001). The correction rates were 68.4%±16.7% and 67.2%±14.9%, respectively ( t=0.17, P=0.849) in the two groups. In PF group, the primary and compensatory curve were similar (69.3%±11.8% vs. 68.4%±16.7%, t=0.15, P=0.837), while the correction rate of compensatory curve in NPF group was significantly higher than that of the primary curve (67.2%±14.9% vs. 57.6%±10.3%, t=2.13, P=0.013). Coronal decompensation occurred in 12 patients (12/32, 37.5%). The CBD in PF and NPF groups was corrected from 33.3±11.2 mm and 28.8±8.1 mm preoperatively to 18.5±3.5 mm and 27.1±6.8 mm postoperatively, respectively, and it showed no significant change at the last follow-up ( FPF=41.61, P<0.001; FNPF=0.38, P=0.896). While the CBD in PF group was significantly better than that in NPF group ( t=3.23, P=0.002; t=2.94, P=0.008). The incidence of coronal decompensation in PF group was 0%, which was significantly lower than 50% (12/24) in NPF group (χ 2=6.40, P=0.014). In addition, 6 cases in PF group were type C coronal decompensation before operation, and the coronal balance was corrected to type A after surgery (100%). Among 10 patients with type C coronal decompensation in NFP, 4 (40%) patients returned to type A after operation, and the difference was statistically significant (6/6 vs. 4/10, χ 2=5.76, P=0.034). Conclusion:Coronal decompensation (12/32, 37.5%) is not rare in patients after posterior LSHV resection and long fusion. Attention should be paid to the match of the corrections between lumbosacral deformity and compensatory curve, which is of great significance in coronal balance reconstruction. Pelvic fixation is helpful to reduce the incidence of postoperative coronal decompensation, especially for the type C patients.
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Objective:To investigate the radiographic risk factors related to the occurrence of distal adding-on (AO) in posteriorly treated Lenke modifier C adolescent idiopathic scoliosis (AIS) patients with the apical vertebra of the lumbar curve (L-AV) selected as the lowest instrumented vertebra (LIV).Methods:Seventy-three Lenke modifier C AIS patients were analyzed with a minimum of 2-year follow-up after posterior spinal fusion surgery with L-AV selected as LIV. Patients were grouped according to the occurrence of distal AO. Radiographical parameters were measured as follows: Cobb angle, curve flexibility and AV translation of the thoracic curve and lumbar curve, L-AV rotation and tilt, coronal balance, Harrington stable zone on anteroposterior (AP) film and concave bending film, L-AV derotation and L-AV/AV+1 disc opening or closing on convex bending film, etc. The Scoliosis Research Society-22 (SRS-22) score was used to evaluate clinical outcomes. Radiographic and clinical parameters were statistically analyzed between the two groups.Results:There were 23 patients in AO group and 50 patients in non-AO group. Preoperatively, the AO group had proximal L-AV, lower flexibility of the thoracic curve, coronal imbalance shifted to the convex side of the lumbar curve, lower Harrington stable zone on AP film and concave bending film, and less L-AV/AV+1 disc opening on convex bending film compared to non-AO group. The logistic regression revealed that the flexibility of the thoracic curve, coronal balance, Harrington stable zone on concave bending film, and L-AV/AV+1 disc opening or closing on convex bending film were significant predictors of distal AO. Specifically, the flexibility of the thoracic curve >40.0%, coronal balance< 19.6mm, and Harrington stable zone on concave bending film >77.8% might be optimal thresholds for selecting L-AV as LIV. At the final follow-up, AO group had larger lumbar curves and lower correction rates. No difference was found in the SRS-22 between the two groups.Conclusion:For Lenke modifier C AIS patients, LIV might be considered to stop at L-AV if there were good flexibility of the thoracic curves, coronal balance, L-AV/AV+1 disc opening on convex bending film, and large Harrington stable zone on concave bending film.
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Objective:To investigate the value of relative lumbar lordosis (RLL) and lumbar distribution index (LDI) in predicting the occurrence of adjacent segment disease (ASDis) after lumbar fusion surgery.Methods:This study retrospectively reviewed 163 consecutive patients (58 males and 105 females) who had undergone lumbar fusion and had been followed over 2 years,with an average age of 58.7 years; among them, 74, 71, and 18 patients had undergone fusion of one-level, two-level, and three-level, respectively. They were divided into the non-ASDis group and ASDis group based on the presence of ASDis or not. Pre- and post-operative spinopelvic parameters were measured on the upright lateral radiographs. RLL was calculated as measured lumbar lordosis (LL) minus ideal LL, and LDI was calculated as the ratio of postoperative low lumbar lordosis (LLL) to LL. Each parameter was stratified into 1 "aligned" subgroup and 3 "disproportioned" subgroups in accordance with values. Cochran-Armitage test of trend andlogistic analysis were performed to investigate the association between these two parameters and the occurrence of ASDis.Results:The average follow-up duration after initial surgery was 46±14 months (range, 25 to 134 months). Twenty-four (14.7%) patients were diagnosed as ASDis. The age ( t=3.13, P=0.002) and the proportion of 2-level and 3-level fusion (χ 2=10.27, P=0.006) in the ASDis group were significantly higher than those in the non-ASDis group ( P<0.05). There were no statistically significant differences between groups with respect to other general data. The ratios of moderate and severe hypolordosis of RLL were significantly higher in the ASDis group than that in the non-ASDis group (χ 2=16.92, P<0.001). There was also a significant linear trend with higher degree of hypolordosis being associated with higher rates of ASDis. However, distribution of four statuses of LDI did not differ statistically between groups. After controlling the confounders, the logistic regression analysis revealed that age, odd ratio ( OR)=1.07, 95% CI: (1.01, 1.13), P=0.018), moderate[ OR=4.34, 95% CI: (1.03, 18.41), P=0.046] and severe hypolordosis [ OR=11.64, 95% CI: (1.30, 104.49), P=0.028] were significantly associated with the occurrence of ASDis. Conclusion:A significant association between postoperative RLL and occurrence of ASDis after lumbar fusion surgery were detected. Setting surgical goals according to RLL may help reduce the ASDis rate. However, LDI is not identified to be predictive factors of the occurrence of ASDis.
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Objectives:To investigate the feasibility of second sacral alar-iliac (S 2AI) screw placement and trajectories index in patients with neuromuscular scoliosis with severe pelvic obliquity; and to explore the accuracy of S 2AI screw placement by O-arm three-dimensional (3D) CT navigation (Medtronic, Minneapolis, MN, USA). Methods:All of 28 patients with neuromuscular scoliosis who underwent posterior long fusion with S 2AI between January 2017 and August 2020 were reviewed, with an average age of 22.2 years old (ranged from 10 to 51 years), and the pelvic obliquity angle was 27.54±9.90° (ranged from 16.2° to 53.6°). Based on 3D CT reconstruction of these specimens, virtual S 2AI screw channels were identified and measured. Entry point was determined by 1 mm inferior and 1 mm lateral to the S 1 dorsal foramen, and virtual S 2AI screw trajectories with maximum length and width were explored by rotating 3D pelvis. The parameters of the determined channels were measured including caudal angulation on the sagittal plane (sagittal angle, SA), lateral angulation on the transverse plane (transverse angle, TA) and the maximal length of the channel (maximal length, ML). The accuracy of screw placement was evaluated by postoperative pelvic CT scan. Results:All of the virtual S 2AI screw trajectories can be reconstructed. The screw trajectory parameters were shown as follows: SA was 30.20°±21.94° and 50.94°±16.02° on the high and low sides of pelvis, respectively, and the difference was statistically significant ( t=3.990 , P<0.001). SA was 30.14°±21.93° on the anterior side of the pelvis and 51.00°±15.96° on the posterior side, respectively, with statistical significance ( t=4.027, P<0.001). TA was 43.67°±12.86° on the high side of pelvic tilt and 31.95°±13.80° on the low side, with statistical significance ( t=2.834, P=0.009). TA was 42.56°±12.52° on the anterior side of the pelvis and 33.05°±14.94° on the posterior side, respectively, and the differences were statistically significant ( t=2.192, P=0.037). ML was 97.12±12.44 mm and 92.28±11.04 mm on the high and low side of pelvis, and there was no significant difference ( t=0.963 , P=0.060). ML was 97.72±12.41 mm on the anterior sides of the pelvis and 91.68±10.57 mm on the posterior side, and the difference was statistically significant ( t=2.556 , P=0.017). SA tended to be smaller on the high side of pelvic tilt ( r=0.474, P<0.01) and TA tended to be higher on the anterior side of pelvis ( r=-0.419, P<0.01) . Only 2 screws (3.6%) showed screw breaches after surgery, with no clinically notable neurovascular or visceral complications. Conclusion:In patients of neuromuscular scoliosis with severe pelvic obliquity, the virtual S 2AI screw trajectory can be found in 3D CT reconstruction of the pelvis. But the parameters are very discrete at SA and TA. In these patients, the O-arm 3D CT navigation can be used to make sure the direction and length of the S 2AI screw, greatly improving the accuracy of screw placement and effectively descending the ratio of poor screw.
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Abstract:To compare the morphology of spinal cord between healthy adolescents with adolescent Chiari malformation type I (CMI) patients and investigate the impact of syringomyelia on the morphology of spinal cord in CMI patients.Methods:The clinical and radiological data of 292 CMI patients diagnosed by our center between June 2012 and March 2019 were retrospectively reviewed. Among them 15 CMI patients without syringomyelia were recruited in the CM group. Among the remaining 277 CMI patients, 274 patients had syringomyelia below the C 3-4 intervertebral disc. According to the principle of best matching, CMI patients with syringomyelia were selected with the closest age to the CM group (±18 months), and 30 CMI patients with syringomyelia were included in the CMS group according to a ratio of 1∶2. Thirty healthy adolescents were enrolled as the control group (NC group) in the same way. The anteroposterior diameters of spinal cord at C 2 (DSCO-C 2), spinal canal at C 2 (DSCA-C 2), midbrain-pontine junction (DPJ), the distance between the tip of cerebellar tonsils and the foramen magnum (AB) and the maximal diameter of the syrinx (D-syrinx) were measured on MRI. All radiographic parameters were measured twice independently by two spine surgeons, and intraclass correlation coefficient (ICC) were determined to demonstrate intra- and inter-observer reliability. One-way ANOVA and SNK- q test were used to compare the above radiographic parameters and age between CM, CMS and NC group. The distribution of genders was compared between the three groups using Chi-square tests. Pearson correlation analysis were conducted to demonstrate the relationship between radiographic parameters in CM and CMS group. Results:ICC ranged between 0.91 and 0.95 in the current study, demonstrating "excellent" reliability of radiographic measurements. No significant difference was noted regarding age and the distribution of genders among the three groups. Patients in CM and CMS groups showed similar DSCO-C 2 values ( P=0.254), both of which were significantly lower than that in NC group ( P<0.001). DSCA-C 2 in CMS group was significantly larger than that in CM ( P=0.003) and NC ( P<0.001) groups, while no significant difference was found between the CM and NC groups ( P=0.216). Moreover, DPJ in CMS group was significantly lower than that in CM group ( P<0.001) and NC group ( P<0.001). There was no significant difference in AB between CM and CMS groups ( P=0.948). DSCO-C 2 was significantly positively correlated with DSCA-C 2 in CMS group ( r=0.906, P<0.001), while AB, D-syrinx, DSCO-syrinx, DSCA-syrinx and DPJ were not significantly correlated with DSCA-C 2. There were significant correlations observed between DPJ and other radiographic parameters in the CMS group (all P>0.05). Significant positive correlation between DSCO-C 2 and DPJ was observed in CM group ( r=0.703, P=0.005). There was no significant correlation between DSCO-C 2 and DSCA-C 2 and DPJ in NC group (all P>0.05). Conclusion:CMI adolescents have significant atrophic change of cervical spinal cord and midbrain-pontine junction compared with healthy adolescents, regardless of the existence of syrinx. Moreover, syrinx in CMI patients indicated more obvious atrophic change of midbrain-pontine junction and dilated spinal canal compared with isolated CMI patients.
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Objective:To evaluate the safety and efficacy of one-stage posterior-only jumping hemivertebra (HV) resection combined with respective short fusions in the treatment of congenital scoliosis (CS) caused by multiple HVs.Methods:All of 13 consecutive patients with multiple HVs treated surgically from January 2010 to December 2017 were retrospectively reviewed, including 4 males and 9 females with a mean age of 3.7±1.2 years. One child had 4 HVs, and the rest had 2 HVs. The responsible HVs causing local scoliosis/kyphosis deformity or coronal plane deviation were selected as the target of resection. The distal HV was removed firstly and then the proximal one was resected; both of the fixation vertebraes were horizontalized during surgery. The clinical and imaging data of the children before the initial operation, immediately after the operation and at the latest follow-up were collected, and the short-term and long-term complications related to surgery were recorded. The data were evaluated on the whole-standing spine anteroposterior and lateral films, including the corrections of proximal and distal main curves, coronal balance, local kyphosis, and the improvement of spinal growth height (upper and lower internal fixation length, T 1-S 1 length). At the same time, the re-progression of coronal and sagittal deformities of the spine during growth was recorded (coronal decompensation: emerging postoperative curve progression more than 20°; kyphosis progression: kyphosis aggravation between upper and lower internal fixation more than 40°) and internal-fixation-related complications (screw cutting, screw malposition) were recorded. Results:Dual HVs were resected in each child, of which 8 (61.5%) were located on contralateral side of the spine, and 5 (38.5%) were located on ipsilateral side of the spine. The follow-up time was 6.2±3.3 years (range 2.0-10.5 years) after surgery. The Cobb angles of proximal and distal main curves were 36.7°±11.8° and 35.2°±7.8° respectively before surgery and were corrected to 9.7°±6.6° and 6.1°±4.1° respectively after surgery ( F=31.249, F=93.83, P< 0.001) ( t=6.888, t=10.954, P<0.001), and the correction rates was 73.6%±19.6% and 82.7%±11.7%, respectively. They were maintained at 14.3°±5.4° and 8.0°±4.6° at the latest follow-up, showing the correction rates loss of 15.8%±26.9% and 6.9%±7%, respectively. The coronal balance improved from 17.2±14.8 mm pre-operatively to -0.2±15.7 mm postoperatively ( t=2.703, P=0.008), and it remained at 0±18.4 mm at the final follow-up ( F=4.137, P=0.024). The T 1-S 1 length was corrected to 273.8±27.3 mm postoperatively, slightly increased compared with pre-operation 256.3±24.0 mm, ( t=0.680, P=0.527), and significantly increased to 333.2±33.4 mm at the latest follow-up ( t=2.986, P<0.001; F=6.704, P=0.003). Seven patients had local kyphosis before operation, which was significantly improved from 32.2°±13.6° to 6.1°±9.8° with a correction rate of 93.4%±27.0% after surgery ( t=3.355, P=0.004), which showed no significant loss of correction at the latest follow-up (5.4°±10.4°) ( F=11.187, P=0.002). Six patients (46.2%) developed coronal decompensation (Curve magnitude >20 °), with an average of 21.7°±1.9°. Two cases (15.4%) had progressive kyphosis between the thoracic regional internal fixations at 3 months after surgery, which were 68° and 58° respectively. After bracing, both coronal decompensation and sagittal kyphosis were improved. At the last follow-up, the coronal decompensation was improved to 14.7±8.9° and the kyphosis was alleviated to 55° and 46°, respectively. Conclusion:Posterior-only skipping hemivertebra resection and short fusion is a safe, effective procedure yielding significantly improvement of the growth imbalance and reginal spinal deformities of CS with multiple HVs. The mid-term follow-up results showed that the progress of the scoliosis was common during the growth period, which could be further controlled by supplementary brace treatment.
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Objective:To investigate the association of the cross-sectional area of lumbar paraspinal muscle with the spino-pelvic profile based on Roussouly classification.Methods:From January 2019 to December 2019, 102 patients with lumbar disc herniation were collected, the index level included L 2, 3 in 3 cases(2.9%), L 3, 4 in 14 cases(13.7%), L 4,5 in 58 cases (56.9%), and L 5S 1 in 27 cases (23.5%). According to Roussouly classification, there were 29 cases of type I (28.4%), aged 57.0±11.7 years old (range 43 to 72 years old), 31 of type II (30.4%), aged 56.9±10.3 years old (range 40 to 70 years old), 28 of type III (27.5%), aged 53.5±12.9 years old (range 42 to 70 years old), and 14 of type IV (13.7%), aged 59.7±9.5 years old (range 51 to 70 years old). The clinical status of the patients were evaluated with the MOS 36-item short-form health survey (SF-36), Oswestry disability index (ODI) and visual analog scale (VAS). Select all patients with L 1, 2, L 2, 3, L 3, 4, L 4, 5 and L 5S 1 disc level axial MRI images, to measure the cross-sectional area (CSA) of paraspinal muscles (back extensor muscle and psoas muscle) and the CSA of intervertebral disc at each disc level, and calculate the relative cross-sectional area (RCSA: the ratio of the CSA of muscles to that of the disc at the same level). One-way ANOVA was used to test the RCSA of the paraspinal muscles of the four groups, and then LSD- t test was used for pair wise comparisons to compare the RCSA of the paraspinal muscles in each group. Results:There was no significant difference in age ( F=1.067, P=0.367), female/male sex ratio ( χ2=2.412, P=0.491) and body mass index ( F=0.326, P=0.481). Roussouly type I group showed lower SF-36 score in both SF-36 PCS (31.5±6.5, F=3.207, P=0.047) and SF-36 MCS (33.9±5.7, F=3.409, P=0.031) compared with the other three types. In contrast, there were no significant differences in VAS Back Pain ( F=0.140, P>0.05), VAS leg pain ( F=0.622, P>0.05). and ODI scores ( F=1.075, P>0.05) among the types. At each level from L 1, 2 to L 5S 1, the RCSA of psoas muscle in Roussouly type IV (19.18±6.98, 35.36±10.37, 41.25±14.35, 61.58±12.03, 59.29±11.73) was significantly lower than that in patients with any other Roussouly type ( P<0.05), while no significant difference in the psoas RCSA among type I, type II and type III curves ( P>0.05). With regards to back extensor muscle, the RCSAs of back extensor muscle in Roussouly types I (135.32±19.86, 138.53±22.92, 125.06±21.44, 122.40±19.69, 110.87±18.08) and II (131.30±18.68, 136.39±24.87, 122.61±22.52, 121.10±20.47, 107.46±18.29) were significantly lower than those in Roussouly type III and IV at each level ( P<0.05), yet no significant difference between type I and II or between type III and IV. The ratio between the RCSA of back extensor muscle and psoas muscle in four types increased gradually from L 1, 2 to L 5S 1, with that being higher in type II (0.20±0.07, 0.33±0.09, 0.40±0.13, 0.58±0.11, 0.65±0.08) and lower in type IV (0.13±0.05, 0.24±0.07, 0.31±0.10, 0.47±0.10, 0.52±0.11). Conclusion:RCSA of paraspinal muscles varied among Roussouly types, suggesting a significant association between paraspinal muscles and the sagittal spino-pelvic alignment. Sagittal spino-pelvic alignment may be involved in the degeneration of paraspinal muscles.
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Objective:To explore the efficacy and correction mechanism of posterior column osteotomy for treatment of "Lenke 5-like" lumbar congenital scoliosis.Methods:From April 2008 to September 2019, 16 patients with lumbar congenital scoliosis underwent posterior column osteotomy were retrospectively reviewed including 6 males and 10 females, aged 23.9±11.7 years (range, 14-48 years). Among them, 8 cases were unsegmentation, 5 malformation and 3 mixed type. The average segments of PCO were 5.3. Posterior column osteotomy was adapted after the insertion of pedicle screws, then removed spinous process, ligaments, superior and inferior facet and corrected the deformity with the rods. The pre- and post-operative and last follow-up radiographic parameters were measured: Cobb angle of lumbar curve, distance between C 7 plumbline and center sacral vertical line (C7PL-CSVL), deformity angle (DA), disc correction angle (DCA) of instrumented segments, disc angle above upper instrumented vertebra (DAAU), lower instrumented vertebra disc angle (LDA), upper instrumented vertebra slope (US), lower instrumented vertebra slope (LS), lower instrumented vertebra offset (LO) and sagittal parameters such as thoracic kyphosis (TK), lumbar lordosis(LL) and thoracic junctional kyphosis (TJK). The Scoliosis Research Society-22 questionnaire (SRS-22) were conducted at preoperation and the final follow up to evaluate the clinical outcomes. Results:The mean follow-up period was 16.69±7.65 months (range, 12-36 months). The coronal DA was 26.74°±10.59° while the sagittal DA was 14.70°±11.63°. The pre- and post-operative Cobb angle were 51.19°±12.91° and 23.25°±12.86° while the correction rate was 57.17%±16.31% and reached 24.26°±13.19° in the last follow-up. The improvement of DAAU, LDA, US, LS, and LO pre- and post-operative had statistical significance ( P<0.001). The pre- and post-operative and the last follow-up C 7PL-CSVL were 27.13±17.08 mm, 21.81±12.80 mm and 20.24±15.02 mm. The pre-operative, postoperative and last follow-up DAAU were -4.35°±2.12°, 1.36°±2.34° and 1.60°±2.45°. The pre- and post-operative LDA were -7.03°±4.40° and 2.42°±3.39°, and the last follow-up LDA was 2.81°±2.98°. US and LS decreased from pre-operative 12.01°±8.33° and 21.46°±5.79° to 2.84°±7.52° and 11.64°±6.06°. The mean US and LS were 4.22°±6.56° and 11.56°±6.02° in the last follow-up. LO decreased after surgery and keep unchanged in the last follow-up, which were 12.71°±6.43°, 6.31°±5.17° and 7.01°±4.73°, respectively. For the sagittal plane parameters, the changes of TK, LL, and TJK reached statistical significance through the surgery. LL increased from 33.69°±14.01° to 44.28°±10.07° through the surgery and reached 41.97°±6.69° at the last follow-up while TK increased from 13.41°±12.37° to 23.52°±8.10°, TJK decreased from 29.02°±20.74° to 16.20°±12.62° after the surgery and reached 16.07°±13.33° at the last follow-up. The pre-operative, post-operative and last follow-up thoracic kyphosis were 13.41°±12.37°, 23.52°± 8.10°, and 24.21°±7.39°. There was no statistical significance of the change of C 7PL-CSVL, SVA, SSA and PI-LL through the surgery ( P>0.05). At the final follow-up, the self-image and psychologic status scores of SRS-22 were significantly higher than that before surgery ( t=15.457, P<0.001; t=14.726, P<0.001), and there was no significant difference in the rest of the domain ( P>0.05). Conclusion:"Lenke5-like" lumbar congenital scoliosis could obtain satisfactory correction of coronal and sagittal deformities with the treatment of posterior column osteotomy, while there was no significant loss of correction during follow-up. The incidence of surgical complications is low.
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Objective:To evaluate the clinical outcomes and complications of second sacral alar-iliac (S 2AI) technique utilized in adult patients with neuromuscular scoliosis, and to evaluate the impact on patients' quality of life. Methods:All of 11 patients (6 males and 5 females) applying S 2AI technique from January 2014 to December 2016 were retrospectively reviewed. The average age of the patients was 39.6±12.7 years. Among them, 8 cases were poliomyelitis, 2 cases were spinal muscular atrophy and 1 case was muscular dystrophy. All of 11 patients underwent posterior spinal fusion and utilized S 2AI screws for pelvic fixation. All patients were taken anteroposterior and lateral radiographs of the entire spine. Cobb's angle, spinal pelvic obliquity (SPO), regional kyphosis (RK), sagittal vertical axis (SVA) were recorded at pre-operation, post-operation and last follow-up. The Scoliosis Research Society (SRS)-22 questionnaires and Oswestry disability index (ODI) were utilized to evaluate the patient-reported outcomes. All complications were also recorded. Repeated measurement analysis of variance, t-test or non-parametric test was used to analyzed the data, respectively. Results:The average follow-up period was 62.4±10.8 months. The pre-operative Cobb angle was 98.0°±24.0°, and the post-operative Cobb angle was 60.7°±20.8°, of which difference was significant ( Z=3.015, P=0.003). The correction rate of Cobb angles was 57.2%±17.7%. 1-year after operation, the Cobb angle was 62.8°±23.6°, no loss of correction was found ( Z=0.294, P=0.797). And at last follow-up, the Cobb angle was 61.6°±21.7°, the correction maintained well ( Z=0.603, P=0.594). The pre-operative, post-operative, 1-year post-operative and last follow-up spinal pelvic obliquity were 37.0°±11.8°, 21.5°±11.6°, 23.2°±10.1° and 21.1°±8.6°. The significant improvement was obtained ( Z=2.934, P=0.003) and no loss of correction was found ( Z=0.690, P=0.519; Z=0.000, P=1.000). The pre-operative, post-operative, 1-year post-operative and last follow-up regional kyphosis were 46.8°±23.6°, 18.6°±10.6°, 18.9°±11.4° and 19.5°±9.8°. The significant improvement was obtained postoperatively ( Z=4.364, P<0.001) and remained stable at the last follow-up ( Z=0.074, P=0.945; Z=0.271, P=0.838). When compared the pre- and post-operative sagittal vertical axis, no significant difference was detected. In these patients, one patient had rod breakage and underwent revision, one patient suffered deep infection, and recovered by debridement surgery, one patient suffered from severe pain in the lower back and relieved with conservative treatment. Conclusion:The S 2AI technique utilized in patients with neuromuscular scoliosis could obtain satisfying clinical outcomes and provides safe, durable fixation with low rates of complications.