Objective To evaluate the effectiveness of pedicle subtraction osteotomy (PSO) and non-osteotomy techniques in treatment of medium-to-severe kyphoscoliosis by retrospective studies. Methods Between January 2005 and January 2009, 99 patients with medium-to-severe kyphoscoliosis were treated by PSO (PSO group, n=46) and non-osteotomytechnique (non-osteotomy group, n=53) separately. There was no significant difference in sex, age, Cobb angle of scol iosis on coronal plane, and Cobb angle of kyphosis on saggital plane between 2 groups (P gt; 0.05). The operation time and blood loss were recorded; the Cobb angle of scol iosis on coronal plane and kyphosis on sagittal plane were measured at pre- and postoperation to caculate the rates of correction on both planes. Results The operation was successfully completed in all the patients. The operation time and blood loss of the patients in PSO group were significantly greater than those of the patients in non-osteotomy group (P lt; 0.05). All patients were followed up 12-56 months (mean, 22.4 months); no spinal cord injury occurred, and bone fusion was achieved at last follow-up. The Cobb angles of scol iosis and kyphosis at 2 weeks and last follow-up were significantly improved when compared with the preoperative angles in the patients of 2 groups (P lt; 0.05). There was no significant difference in Cobb angle of scol iosis and the rate of correction between 2 groups (P gt; 0.05), but the correction loss of PSO group was significantly smaller than that of non-osteotomy group (P lt; 0.05) at last follow-up. At 2 weeks and last follow-up, the Cobb angle of kyphosis, the rate of correction, and correction loss were significantly better in PSO group than in non-osteotomy group (P lt; 0.05). Conclusion There is no signifcant difference in scol iosis correction between PSO and non-osteotomy techniques.PSO can get better corrective effect in kyphosis correction than non-osteotomy technique, but the operation time and blood losswould increase greatly.
Adolescent idiopathic scoliosis refers to a three-dimensional spinal deformity or structural change that occurs in adolescence. The rotation of the vertebral body is greater than or equal to 10°. In order to avoid affecting the physical and mental health of patients, appropriate intervention and treatment of adolescent idiopathic scoliosis should be carried out as soon as possible. Based on the summary of non-surgical treatment of adolescent idiopathic scoliosis at home and abroad, this paper systematically introduces the mainstream early non-surgical treatment of adolescent idiopathic scoliosis, including observation and follow-up, electrical stimulation therapy, Chinese traditional chiropractic techniques, massage and manual reduction, functional training and exercise therapy, traction therapy and brace therapy, in order to provide a reference for the possible treatment research direction of adolescent idiopathic scoliosis in the future.
Objective To explore some operative problems of correcting paralytic scoliosis(PS) by using vertebral pedicle screwsrods system. Methods From May 2000 to May 2005, 18 patients with PS were corrected by screwsrods system which were made of titanium alloy.There were 10 males and 8 females, aging from 11 to 26 years. The primary disease included poliomyelitis in 13 patients and myelodysplasia (MS) in 5 patients (2 cases for second correction) with scoliosis of an average 85° Cobb angle (55-125°). The pelvic obliquity was found in all patients with an average 24° angle (355°).Of the 18 patients,3 cases were given perioperative halo-pelvic traction, 2 cases were given vertebral wedge osteotomy and correction and fixation, the other patients were purely underwent the treatment of pedicle screwrods system implants. Fusion segment at operation ranged from 6 to 15 sections, applied screws the most was 16,the fewest was 6. Results There were no wound infections and neurologic complications, all wounds healed by the first intention. Allscoliosis obtained obvious correction (P<0.001), the correction rate averaged 52.95% (44%-81%); the majority of lumbar kyphosis and pelvic obliquity were apparently corrected. The average clinical follow-up (16 cases) was 21 months(6-36 months),there was no implants failure. One patient with MS had a worse Cobb magnitude, the other patients had no curve progression (P>0.05). Conclusion The use of vertebral pedicle screwsrods fixation to multiple vertebral bodys and short segment fusion for PS, the treatment method is reliable and the outcome is satisfactory. While performing the correcting operative procedures, the spinal, pelvic and lower extremity deformities and functions should be all considered as a whole.
ObjectiveTo completely establish a three-dimensional (3D) simulation model of degenerative lumbar scoliosis (DLS) with the whole lumbar segments, then to analyze the biomechanical changes of the scoliosis segments by finite element analysis.MethodsA case of DLS patient was selected with L1-5 segments of CT scanning data, which was imported into MIMICS 15, SolidWorks, Hyper-Mesh software to establish a 3D simulation model, and ANSYS 15 was used to analyze the model. At the same time, different material properties and boundary loading conditions were assigned to various structures to simulate the actual human body conditions.ResultsThe 3D model built a total of 856 154 units and 232 850 nodes, including the reconstruction of fine vertebral bodies, intervertebral disc tissue, structure of various ligaments and joint cartilages. Under the load and torque, the range of whole lumbar segments was decreased, in the stress distribution on the four discs: the L2/3 intervertebral disc stress value (3.320 MPa) > L 4/5 intervertebral disc stress value (0.783 MPa) > L 3/4 intervertebral disc stress value (0.551 MPa) > L 1/2 intervertebral disc stress value (0.462 MPa). The stress distribution of the vertebral body showed that, L5 vertebral stress (34.0 MPa) > L 4 (33.6 MPa) >L 3 (30.0 MPa) > L 1 (23.3 MPa) > L 2 (22.4 MPa).ConclusionThe range of motion of the six degrees of freedom of the lumbar spine in DLS is decreased, the local stress distribution of the lumbar spine is abnormal, and the abnormal stress changes of the apical vertebral body and the top intervertebral disc may be the biomechanical basis for the occurrence or progression of DLS.
ObjectiveTo investigate the changes and relationship of cervical spine sagittal alignment and other spinal-pelvic sagittal parameters in adolescent idiopathic scoliosis. MethodsBetween July 2011 and July 2014, 35 patients with idiopathic scoliosis who met the inclusion criteria underwent posterior pedicle screw instrumentation and fusion. There were 12 males and 23 females with a mean age of 16.2 years (range, 13-20 years), including 16 cases of Lenke type 1, 7 cases of Lenke type 2, 4 cases of Lenke type 3, 3 cases of Lenke type 4, 4 cases of Lenke type 5, and 1 case of Lenke type 6. The average follow-up time was 10.9 months (range, 5-36 months). The pelvic incidence (PI), pelvic tilt (PT), sacral slope (SS), lumbar lordosis (LL), thoracic kyphosis (TK), cervical lordosis (CL), T1 slope, C2 slope, C7 sagittal vertical axis (C7 SVA), C2-7 plumbline (cSVA) were measured on pre-and post-operative standing lateral X-ray film. Based on preoperative CL, the patients were divided into kyphosis group (CL>0°) and lordosis group (CL < 0°); after operation, the patients were divided into restored lordosis (group A), decreased kyphosis (group B), and increased lordosis (group C) after operation. All data about sagittal profile changes were analyzed. The relations between CL and other spinal-pelvic parameters in the kyphosis and lordosis groups before operation were determined via Spearman correlation coefficient. ResultsStatistically significant changes were observed in PT, PI, SS, and LL between at pre-and post-operation (P < 0.05), but no significant difference was found in the other parameters (P>0.05). There were 17 patients in lordosis group and 18 in kyphosis group before operation. Intra-group comparisons showed significant changes in PT, PI, SS, C2 slope, and C7 SVA in lordosis group, and in PT, PI, SS, LL, CL, TK, T1 slope, and C2 slope in kyphosis group (P < 0.05). Subgroup comparisons showed significant changes in CL, TK, C2 slope, C7 SVA, and T1 slope before operation (P < 0.05) and T1 slope at last follow-up between 2 groups (P < 0.05). In kyphosis group, 7 cases (group A) had restored lordosis, 7 cases (group B) had decreased kyphosis, and 4 cases had increased lordosis. In lordosis group, 9 cases (group C) had increased lordosis, 3 cases had decreased lordosis, and 5 cases had kyphotic cervical alignment after operation. Significant difference was found in LL, CL, T1 slope, C2 slope, and C7 SVA of group A, in TK and CL of group B, and in CL and cSVA of group C between pre-and post-operation (P < 0.05). There were significant differences in pre-and post-operative LL between groups A and B (P < 0.05). In lordosis group, there was a strong correlation between CL and C2 slope (P < 0.05) at pre-operation. CL had strong correlation with C2 slope and T1 slope (P < 0.05) at pre-operation in kyphosis group, and CL had moderate correlation with cSVA (P < 0.05). ConclusionCervical sagittal alignment plays an important role in the balance of the spine and pelvis. The change of cervical sagittal alignment has a certain correlation with the change of thoracic kyphosis. Attention to properly maintaining or restoring cervical sagittal lordosis alignment should be considered in preoperative evaluation of adolescent indiopathic scoliosis.
ObjectiveTo explore the effect of a new rehabilitation intervention model based on International Classification of Functioning, Disability and Healthy (ICF) concept in perioperative treatment on patients with adolescent idiopathic scoliosis (AIS).MethodsFrom June 2017 to January 2019, AIS patients with Cobb angle below 80° were randomly divided into experimental group and control group by the method of randomized block design. The patients in the control group received routine perioperative rehabilitation intervention, while the patients in the experimental group received rehabilitation mode intervention based on ICF concept. The therapeutic effect of the two groups including functional and activity dimensions was observed.ResultsA total of 40 patients were included, with 20 in each group. Two patients withdrew the control group. On the fourth day after surgery, the total score of Modified Barthel Index (50.55±8.87 vs. 18.99±5.63; t=13.264, P<0.001) and Scoliosis Research Society-22 (SRS-22) (3.68±0.13 vs. 3.27±0.11; t=10.355, P<0.001) in the experimental group were all better than those in the control group. In the SRS-22 scores, statistically significant differences in comparison of function (2.79±0.29 vs. 1.90±0.48; t=6.884, P<0.001), and self image (3.91±0.27 vs. 3.38±0.32; t=5.539, P<0.001) between the two groups were found. There was no statistically significant difference in pain indicators and muscle strength between the two groups in the two postoperative evaluations (P>0.05). ConclusionsThe treatment based on the concept of ICF can improve the daily living ability in the short term with the safe and acceptable premise. The concept of stimulating patient autonomy, improving patient independence, and promoting social treatment, may improve the overall state of the patients.
ObjectiveTo develop a smart orthosis personalized management system for the treatment of patients with adolescent idiopathic scoliosis (AIS) and to evaluate the feasibility and efficiency through clinical preliminary applications.MethodsThe smart orthosis personalized management system consists of a wireless force monitor, a WeChat Mini Program, a cloud-based storage system, and a website backstage management system. Twenty-two patients with AIS who underwent orthosis treatment and met the selection criteria between March 2020 and December 2020 were enrolled. The follow-up time was 4 months. The parameters used to evaluate patients’ compliance were as follows (back and lumbar): baseline force value, measured force value, force compliance (measured force value/baseline force value×100%), measured wearing time (wearing time of force value was more than 0 N), and time compliance (measured wearing time/prescribed wearing time×100%), in which the prescribed wearing time was 23 hours/day. The baseline force values were measured at initiation, while the measured force value, measured wearing time, force compliance, and time compliance were measured during follow-up. The differences of these parameters between back and lumbar, and the differences among these parameters at 1, 2, 3, and 4 months after orthosis wearing were analyzed.ResultsThe average measured force value of 22 patients (back and lumbar) was (0.83±0.34) N, the average force compliance was 68.5%±17.9%, the average measured wearing time was (15.4±1.7) hours, and the average time compliance was 66.9%±7.7%. The baseline force value and measured force value of back were significantly higher than those of lumbar (P<0.05); the measured wearing time, force compliance, and time compliance between back and lumbar showed no significant difference (P>0.05). The measured force value, measured wearing time, force compliance, and time compliance at 1 month after wearing were significantly lower than those at 2, 3, and 4 months after orthosis wearing (P<0.05), no significant difference was found among 2, 3, and 4 months after orthosis wearing (P>0.05). At different time points after wearing, the measured force value of back were significantly higher than that of lumbar (P<0.05), while there was no significant difference between back and lumbar on the other parameters (P>0.05).ConclusionThe smart orthosis personalized management system has high feasibility to treat AIS, and can improve the compliance of such patients with orthosis wearing.
In the surgical treatment of adolescent idiopathic scoliosis (AIS), the posterior pedicle screw system has a better orthopaedic effect than the traditional internal fixation orthopaedic system, and has been widely used in the orthopaedic surgery of AIS. Although the vast majority of patients respond well to surgical treatment, complications can still occur. Aortic injury is one of the rare complications, but it can lead to catastrophic consequences. Spinal surgeons must be fully familiar with the knowledge of aortic injury and the appropriate management and management methods. This article reviews the complication of aortic injury caused by surgical treatment of AIS.
ObjectiveTo investigate the effectiveness of selective-partial hemivertebra resection and instrumentation via posterior approach only for congenital kyphoscoliosis. MethodsBetween January 2008 and August 2011, 17 patients with congenital kyphoscoliosis were treated by selective-partial hemivertebra resection and instrumentation via posterior approach. There were 10 boys and 7 girls with the mean age of 10.8 years (range, 9-14 years). Of them, 15 cases had lumbar back pain, and 3 cases had lower limb numbness of nervous system damage symptoms. Risser sign was rated as grade 0 in 3 cases, grade 1 in 2 cases, grade 2 in 7 cases, and grade 3 in 5 cases. The classification of deformity was fully segmental hemivertebra. The deformity located at the thoracic segment in 9 cases, at the thoracolumbar segment in 4 cases, and at the lumbar segment in 4 cases. The Cobb angles of the main curves, segmental curves, and segmental kyphotic curves were measured at pre-operation, at 10 days after operation, and last follow-up to evaluate the correction effect. ResultsThe 2-7 segments (mean, 3.7 segments) were fixed. The operation time was 4-6 hours (mean, 4.77 hours). The intraoperative bleeding was 300-1 100 mL (mean, 611.76 mL). All incisions healed by first intention, with no infection or complication of nervous system. All patients were followed up 6-37 months (mean, 20.12 months). Back pain and numbness of lower limbs were eliminated. X-ray films showed complete bone graft fusion at 6-18 months (mean, 12 months). At 10 days after operation and last follow-up, the Cobb angles of the main curves, segmental curves, and segmental kyphotic curves were significantly decreased compared with the preoperative angles (P<0.05); the Cobb angles of the main curves and segmental curves at last follow-up were significantly greater than those at 10 days after operation (P<0.05) except the segmental kyphotic curves angle (P>0.05). Postoperative correction rates of the Cobb angles of the segmental curve, the main curves, and segmental kyphotic curves were 64.35%±0.07%, 65.08%±0.07%, and 72.26%±0.11%, respectively; loss of correction was (3.04±1.17), (2.81±0.93), and (0.75±0.50)°, respectively. ConclusionFor patients at the age of 9-14 years, with the Risser sign between grade 0-3, and with the Cobb angles less than 60°, the selective-partial hemivertebra resection and instrumentation via posterior approach can balance the growth on the two sides of the spine, and achieve satisfactory therapeutic effect through individualized treatment of extra growth center resection.
Objective To review the King-types Ⅲ and Ⅳ patients treated by the CD hybrid technique and evaluate clinical results on the shorter fusion levels. Methods Fifty-eight patients with idiopathic scoliosis were treated by the CD hybrid method from March 2000 to January 2003, among whom 40 were grouped as Kingtype Ⅲ and 18 as Kingtype Ⅳ; 41 were female and 17 were male. The Cobb angle of the thoracic curve was averaged 64°(range 50-83°), and the curve flexibility was 62%. The compensative lumbarcurve was averaged 37°(range 16-48°), and the curve flexibility was 105%. With the neutral rotational vertebrae as a basis to select the low instrumentation vertebrae, the neutral rotational vertebrae or the vertebrae at 1 or 2 levelsproximal to the neutral rotational vertebrae were selected as the low instrumentation vertebrae in all the patients. Standing AP and lateral radiographs were taken respectively at the discharge, during the follow-up after discharge, and at the final follow-up. Results The patients were followed up for an average of 2.4 years (range 1.8-3.2). The corrected curves lost an average of 3.1°(range -1-5°)and the correction rate of the thoracic curve was 68% at the final follow-up.The plumbline from C7 was parallel to the sacral midline in 56 patients. The lumbar curves were corrected to an average of 8°(2-13°)automatically. The lumbosacral angle was corrected automatically by 53% and the low instrumentation vertebrae in 48 patients turned into stable vertebrae. The low instrumentation vertebrae lost 1.4 segments on average compared with the Harrington principle. No spinal imbalance was clinically observed in all the patients. Conclusion The choice of the low instrumentation vertebrae as the neutral rotational vertebrae can have a good result in the clinical practice. It can be applied in the CD hybrid technique in treatment of idiopathicthoracic curves.