To investigate the effects of postoperative fusion implantation on the mesoscopic biomechanical properties of vertebrae and bone tissue osteogenesis in idiopathic scoliosis, a macroscopic finite element model of the postoperative fusion device was developed, and a mesoscopic model of the bone unit was developed using the Saint Venant sub-model approach. To simulate human physiological conditions, the differences in biomechanical properties between macroscopic cortical bone and mesoscopic bone units under the same boundary conditions were studied, and the effects of fusion implantation on bone tissue growth at the mesoscopic scale were analyzed. The results showed that the stresses in the mesoscopic structure of the lumbar spine increased compared to the macroscopic structure, and the mesoscopic stress in this case is 2.606 to 5.958 times of the macroscopic stress; the stresses in the upper bone unit of the fusion device were greater than those in the lower part; the average stresses in the upper vertebral body end surfaces were ranked in the order of right, left, posterior and anterior; the stresses in the lower vertebral body were ranked in the order of left, posterior, right and anterior; and rotation was the condition with the greatest stress value in the bone unit. It is hypothesized that bone tissue osteogenesis is better on the upper face of the fusion than on the lower face, and that bone tissue growth rate on the upper face is in the order of right, left, posterior, and anterior; while on the lower face, it is in the order of left, posterior, right, and anterior; and that patients’ constant rotational movements after surgery is conducive to bone growth. The results of the study may provide a theoretical basis for the design of surgical protocols and optimization of fusion devices for idiopathic scoliosis.
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.
ObjectiveTo review the recent progress in research on the role of estrogen and estrogen receptor on the onset and progression of adolescent idiopathic scoliosis (AIS). MethodsThe recently published clinical and experimental 1iterature at home and abroad on abnormality of estrogen and its receptor in AIS was reviewed and summarized. ResultsThere are many abnormal changes of estrogen and estrogen receptor in most AIS patients, including higher serum estrogen concentration, unusual cellular response to estrogen, late age at menarche, and gene polymorphisms of estrogen receptor, which are closely associated with AIS predisposition, curve severity, and scoliosis progression. ConclusionEstrogen and its receptor participate in the onset and progression of AIS by certain mechanisms, but exact mechanism remains indefinite, which needs further research to better define the role of estrogen and its receptor in AIS.
Objective To analyze the correlation between the polymorphism on interleukin 6 (IL-6) gene promoter region-174 locus and adolescent idiopathic scoliosis (AIS), including the susceptibility, the bracing effectiveness, and the possible mechanism. Methods The 182 AIS patients and 210 healthy controls who met the inclusion criteria between January 2013 and January 2016 were collected as research objects. The genotype of IL-6 gene promoter region-174 locus, the serum IL-6, the bone mineral density (BMD) of femoral neck and vertebrae (L1–4), and the bone metabolism parameters, including bone alkaline phosphatase (BALP), bone gla protein (BGP), tartrate resistant acid phosphatase 5b (TRACP-5b), urine Ca, and urine Ca/Cr, were detected. All research objects were divided into the AIS group and the control group according to whether they had AIS, the GG, CG, CC groups according to their genotype, and progression-free group and progression group according to the therapeutic effectiveness of 1-year bracing treatment. Statistical analysis for the indexes were conducted respectively. Results There were significant differences in AIS history, BMD of femoral neck and lumbar vertebrae between the AIS group and control group (P<0.05). According to the therapeutic effecitveness of 1-year bracing treatment, 182 AIS patients were divided into progression-free group in 110 cases and progression group in 72 cases. The results of single factor analysis showed that there were significant differences in the genotype and allele distribution of IL-6 gene promoter region-174 locus, BMD of femoral neck and lumbar vertebrae, IL-6, TRACP-5b, urine Ca, and urine Ca/Cr between the progression-free group and progression group (P<0.05). The results of multivariable analysis showed that the BMD of lumbar vertebrae, TRACP-5b, and urine Ca were the influencing factors of bracing efficacy (P<0.05). According to the results of genotype detection, all research objects were divided into GG group in 264 cases, CG group in 104 cases, and CC group in 24 cases. The IL-6, TRACP-5b, urine Ca, and urine Ca/Cr of GG type carriers were higher and BMD of femoral neck and lumbar vertebrae were lower when compared with the CG and CC type carriers (P<0.05). The BMD of lumbar vertebrae of CG type carriers was lower than that of CC type carriers (P<0.05). Conclusion The polymorphism of IL-6 genepromoter region-174 locus wasn’t correlated with the AIS susceptibility, but it was correlated (not independently correlated) with the scoliosis progression under bracing treatment, and the risk for G-carried patients was higher. The mechanism may be that the polymorphism affected the IL-6 expression level and eventually affected the BMD of AIS patients through the bone metabolism.
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.
【Abstract】 Objective To study the short-term effects of thoracoscopic anterior spine release combined with posterior correction on the pulmonary function in patients with idiopathic scoliosis (IS). Methods Between April 2004 and June 2008, 21 cases of IS underwent thoracoscopic anterior spine release combined with posterior correction. There were 9 males and 12 females with a mean age of 15.6 years (range, 12 to 24 years). Of 11 patients, 2 had left protrusion deformity and 19 had right protrusion deformity, including 12 cases of Lenke type I and 9 cases of Lenke type II, with an average coronal Cobb’s angle of 79.6° (range, 65-125°). The disease duration ranged from 1 year and 6 months to 9 years (mean, 2.5 years). The results of pulmonary function tests (PFTs) were compared between pre-operation and postoperative 6th month, including lung capacity, ventilation function, and thoracic compliance. Results The opening time of the chest was 90 to 150 minutes (mean, 127 minutes) at the thoracoscopic anterior spine release and all incisions healed by first intention with no chest cavity infection. All the patients were followed up from 6 to 36 months (mean, 13.5 months). The average coronal Cobb’s angle was 43.7° (range, 36-75°) at 1 week after posterior correction. At 6 months after operation, the vital capacity and total capacity were significantly increased (P lt; 0.05), but no significant change was observed in the percentage of actual value and expected one when compared with pre-operation (P gt; 0.05). The functional residual capacity and the percentage of actual value and expected one of residual volume was significantly decreased when compared with those at pre-operation (P lt; 0.05). The forced expiratory volume in one second (FEV1) and FEV1/FEV were not significantly improved (P gt; 0.05) , but the maximum ventilatory volume was significantly increased when compared with the preoperative value (P lt; 0.05). In addition, the Raw Total, Raw Insp, and Raw Exp decreased significantly after operation (P lt; 0.05). Conclusion Although the thoracoscopic anterior spine release combined with posterior correction might disturb the function of the thoracic cavity, the PFTs of the patients could be improved at different aspects because of the shape changes of the thoracic cavity, and the pulmonary function still needed further observation.
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.
In order to investigate the mechanical response of lumbar vertebrae during gait cycle in adolescents with idiopathic scoliosis (AIS), the present study was based on computed tomography (CT) data of AIS patients to construct model of the left support phase (ML) and model of the right support phase (MR), respectively. Firstly, material properties, boundary conditions and load loading were set to simulate the lumbar vertebra-pelvis model. Then, the difference of stress and displacement in the lumbar spine between ML and MR was compared based on the stress and displacement cloud map. The results showed that in ML, the lumbar stress was mostly distributed on the convex side, while in MR, it was mostly distributed on the concave side. The stress of the two types of stress mainly gathered near the vertebral arch plate, and the stress of the vertebral arch plate was transmitted to the vertebral body through the pedicle with the progress of gait. The average stress of the intervertebral tissue in MR was greater than that in ML, and the difference of stress on the convex and convex side was greater. The displacement of lumbar vertebrae in ML decreased gradually from L1 to L5. The opposite is true in MR. In conclusion, this study can accurately quantify the stress on the lumbar spine during gait, and may provide guidance for brace design and clinical decision making.
Objective To elucidate the new development and effects of three-dimensional correction techniques of idiopathic scol iosis (IS). Methods The related home and abroad l iterature concerning three-dimensional correction techniques of IS was extensively reviewed. Results With more and more attention to three-dimensional correction of IS, all kinds of surgery and developed techniques of correction are applied to the correction of IS. The effects of three-dimensional correction of IS are satisfied. Conclusion With more knowledge about IS and more developed theory of correction, more safe and effective techniques of correction is therefore the hot spot for future study.