Your search keyword '"thoracolumbar junction"' showing total 455 results

1. Analysis of Risk Factors Associated with Proximal Junctional Kyphosis Following Long Instrumented Fusion from L1 to Sacrum: Age Itself Does Not Independently Increase the Risk.

Author

Ahn, Joonghyun, Kim, Young-Hoon, Kim, Yong-Chan, Kim, Ki-Tack, Kim, Sung-Min, Park, Jun Bum, and Ha, Kee-Yong

Subjects

ERECTOR spinae muscles, LOGISTIC regression analysis, MAGNETIC resonance imaging, BODY mass index, UNIVARIATE analysis, LUMBAR vertebrae diseases

Abstract

Background and Objectives: This study is a retrospective analysis aimed at understanding the incidence and risk factors of proximal junctional kyphosis (PJK) following long-instrumented spinal fusion from L1 to the sacrum in patients with mild to moderate sagittal imbalance. Materials and Methods: It recruited consecutive patients undergoing instrumented fusion from L1 to the sacrum for degenerative lumbar disease between June 2006 and November 2019 in a single institution. The patients' preoperative clinical data, muscle status at T12-L1 on magnetic resonance images, and sagittal spinopelvic parameters were analyzed. Univariate analysis was used to compare clinical and radiographic data between PJK and non-PJK patients. Logistic regression analysis was used to investigate the independent risk factors for PJK. Results: A total of 56 patients were included in this study. The mean age at surgery was 67.3 years and mean follow-up period was 37.3 months. In total, 10 were male and 46 were female. PJK developed in 23 (41.1%) out of 56; of these patients, 20 (87.0%) developed PJK within 1 year postoperatively. In the univariate analysis between PJK and non-PJK patients, the PJK group showed more frequent osteoporosis, lower body mass index, smaller cross-sectional area (CSA) and more fat infiltration (FI) in erector spinae muscle at T12-L1 and larger preoperative TLK and PT with statistical significance (p < 0.05). In the logistic regression analysis, severe (>50%) FI in erector spinae muscle (OR = 43.60, CI 4.10–463.06, R2N = 0.730, p = 0.002) and osteoporosis (OR = 20.49, CI 1.58–264.99, R2N = 0.730, p = 0.021) were statistically significant. Conclusions: Preexisting severe (>50%) fat infiltration in the erector spinae muscle and osteoporosis were independent risk factors associated with PJK following instrumented fusion from L1 to the sacrum, but age was not a risk factor. [ABSTRACT FROM AUTHOR]

Published

2024

2. BIOMECHANICAL COMPARISON OF TRANSPEDICULAR FIXATION METHODS UNDER ROTATIONAL LOADING FOR OPTIMIZING SURGERY ON THE THORACOLUMBAR JUNCTION OF THE SPINE

Author

O.S. NEKHLOPOCHYN, V.V. VERBOV, I.V. CHESHUK, M.V. VORODI, M.YU. KARPINSKY, and O.V. YARESKO

Subjects

thoracolumbar junction, burst fracture, transpedicular fixation, finite element analysis, rotational loading., Public aspects of medicine, RA1-1270

Abstract

Objective: To analyze various transpedicular (TP) fixation options for the thoracolumbar junction (TLJ) under rotational loads. Methods: A finite element model of the thoracolumbar spine was generated as part of a study. The model includes vertebrae Th9-Th11 and L2-L5 but excludes Th12 and L1. The model also integrates metallic structural elements, such as a vertebral body replacement (VBR) implant (interbody cage) and a TP system. We modeled the result of decompressive-stabilizing surgery for type C vertebral injuries (according to the classification scheme proposed by F. Magerl et al, 1994). The study analyzes four variants of TP fixation with different screw lengths and the influence of the presence or absence of transverse reinforcements. Results: It was found that during rotational loading, the maximum stress in bone structures occurs at the contact surface between the VBRs and the endplates of both adjacent vertebrae to the removed ones. In metallic hardware, the highest stress is observed on the interbody cage and in the TP screws installed in the Th10 and Th11 vertebral bodies. A comparison of different stabilization options reveals that the TP system with short monocortical screws and without transverse reinforcements provides moderate levels of stress. The use of bicortical screws without crosslinks results in a significant increase in stress, especially at the contact surface in the vertebral endplates and the intervertebral support device. On the other hand, the use of transverse reinforcements with short screws reduces stress, providing an optimal stabilization option. However, bicortical screws with crosslinks did not show significant benefits. Conclusion: Upon scrutinizing the biomechanical efficiency of different TP fixation methods, it has been determined that utilizing a TP system equipped with monocortical screws and two crosslinks results in the most even stress distribution caused by the rotational load.

Published

2024

3. Аналіз ефективності методу непрямої декомпресії хребтового каналу за умов лікування вибухових переломів ділянки грудо-поперекового переходу.

Author

Нехлопочин, О. С., Вербов, В. В., Чешук, Є. В., and Вороді, М. В.

Subjects

*SPINAL stenosis, *SPINAL canal, *MEDICAL sciences, *PREOPERATIVE period, *VERTEBRAL fractures

Abstract

Indirect decompression of the spinal canal through ligamentotaxis is one of the methods for remodeling the spinal canal in traumatic stenosis. Objective: To evaluate the effectiveness of indirect de-compression of the spinal canal for different morphological types of burst fractures of vertebral bodies at the thoracolumbar junction. Methods. A preoperative and postoperative analysis of computed tomography scans was performed on 59 patients who were treated at the«Romodanov Neurosurgery Institute, National Academy of Medical Sciences of Ukraine» for burst fractures at the thoraco-lumbar junction. The criterion for the effectiveness of indirect de-compression was the area of the spinal canal, measured at the level of injury in the zone of maximum compression. The grading of burst fractures was performed using the classification by F. Magerl et al. (1994). Results. In the preoperative period, the median degree of stenosis in the group of patients was 43.47 % (95 % confidence interval (CI): 37.53-46.22 %). For damage type A3.1, it was 36.9 % (95 % CI: 28.1-40.5 %>), for type A3.2 -- 46.1 % (95 % CI: 32.1-54.5 %), and for type A3.3 -- 47.6 % (95 % CI: 37.5-56.5 %). After surgical treatment, the degree of stenosis decreased by 20.14 % (95 % CI: 15.93-21.56 %). For type A3.1, the effectiveness was 20.1 % (95 % CI: 9.5-22.7 %), for type A3.2 --15.2 % (95 % CI: 7.51-17.3 %>), and for type A3.3 -- 21.7 % (95 % CI: 20.8-26.4 %). The difference between types A3.2 andA3.3 was statistically significant (p = 0.0018). It was found that indirect decompression is most effective with higher degrees of stenosis. For Grade I by D. Wolter (1988), the canal expansion achieved was 7.07 % (95 % CI: 5.69-8.65 %), for Grade II -- 21.6 % (95 % CI: 20.4-22.7 %>), and for Grade III -- 30.3 % (95 % CI: 27.0-33.6 %). Conclusions. Closed remodeling of the spinal canal with transpedicular fixation and the effect of ligamentotaxis is an effective method for correcting traumatic spinal canal stenosis at the thoracolumbar junction. The effectiveness of the technique is determined by many factors, including the type of burst fracture, the initial degree of stenosis, and the level of injury. [ABSTRACT FROM AUTHOR]

Published

2024

4. Normal Functional Local Alignment and Segmental Motion at the Thoracolumbar Junction: A Cross-Sectional Study of Healthy Subjects.

Author

Han, Moon-Soo, Hong, Jong-Hwan, Jung, Ji-Ho, and Lee, Jung-Kil

Subjects

*LUMBOSACRAL region, *CROSS-sectional method, *SPINE diseases, *AGE groups, *BACKACHE

Abstract

Several studies have investigated the mechanical behavior of the thoracolumbar spine. However, finding an accurate reference for the normal functional local alignment and segmental motion (SM) at the thoracolumbar junction (TLJ) is challenging. Therefore, this study aimed to assess age- and sex-related changes and differences in local alignment and SM at the TLJ. The study recruited healthy subjects aged 20 to 79 without complaints of back pain. Healthy subjects (60 males and 60 females) with appropriate imaging results were enrolled in the study. The subjects were divided into age groups (20–29, 30–39, 40–49, 50–59, 60–69, and 70–79 years); each group included 10 subjects of each sex. The SM at the TLJ was small but noticeable, and the motion gradually increased toward the lower level of the TLJ, closer to the lumbar region. No significant differences were observed between male and female subjects in any SM measurements at the TLJ. The SM at the TLJ gradually decreased with age, while local kyphosis of TLJ progressed. The results also showed that the thoracolumbar slope value did not change with age and remained at a mean of −12.8 ± 7.2° (P = 0.893). This study's results provide valuable guidance for appropriate surgical planning and rehabilitation of patients with spinal diseases or trauma. Furthermore, the results can be the basis for categorizing accurate criteria to evaluate the degree of disability after treatment. [ABSTRACT FROM AUTHOR]

Published

2024

5. ASSESSMENT OF BIOMECHANICAL STABILITY OF THE THORACOLUMBAR JUNCTION WITH A BURST FRACTURE OF TH12 FOLLOWING SURGICAL STABILIZATION UNDER ROTATIONAL LOADING.

Author

Nekhlopochyn, Oleksii, Verbov, Vadim, Cheshuk, Ievgen, Karpinsky, Mykhailo, and Yaresko, Olexander

Subjects

BIOMECHANICS, SPINAL injuries, TRAUMATISM, STRESS-strain curves, FINITE element method

Abstract

The thoracolumbar junction is the most vulnerable to traumatic injuries, with over 65 % of injuries to the thoracolumbar spine occurring in this region. Objective: To examine the stress-strain state of the thoracolumbar spine model with a burst fracture of the Th12 vertebra under various transpedicular fixation options influenced by rotational loading. Materials and methods: A mathematical finite-element model of the human thoracolumbar spine was developed, including a burst fracture of the Th12 vertebra and a transpedicular stabilization system containing eight screws implanted in the Th10, Th11, L1, and L2 vertebrae. Four variants of transpedicular fixation were modelled using short and long screws passing through the anterior surface of the vertebra, with and without two crosslinks. Results: The analysis showed sufficiently high loading values for both the bone structures of the models and the elements of the metal construct. The maximum stress level in the body of the damaged vertebra was 33.2, 26.7, 30.1, and 24.2 MPa, respectively, for models with monocortical screws without crosslinks, bicortical screws without crosslinks, monocortical screws with crosslinks, and bicortical screws with crosslinks. High values were also recorded for the vertebrae adjacent to the damaged one: 13.0, 8.4, 10.9, and 7.1 MPa for the L1 vertebra and 10.2, 8.9, 7.1, and 6.2 MPa for the Th11 vertebra in the respective models. The stress on the supporting rods was registered at 582.0, 512.5, 512.6, and 452.7 MPa respectively. Conclusion: The conducted analysis demonstrated that under rotational loading, the model with monocortical screws without crosslinks shows the highest peak loads at control points, whereas the model with bicortical screws and crosslinks shows the minimum. Meanwhile, models with short screws and crosslinks and long screws without crosslinks exhibit comparable results. [ABSTRACT FROM AUTHOR]

Published

2024

6. Analysis of Risk Factors Associated with Proximal Junctional Kyphosis Following Long Instrumented Fusion from L1 to Sacrum: Age Itself Does Not Independently Increase the Risk

Author

Joonghyun Ahn, Young-Hoon Kim, Yong-Chan Kim, Ki-Tack Kim, Sung-Min Kim, Jun Bum Park, and Kee-Yong Ha

Subjects

thoracolumbar junction, L1 vertebra, proximal junctional kyphosis, risk factor, instrumented fusion, Medicine (General), R5-920

Abstract

Background and Objectives: This study is a retrospective analysis aimed at understanding the incidence and risk factors of proximal junctional kyphosis (PJK) following long-instrumented spinal fusion from L1 to the sacrum in patients with mild to moderate sagittal imbalance. Materials and Methods: It recruited consecutive patients undergoing instrumented fusion from L1 to the sacrum for degenerative lumbar disease between June 2006 and November 2019 in a single institution. The patients’ preoperative clinical data, muscle status at T12-L1 on magnetic resonance images, and sagittal spinopelvic parameters were analyzed. Univariate analysis was used to compare clinical and radiographic data between PJK and non-PJK patients. Logistic regression analysis was used to investigate the independent risk factors for PJK. Results: A total of 56 patients were included in this study. The mean age at surgery was 67.3 years and mean follow-up period was 37.3 months. In total, 10 were male and 46 were female. PJK developed in 23 (41.1%) out of 56; of these patients, 20 (87.0%) developed PJK within 1 year postoperatively. In the univariate analysis between PJK and non-PJK patients, the PJK group showed more frequent osteoporosis, lower body mass index, smaller cross-sectional area (CSA) and more fat infiltration (FI) in erector spinae muscle at T12-L1 and larger preoperative TLK and PT with statistical significance (p < 0.05). In the logistic regression analysis, severe (>50%) FI in erector spinae muscle (OR = 43.60, CI 4.10–463.06, R2N = 0.730, p = 0.002) and osteoporosis (OR = 20.49, CI 1.58–264.99, R2N = 0.730, p = 0.021) were statistically significant. Conclusions: Preexisting severe (>50%) fat infiltration in the erector spinae muscle and osteoporosis were independent risk factors associated with PJK following instrumented fusion from L1 to the sacrum, but age was not a risk factor.

Published

2024

7. Thoracolumbar Sagittal Shape Varies With Pelvic Morphology and Aging.

Author

Prost, Solène, Charles, Yann-Philippe, Ilharreborde, Brice, Riouallon, Guillaume, Pesenti, Sébastien, and Blondel, Benjamin

Subjects

*SPINE abnormalities, *MORPHOLOGY, *SPINAL surgery, *AGE differences, *AGE groups, *LORDOSIS

Abstract

Study Design.: Retrospective study of a multicenter prospective database. Objective.: The objective of this study was to determine the organization and correlations between different spinal segments according to pelvic incidence (PI) and age. Summary of Background Data.: When planning surgery for the correction of adult spinal deformities, considering lumbar lordosis (LL) as a uniform segment is an approximation that can lead to planning errors. Materials and Methods.: Radiographs of 1540 subjects were analyzed and divided into three PI groups: low <45, intermediate 45 to 60, high >60, and stratified by age (<45, 45–70, and >70 yr). The different segments of L1–L4 proximal lumbar lordosis (PLL), L4–S1 distal lumbar lordosis (DLL), and T10–L1 thoracolumbar junction (TLJ) were analyzed. Results.: The mean age was 53.5 years (SD=17, minimum=20, maximum=93). There was a significant correlation between thoracic kyphosis T5–T12 and TLJ segment T10–L1 (r =0.581, P <0.001). Only the L1–L4 PLL segment correlated with PI (r =0.47, P <0.001). The T10–L1 TLJ segment was constant regardless of age or PI groups considered (mean=−8, SD=9). PLL did not vary with aging but differed according to PI. The DLL showed significant differences between age and PI groups but without a significant correlation between PI and DLL. Conclusions.: Pelvic morphology is known to determine the curvatures of the spine, however, the distribution of LL is not homogeneous. Our study provided a normative value reference and showed that T10–L1 is constant regardless of age or PI. Level of Evidence.: III. [ABSTRACT FROM AUTHOR]

Published

2023

8. Transforaminal Endoscopic Discectomy for Thoracolumbar Disc Herniation: A Retrospective Study and Technical Note.

Author

Chen, Hao, Zhang, Zhen, Bian, Zhenyu, Hou, Changju, Li, Maoqiang, Zhu, Liulong, and Wang, Xuepeng

Subjects

*DISCECTOMY, *HERNIA, *VISUAL analog scale, *LEG pain, *OPERATIVE surgery, *RETROSPECTIVE studies

Abstract

Thoracolumbar disc herniation (TLDH) is a rare disorder with unique characteristics that can result in undesirable surgical outcomes after traditional discectomy. In view of the widespread use of transforaminal endoscopic discectomy for lower lumbar disc herniation, we investigated treatment of TLDH by this procedure. The purpose of this study was to evaluate the clinical efficacy of transforaminal endoscopic discectomy for treating TLDH and share our technical experience. We retrospectively evaluated the clinical data of 19 patients who had undergone transforaminal endoscopic discectomy for TLDH in our institution between April 2018 and July 2021. Operation time, follow-up time, blood loss, postoperative hospital stay, visual analog scale scores for low-back and leg pain, and Japanese Orthopedic Association (JOA) scores were evaluated. The differences between preoperative and postoperative JOA and visual analog scale scores were significant (P < 0.05). According to the JOA scores, 14 of the 19 patients had excellent improvement, 3 had good improvement, and 2 had fair improvement; thus, the rate of satisfactory improvement was 89.5%. Operation time, blood loss, postoperative hospital stay, and surgical outcomes were favorable. Transforaminal endoscopic discectomy is an ideal surgical procedure for treating TLDH. [ABSTRACT FROM AUTHOR]

Published

2023

9. In vitro coupled motions of the whole human thoracic and lumbar spine with rib cage.

Author

Orbach, Mattan R., Mahoney, Jonathan, Bucklen, Brandon S., and Balasubramanian, Sriram

Subjects

RIB cage, THORACIC vertebrae, LUMBAR vertebrae, SPINE abnormalities, RANGE of motion of joints

Abstract

Study design: In vitro biomechanical study investigating the coupled motions of the whole normative human thoracic spine (TS) and lumbar spine (LS) with rib cage. Objective: To quantify the region‐specific coupled motion patterns and magnitudes of the TS, thoracolumbar junction (TLJ), and LS simultaneously. Background: Studying spinal coupled motions is important in understanding the development of complex spinal deformities and providing data for validating computational models. However, coupled motion patterns reported in vitro are controversial, and no quantitative data on region‐specific coupled motions of the whole human TS and LS are available. Methods: Pure, unconstrained bending moments of 8 Nm were applied to seven fresh‐frozen human cadaveric TS and LS specimens (mean age: 70.3 ± 11.3 years) with rib cages to elicit flexion‐extension (FE), lateral bending (LB), and axial rotation (AR). During each primary motion, region‐specific rotational range of motion (ROM) data were captured. Results: No statistically significant, consistent coupled motion patterns were observed during primary FE. During primary LB, there was significant (p < 0.05) ipsilateral AR in the TS and a general pattern of contralateral coupled AR in the TLJ and LS. There was also a tendency for the TS to extend and the LS to flex. During primary AR, significant coupled LB was ipsilateral in the TS and contralateral in both the TLJ and LS. Significant coupled flexion in the LS was also observed. Coupled LB and AR ROMs were not significantly different between the TS and LS or from one another. Conclusions: The findings support evidence of consistent coupled motion patterns of the TS and LS during LB and AR. These novel data may serve as reference for computational model validations and future in vitro studies investigating spinal deformities and implants. [ABSTRACT FROM AUTHOR]

Published

2023

10. Prediction of subsequent vertebral compression fractures after thoracolumbar kyphoplasty: a multicenter retrospective analysis.

Author

Yu, Weibo, Zhang, Haiyan, Yao, Zhensong, Zhong, Yuanming, Jiang, Xiaobing, and Cai, Daozhang

Subjects

*RESEARCH, *STATISTICS, *MULTIVARIATE analysis, *RETROSPECTIVE studies, *CHOLECALCIFEROL, *COMPRESSION fractures, *DESCRIPTIVE statistics, *RESEARCH funding, *KYPHOPLASTY, *PREDICTION models, *BONE density, *DATA analysis software, *LOGISTIC regression analysis, *RECEIVER operating characteristic curves, *VERTEBRAL fractures

Abstract

Objective Second fractures at the cemented vertebrae (SFCV) are often seen after percutaneous kyphoplasty, especially at the thoracolumbar junction. Our study aimed to develop and validate a preoperative clinical prediction model for predicting SFCV. Methods A cohort of 224 patients with single-level thoracolumbar osteoporotic vertebral fractures (T11–L2) from 3 medical centers was analyzed between January 2017 and June 2020 to derive a preoperative clinical prediction model for SFCV. Backward-stepwise selection was used to select preoperative predictors. We assigned a score to each selected variable and developed the SFCV scoring system. Internal validation and calibration were conducted for the SFCV score. Results Among the 224 patients included, 58 had postoperative SFCV (25.9%). The following preoperative measures on multivariable analysis were summarized in the 5-point SFCV score: bone mineral density (≤–3.05), serum 25-hydroxy vitamin D3 (≤17.55 ng/mL), standardized signal intensity of fractured vertebra on T1-weighted images (≤59.52%), C7–S1 sagittal vertical axis (≥3.25 cm), and intravertebral cleft. Internal validation showed a corrected area under the curve of 0.794. A cutoff of ≤1 point was chosen to classify a low risk of SFCV, for which only 6 of 100 patients (6%) had SFCV. A cutoff of ≥4 points was chosen to classify a high risk of SFCV, for which 28 of 41 (68.3%) had SFCV. Conclusion The SFCV score was found to be a simple preoperative method for identification of patients at low and high risk of postoperative SFCV. This model could be applied to individual patients and aid in the decision-making before percutaneous kyphoplasty. [ABSTRACT FROM AUTHOR]

Published

2023

11. MANAGEMENT OF THORACOLUMBAR FRACTURES: CLINICAL, FUNCTIONAL, AND RADIOLOGICAL OUTCOMES IN A SINGLE INSTITUTION.

Author

Durmaz, Mehmet Ozan, Ezgü, Mehmet Can, Karımzada, Demet Evleksiz, and Karımzada, Gardashkhan

Subjects

VERTEBRAL fractures, PAIN management, CEREBRAL angiography, MENTAL depression, CLINICAL trials

Abstract

Objective: The purpose of this study was to evaluate the long-term clinical, functional, and radiological outcomes of operative and nonoperative treated patients with thoracolumbar fracture. Materials and Methods: Between January 2016 and December 2021, data of patients hospitalized in our clinic due to thoracolumbar (T11-L2) fracture were collected and analyzed. Results: Two hundred eighteen patients met the inclusion criteria. One hundred thirty eight patients (63.3%) were operated and 80 patients (36.7%) were treated with nonsurgical methods. The duration of follow-up ranged from 13 to 82 months. There was a significant difference between the first admission oswestry disability index (ODI) and visual analog scale (VAS) and the final visit ODI and VAS when both operative and nonoperative treatment patients were evaluated separately and when evaluated together. The scores at the last control visit were significantly lower than the initial scores (p<0.001). When the fracture level was compared with the ODI and VAS, a significant difference was observed in the ODI score at the first admission (p=0.03). The ODI score at first admission was highest in patients with T11 fractures and lowest in patients with L2 fractures. There was a significant correlation between the "Anterior Vertebral Body Compression Percentage %" and four-vessel cerebral angiography (p<0.001). Conclusion: Patients with high vertebral depression and low functionality were operated, and regardless of the treatment protocol, pain decreased and functionality increased in all patients. The height of the vertebral corpus affects the angle of kyphosis, and surgical management is needed for the kyphotic deformity. Patients with high thoracolumbar fractures were more painful. [ABSTRACT FROM AUTHOR]

Published

2023

12. Значення заднього лігаментозного комплексу при травматичному ушкодженні ділянки грудопоперекового переходу Частина 1. Морфологія та біомеханіка.

Author

О. С., Нехлопочин, В. В., Вербов, Є. В., Чешук, and М. В., Вороді

Abstract

According to modern concepts, one of the basic criteria for the stability of the spinal motion segment in case of its traumatic damage is the integrity of the posterior ligamentous complex (PLC). Regarding the thoracolumbar junction (TLJ) as a zone that is most vulnerable to traumatic injuries, the Thoracolumbar Injury Classification and Severity Score and the clinically oriented AO Spine Thoracolumbar Spine Injury Classification System are used in determining therapeutic approaches in which the state of the thoracic spine is one of three key parameters. The term PLC was first proposed in 1963 by F.W. Holdsworth. However, only the widespread introduction of magnetic resonance imaging into clinical practice made it possible to fully reveal the informativeness of the specified parameter. The complex includes the interspinous, supraspinous ligaments, ligamentum flavum and facet joint capsule. The purpose of the review is to organize modern ideas about the morphology, biomechanical features, clinical significance, and diagnostic possibilities of detecting damage to the PLC in traumatic injuries of the TLJ area. In the first part, the morphological and biomechanical features of the PLC of the TLJ zone are considered in detail. When describing the morphology of some ligaments, the main attention is paid to their length, fixation zones, and certain layers, if such are distinguished. In addition, the relative anatomical location of the considered structures was taken into account. Histological features are indicated only in terms of their biomechanical significance. The analysis of literature data made it possible to organize the data characterizing the biomechanical parameters of each ligament of the PLC for each spinal motion segment of the area under consideration. Stiffness indicators, breaking force, fracture energy, strength and deformation limits, maximum deformation and elastic modulus were taken into account. The features of the load-deformation curve of the TLJ ligaments and methods of calculating the nonlinear change in the stiffness of each ligament of the PLC within the limits of physiological loads are considered. The phenomenon of preload and its clinical significance are described. Some aspects of the interaction between the elements of the passive stabilization system under different load patterns are considered. The data presented in the first part of the review can be useful for a general understanding of the principles of biomechanics of the spinal motion segment and may be used in the construction of highly detailed computer models. [ABSTRACT FROM AUTHOR]

Published

2023

13. Is spinal sagittal alignment of diffuse idiopathic skeletal hyperostosis relevant to thoracolumbar pain? A controlled study

Author

Shengyu Ruan, Xiaoting Song, Xianquan Xu, Fangying Lu, Chiting Yuan, Binhao Zhang, Tao-Hsin Tung, and Dun Hong

Subjects

diffuse idiopathic skeletal hyperostosis, spinal sagittal alignments, segmental disc angle, lumbar lordosis, thoracolumbar junction, back pain, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Objectives The extension of diffuse idiopathic skeletal hyperostosis (DISH) from the low thoracic spine to the lumbar spine result in adjustment of spinal sagittal alignment in surgical patients. The aim of this study was to investigate changes in sagittal alignment and back pain in the thoracolumbar spine in nonsurgical DISH and control participants selected from a radiological database. Methods Participants in the DISH and the control group were selected by searching for “DISH or degenerative changes in the thoracic spine” in the radiology database of Taizhou Hospital between 2018 and 2021 using Resnick and Niwayama’s criteria. The subjects with spinal tumors, previous spinal surgery, vertebral fractures, inflammatory diseases, poor-quality radiographs, or loss of follow-up were excluded. Demographic and clinical characteristics were recorded retrospectively via the hospital information system and telephone follow-up. Segmental disc angles (SDAs), lumbar lordosis (LL), and bridge scores were analyzed using images of three-dimensional CT. Results The final participants consisted of 51 individuals with DISH (DISH group) and 102 individuals without DISH (control group). Depending on the presence of thoracolumbar pain, the DISH group was divided into the DISH group with thoracolumbar pain (DISH+Pain) and the DISH group without thoracolumbar pain (DISH-Pain). The LL and SDAs of T11-T12 and T12-L1 were significantly greater in the DISH group than in the control group. In addition, the SDA of L1-L2 was significantly smaller in the DISH+Pain group than in the DISH-Pain group, whereas there was no significant difference in lumbar lordosis between the DISH+Pain group and the DISH-Pain group. The bridge scores in DISH+Pain group was larger in T10-T11 (p = 0.01) and L1-L2 (p

Published

2022

14. Multilevel non-contiguous thoracic pedicle subtraction osteotomy for fixed rounded hyperkyphotic deformity of the thoraco-lumbar junction with anterior bony fusion: technical note

Author

Faldini Cesare, Barile Francesca, Viroli Giovanni, Manzetti Marco, Geraci Giuseppe, and Ruffilli Alberto

Subjects

Kyphosis, Thoracolumbar junction, Pedicle substraction osteotomy, Sagittal imbalance, Orthopedic surgery, RD701-811

Abstract

Abstract Background Fixed severe hyperkyphotic deformities spread over more than five vertebral levels represent a therapeutic challenge, especially when the deformity apex is located at the thoraco-lumbar junction, thus requiring a huge amount of correction. The aim of this article is to describe an innovative all-posterior corrective technique based on multilevel non-contiguous thoracic pedicle subtraction ostoeotomy (PSO). Materials and methods A retrospective review of three patients with fixed severe thoracic hyperkyphosis (a deformity angle of over 70°) with a thoraco-lumbar apex (between T11 and L1) treated by simultaneous two-level thoracic PSO and thoraco-lumbar posterior fusion was performed. Radiographic and clinical records were evaluated pre-operatively, post-operatively and at last follow-up (after a minimum of 2 years). Each variable was presented as mean ± SD (standard deviation). Statistical analyses were performed using paired t-tests (P value

Published

2022

15. Percutaneous Curved Vertebroplasty Versus Unipedicular Approach Vertebroplasty for Acute Osteoporotic Vertebral Compression Fractures: A Randomized Controlled Trial.

Author

Lv, Zhendong, Chen, Zehao, Chen, Hao, Wang, Jieying, Han, Yingchao, Li, Xinfeng, Shen, Hongxing, and Zhang, Yuhui

Subjects

*VERTEBROPLASTY, *VERTEBRAL fractures, *RANDOMIZED controlled trials, *OSTEOPOROSIS, *VISUAL analog scale, *BACKACHE

Abstract

Study Design.: Prospective randomized controlled trial. Objective.: To clarify whether percutaneous curved vertebroplasty (PCVP) is superior to conventional unipedicular approach vertebroplasty (UVP) in patients with acute osteoporotic vertebral compression fractures (OVCFs). Summary of Background Data.: Unilateral curved vertebroplasty devices were designed and applied to provide better control of cement placement, which may be superior to traditional UVP for the treatment of acute OVCFs. Materials and Methods.: Patients with single-level OVCFs of <6 weeks duration and visual analog scale (VAS) of back pain 5 or more were randomly allocated to undergo PCVP or UVP and were followed up for 1 year. The primary outcome was overall VAS scores for back pain during 12 months of follow-up. The secondary outcomes were scores on the Oswestry disability index at each postprocedure clinic visit. Radiographic (cement distribution) and surgical data (operation time, fluoroscopy frequency, and cement volume) were assessed. Complications and adverse events were recorded. Results.: No statistical difference was found between the PCVP and UVP groups with respect to VAS and Oswestry disability index scores at any follow-up time point. Operative time, fluoroscopy frequency, and cement leakage were similar in both groups, while the PCVP techniques had a larger injection of polymethylmethacrylate (5.5 ± 1.4 vs. 4.2 ± 1.0 mL) and a greater dispersion pattern of cement (P < 0.001). Post hoc observations found that the analgesic effect was positively correlated with the symmetry of bone cement distribution, but not with the surgical method. Two serious adverse events occurred in the vertebroplasty group: one stress ulcer and one allergic reaction. Conclusions.: Although PCVP achieved more symmetrical cement distribution, which seemed to be associated with a greater analgesic effect, PCVP did not result in significantly greater pain relief than a UVP in the 12 months after treatment. [ABSTRACT FROM AUTHOR]

Published

2023

16. MATHEMATICAL MODELING OF VARIANTS OF TRANSPEDICULAR FIXATION AT THE THORACOLUMBAR JUNCTION AFTER THXII VERTEBRECTOMY DURING TRUNK BACKWARD BENDING.

Author

Nekhlopochyn, O. S., Verbov, V. V., Cheshuk, I. V., Karpinsky, M. Yu., and Yaresko, O. V.

Abstract

Fractures at the thoracolumbar junction are the most common traumatic spinal injuries. Advances in instrumentation for vertebral body replacement have significantly improved surgical techniques. However, the biomechanical characteristics of stabilizing surgeries have been insufficiently studied. Objective. To investigate the stress-strain state (SSS) of a mathematical finite element model of the human thoracolumbar spine during trunk backward bending after ThXII vertebra resection, considering different transpedicular fixation options. Methods. A mathematical finite element model of the human thoracolumbar spine -- ThIX-LV vertebrae -- was developed. The ThXII vertebra was removed, and an interbody support and transpedicular system with 8 screws were implanted to simulate the post-surgical state after a ThXII burst fracture with wide laminectomy, facetectomy, and corpectomy. The influence of transpedicular screw length and the presence of cross-links on the SSS of the model was examined. Results. The use of bicortical screws reduced stress levels in the bone elements of the model, except in the regions around the screws in the lumbar vertebrae, when compared to short screws. Installing cross-links decreased stress levels at all control points compared to models without cross-links. Specifically, in the presence of cross-links, the SSS values at the entry points of the short screws into the vertebral bodies of ThX, ThXI, LI, and LII were 2.3, 1.8, 1.2, and 5.0MPa, respectively, compared to 2.7, 2.0, 1.5, and 6.1 MPa in the models without cross-links. In the case of bicortical screws without cross-links, the stress values at the screw entry points into the pedicles of the corresponding vertebrae were 2.9, 1.5, 8.2, and 11.2 MPa, respectively, compared to 2.7, 1.5, 7.5, and 10.2 MPa in the models with cross-links. Conclusions. When the trunk is tilted backward, the use of cross-links reduces stress levels at all control points in the models, regardless of the screw length used. Bicortical transpedicular screws increase stress levels on the screws themselves and in the lumbar vertebral bodies surrounding them. [ABSTRACT FROM AUTHOR]

Published

2023

17. Математичне моделювання варіантів транспедикулярної фіксації ділянки грудопоперекового переходу після резекції хребця Тh12 під впливом стискаючого навантаження.

Author

Нехлопочин, О. С., Вербов, В. В., Чешук, Є. В., Карпінський, М. Ю., and Яресько, О. В.

Abstract

Background. The area of the thoracolumbar junction is characterized by a significant load that dictates increased requirements to stabilization, which should not only provide a reliable and rigid fixation, but also ensure the maximum uniform distribution of the load on all elements of both the metal structure and the bone tissue to exclude the failure of fixation in the long run. Purpose of the study is to investigate the influence of the transpedicular screw length and the presence of crosslinks on the load distribution during surgical resection of one vertebra from the thoracolumbar junction under the influence of axial compressive load. Materials and methods. We analyzed mathematical finite-element model of the part of thoracolumbar spine (Th9-L5), where the Th12 vertebra was removed and replaced by an interbody implant with additional fixation by a transpedicular system. Four variants of transpedicular fixation were modeled using short and long screws, as well as with and without two crosslinks. The stress-strain state of the models was studied under the influence of a vertical compressive distributed load of 350 N. Results. When using short screws and in the absence of crosslinks, the maximum stresses in the Th10, Th11, L1, and L2 vertebrae are 7.2, 5.3, 4.2, and 14.3 MPa, respectively, when using long screws without crosslinks — 6.5, 4.6, 3.8 and 13.5 MPa. The model with short screws and crosslinks shows 7.1, 4.4, 3.9 and 14.0 MPa, while the application of long screws with crosslinks is 6.3, 4.5, 3.5 and 13.2 MPa, respectively. Conclusions. With a compressive load, the use of long screws allows to reduce the level of stress in the bone elements of the models, the use of crosslinks provides greater rigidity to the posterior support of the transpedicular structure, which leads to an increase in stress on the fixing screws but allows to reduce the level of stress in the bone tissue. [ABSTRACT FROM AUTHOR]

Published

2023

18. Risk Factors for Proximal Junctional Kyphosis in Fusions from the Sacrum to L1 or L2 for Adult Spinal Deformity

Author

Koichi Murata, Shunsuke Fujibayashi, Bungo Otsuki, Takayoshi Shimizu, and Shuichi Matsuda

Subjects

adult spinal deformity, thoracolumbar junction, upper instrumented vertebra, Surgery, RD1-811

Abstract

Introduction: Several targets have been proposed to achieve satisfactory alignment and favorable outcomes in adult spinal deformity surgery. Stopping the upper instrumented vertebra (UIV) at the thoracolumbar junction levels, especially between T11 and L1, is considered a high-risk factor for the development of proximal junctional kyphosis (PJK). Nevertheless, it is unknown in which patients the results of surgery are satisfactory when L1 or L2 is set as UIV with lumbosacral fixation. This study aimed to identify the risk factors for PJK in patients with lumbosacral fixation with L1 or L2 as UIV. Methods: From January 2011 to December 2019, 21 consecutive patients who underwent lumbopelvic fixation for adult spinal deformity were included. The patients were divided into two groups: the PJK group (n=7) and the nonPJK group (n=14). Patients who experienced PJK within half a year of surgery were included in the PJK group. Pelvic incidence (PI), lumbar lordosis (LL), pelvic tilt (PT), thoracic kyphosis (TK), thoracic compensation (TK compensation), sagittal vertical axis (SVA), T10-L2 angle, and T1 pelvic angle (TPA) were measured before and after surgery. Results: No difference was found between the two groups in terms of age and sex at the time of surgery. The indices that were significantly different between the two groups were preoperative PT, PI minus LL, TK, TPA, TK compensation, and postoperative T10-L2 angle. No significant differences were found in postoperative LL, PI minus LL, PT, TK, TPA, or SVA. Conclusions: Preoperative X-ray indices, including preoperative TPA, TK compensation, TK, PT, and PI-LL, determined the risk of PJK in fusions from the sacrum to L1 or L2. Appropriate patient selection is crucial for the success of this surgery.

Published

2022

19. Is spinal sagittal alignment of diffuse idiopathic skeletal hyperostosis relevant to thoracolumbar pain? A controlled study.

Author

Ruan, Shengyu, Song, Xiaoting, Xu, Xianquan, Lu, Fangying, Yuan, Chiting, Zhang, Binhao, Tung, Tao-Hsin, and Hong, Dun

Subjects

*LORDOSIS, *THORACIC vertebrae, *EXOSTOSIS, *LUMBAR vertebrae, *SPINAL adjustment, *VERTEBRAL fractures, *PARAVERTEBRAL anesthesia

Abstract

Objectives: The extension of diffuse idiopathic skeletal hyperostosis (DISH) from the low thoracic spine to the lumbar spine result in adjustment of spinal sagittal alignment in surgical patients. The aim of this study was to investigate changes in sagittal alignment and back pain in the thoracolumbar spine in nonsurgical DISH and control participants selected from a radiological database. Methods: Participants in the DISH and the control group were selected by searching for "DISH or degenerative changes in the thoracic spine" in the radiology database of Taizhou Hospital between 2018 and 2021 using Resnick and Niwayama's criteria. The subjects with spinal tumors, previous spinal surgery, vertebral fractures, inflammatory diseases, poor-quality radiographs, or loss of follow-up were excluded. Demographic and clinical characteristics were recorded retrospectively via the hospital information system and telephone follow-up. Segmental disc angles (SDAs), lumbar lordosis (LL), and bridge scores were analyzed using images of three-dimensional CT. Results: The final participants consisted of 51 individuals with DISH (DISH group) and 102 individuals without DISH (control group). Depending on the presence of thoracolumbar pain, the DISH group was divided into the DISH group with thoracolumbar pain (DISH+Pain) and the DISH group without thoracolumbar pain (DISH-Pain). The LL and SDAs of T11-T12 and T12-L1 were significantly greater in the DISH group than in the control group. In addition, the SDA of L1-L2 was significantly smaller in the DISH+Pain group than in the DISH-Pain group, whereas there was no significant difference in lumbar lordosis between the DISH+Pain group and the DISH-Pain group. The bridge scores in DISH+Pain group was larger in T10-T11 (p = 0.01) and L1-L2 (p < 0.01) spine segments than those in DISH-Pain group. Conclusion: The extension of DISH from thoracic to lumbar spine may increase lumbar lordosis and SDAs in the thoracolumbar spine. The DISH patients with more bony bridging and small L1-L2 SDA may be more likely have thoracolumbar pain. Adjustment of sagittal alignment of the spine in the development of DISH may be of clinical importance. [ABSTRACT FROM AUTHOR]

Published

2022

20. Lateral Approach to the Thoracolumbar Junction: Open and MIS Techniques

Author

Zotti, Mario G. T., McEntee, Laurence P., Ferguson, John, Scott-Young, Matthew N., and Cheng, Boyle C., editor

Published

2021

21. Transdiaphragmatic Approach as a Novel Less Invasive Retroperitoneal Approach at Thoracolumbar Junction: Comparison with Conventional Diaphragmatic Incision

Author

Hiroaki Nakashima, Tokumi Kanemura, Kotaro Satake, Kenyu Ito, Satoshi Tanaka, Naoki Segi, Jun Ouchida, Kei Ando, Kazuyoshi Kobayashi, and Shiro Imagama

Subjects

thoracolumbar junction, transdiaphragmatic approach, minimally invasive surgery, surgical outcome, complication, lateral access surgery, fracture, Surgery, RD1-811

Abstract

Introduction: Lateral corpectomy has been considered a minimally invasive surgery, allowing a “transdiaphragmatic approach” at the thoracolumbar junction. This approach allows for a small diaphragmatic incision directly in the retroperitoneal space and the affected vertebra. However, its effectiveness in comparison to a conventional approach remains unclear. Thus, in this present study, we compared the surgical outcomes between conventional diaphragmatic detachment and the transdiaphragmatic approach in patients with vertebral fracture at the thoracolumbar junction. Methods: In total, 31 patients with a vertebral fracture at the thoracolumbar junction (T12-L2) were included in this study: 17 underwent a conventional approach, whereas 14 underwent a transdiaphragmatic approach, with a minimum 2-year follow-up. The effectiveness of surgery was evaluated in each category of the Japanese Orthopedic Association Back Pain Evaluation Questionnaire (JOABPEQ). Results: Operative time and estimated blood loss were determined to be significantly shorter in the transdiaphragmatic than in the conventional approach. Perioperative complications were observed in the conventional approach (one atelectasis and one pleural effusion), while no complication was noted in the transdiaphragmatic approach. There were no significant differences in postoperative quality of life as assessed by JOABPEQ in terms of pain-related disorders, lumbar spine dysfunction, gait disturbance, social life dysfunction, or psychological disorders between the conventional and transdiaphragmatic approaches. Conclusions: A “transdiaphragmatic approach” using lateral access surgery has been found to be associated with a shorter operative time and less blood loss with fewer complications than the conventional approach. Given that equivalent clinical outcomes were achieved in both conventional and transdiaphragmatic approaches, this “transdiaphragmatic approach” could be useful because of its minimal invasiveness.

Published

2021

22. Multilevel non-contiguous thoracic pedicle subtraction osteotomy for fixed rounded hyperkyphotic deformity of the thoraco-lumbar junction with anterior bony fusion: technical note.

Author

Cesare, Faldini, Francesca, Barile, Giovanni, Viroli, Marco, Manzetti, Giuseppe, Geraci, and Alberto, Ruffilli

Abstract

Background: Fixed severe hyperkyphotic deformities spread over more than five vertebral levels represent a therapeutic challenge, especially when the deformity apex is located at the thoraco-lumbar junction, thus requiring a huge amount of correction. The aim of this article is to describe an innovative all-posterior corrective technique based on multilevel non-contiguous thoracic pedicle subtraction ostoeotomy (PSO).Materials and Methods: A retrospective review of three patients with fixed severe thoracic hyperkyphosis (a deformity angle of over 70°) with a thoraco-lumbar apex (between T11 and L1) treated by simultaneous two-level thoracic PSO and thoraco-lumbar posterior fusion was performed. Radiographic and clinical records were evaluated pre-operatively, post-operatively and at last follow-up (after a minimum of 2 years). Each variable was presented as mean ± SD (standard deviation). Statistical analyses were performed using paired t-tests (P value < 0.05 was considered significant).Results: The mean local deformity angle decreased by 75% (from 81.3° ± 2.1° to 20.7° ± 1.4°, p < 0.001), the post-operative thoracic kyphosis decreased by 46% (from 61.4° ± 2.4° to 33.2° ± 0.9°, p < 0.001) and the sagittal vertical axis decreased by 73% (from 14.7 cm ± 0.8 cm to 3.9 cm ± 0.3 cm, p < 0.001). No differences were observed in the radiological results between post-operative values and those at the final follow-up. The average Oswestry Disability Index (ODI) score reduced from 65.7 ± 1.8 pre-operatively to 17.3 ± 1.7 at last follow-up (p < 0.001). No neurological, mechanical nor infective complication occurred.Conclusions: The presented technique, although technically demanding, proved to be a safe and effective alternative for the management of fixed severe thoraco-lumbar junction hyperkyphotic deformities.Level Of Evidence: IV TRIAL REGISTRATION Retrospectively registered. [ABSTRACT FROM AUTHOR]

Published

2022

23. Травматичні ушкодження грудопоперекового переходу. Класифікація Friedrich P. Magerl та співавт.

Author

О. С., Нехлопочин, Є. В., Чешук, and М. В., Вороді

Abstract

The thoracolumbar junction is an area of the thoracic and lumbar spine, which accounts for more than 50 % of fractures. Despite the high frequency of damage to this area, unambiguous unified treatment of patients has not been developed. One of the most critical factors that determine both the overall strategy of care and surgical management (if necessary) is the pathomorphological characteristic of osteoligamentous injuries. The main tool for standardization and unification of tactical approaches is the classification of injuries. Since the thoracolumbar junction anatomically belongs to the thoracic and lumbar spine, lesions of this area are characterized according to the thoracolumbar injury classifications. However, a number of biomechanical features of the thoracolumbar junction determine tactics different from those for identical types of traumatic changes in other parts of the spine. This series of publications examines the current and most commonly used classifications in order to determine the algorithm with the help of which, based on the proposed classification categories, it would be possible to choose the optimal treatment of victims. The classification was considered that has been proposed in 1994 by F. Magerl et al. and was the standard in the ranking of traumatic injuries of the thoracic and lumbar spine for a long period of time. The classification is based on the principle of two supporting columns of the spine. When developing it, the authors used the clinical material of 1,445 patients. The classification is based on three main types of damage — compression, distraction and rotation. Each type is divided into groups and subgroups. Detailing is provided for a number of subgroups. In addition to a detailed review of the classification, the main parameters that contribute to or prevent the use of the analyzed ranking system in clinical practice are considered. Much attention is paid to the problem of reproducibility of results, as well as the impact of additional factors on the reliability of determining the nature of the damage. The classification provides a comprehensive description of all possible post-traumatic pathomorphological changes and has a proven biomechanical basis. Such details can be an important tool in determining the treatment of the lumbosacral junction lesion, as high requirements for rigidity of fixation are due to the significant load on this area and the features of biomechanics, which requires further study, since the analysis of the literature did not reveal a clear scheme for the therapy of these injuries. [ABSTRACT FROM AUTHOR]

Published

2022

24. Можливості AOSpine Thoracolumbar Spine Injury Classification System у визначенні тактики лікування травматичних ушкоджень грудопоперекового переходу (огляд літератури).

Author

О. С., Нехлопочин, М. В., Вороді, and Є. В., Чешук

Abstract

The anatomical features of the thoracolumbar junction determine the significant predisposition of this area to traumatic injuries. The treatment tactics thoracolumbar junction lesion is quite controversial. A large number of methods have been proposed to demonstrate their effectiveness in various types of damage. However, a single concept that defines a specific method of treatment for a certain set of pathomorphological changes has not yet been formed. The trend of the last ten years is the development and active introduction into clinical practice of tactically oriented clinical classifications of traumatic injuries of sertain part of the spine. These classifications consider a number of heterogeneous factors and providе а clinician with a more or less clear scheme of therapeutic measures. As to the thoracolumbar junction, such a classification is AOSpine Thoracolumbar Spine Injury Classification System. The scheme was developed in order to characterize injuries of the entire thoracic and lumbar spine, while the features of the thoracolumbar junction, as in the previously proposed classifications, are practically not taken into account. The classification is based on the assessment of 3 basic criteria: the morphological characteristics of the fracture, the neurological status of the patient, and clarifying clinical modifiers. The hierarchy of the distribution of types of traumatic injuries corresponds to an increase in the severity degree. There are 3 main types: compression injuries; failure of the posterior or anterior ligamentous complex; damage accompanied by displacement in any plane. When developed the prurpose was the creation of a fairly simple, universal and well-reproducible classification in order to reflect global surgical preferences and determine the most rational approach to treatment. This review provides a detailed description of all damage options. It has been established that despite the high reproducibility of the results, the classification actually remains a descriptive tool, without assuming the definition of any tactics for each specific classified case. The thoracolumbar spine injury severity scale, which is based on the AO classification, is considered as a tool for quantitative assessment of the severity of injury. The scale, based on the sum of points characterizing a certain damage, allows you to make a choice in favor of either surgical or conservative treatment. The scheme proposed by the Spine Section of the German Society for Orthopaedics and Trauma is considered as the most detailed algorithm for the treatment of injuries to the thoracolumbar spine. The algorithm is based on the AOSpine Thoracolumbar Spine Injury Classification System, but uses a number of additional morphological modifiers, which made it possible to more adequately determine the most rational treatment method for a particular type of injury. [ABSTRACT FROM AUTHOR]

Published

2022

25. Outcomes with fracture-level transpedicular screws used for thoracolumbar junction fractures

Author

Sergey V. Likhachev, Vladimir V. Zaretskov, Vladislav B. Arsenievich, Vladimir V. Ostrovskij, Alexei E. Shulga, and Alexander V. Zaretskov

Subjects

thoracolumbar junction, burst fracture, transpedicular fixation, fracture-level transpedicular screws, Orthopedic surgery, RD701-811

Abstract

Background Short-segment transpedicular screw fixation (SSTSF) is the preferred treatment option for thoracolumbar burst fractures. Adding screws in the fractured body may be helpful in achieving and maintaining fracture reduction. However, the operative approach is disputed. Objective To compare clinical outcomes of transpedicular fixation with and without screws in the fractured vertebral body after isolated uncomplicated fractures at the thoracolumbar junction. Material and methods A retrospective cohort study enrolled 62 patients with Th11–L2 thoracolumbar burst fractures (AOSpine A3, A4) who underwent SSTSF with (n = 32) and without (n = 30) pedicle screws at the fracture level. Demographic data of the patients, operating time and blood loss were registered. Clinical evaluation using Visual analogue scale (VAS ) for pain, Oswestry Disability Index (ODI) to quantify disability and imaging parameters of segmental kyphosis, loss of correction, anterior vertebral body height (AVBH) at the fracture level, spinal canal stenosis (SCS) were measured preoperatively, at one week, 1 month, 6 and 12 months postoperatively. Results The patients of the two groups showed no statistically significant differences in the demographic data, VAS and ODI scores, measurements of kyphotic angle, AVBH, SCS preoperatively (p > 0.05). Screws at the fracture level did not affect the operating time and intraoperative blood loss relative to conventional no-screw group. Benefits with fracture screws were evident at 7 days (p < 0.01) measuring SCS, at 6 months (p < 0.01) and 12 (p < 0.01) months measuring kyphotic angle. There was better kyphosis correction (p < 0.01) and AVBH (p = 0.034) seen at 12 months after surgery. Conclusion Reinforcement of a broken vertebra with fracture-level screws has been shown to provide better stability of clinical and radiographic results as compared to those with conventional SSTSF.

Published

2020

26. Transitional Dysmorphisms at the Thoracolumbar and Lumbosacral Junctions: Perspectives on Biomechanical Implications and Etiological Relationships.

Author

Mahato, Niladri Kumar

Subjects

*SPINE, *SINGLE-degree-of-freedom systems, *ANATOMICAL planes, *SPINAL curvatures, *AXIAL loads, *VERTEBRAE

Abstract

Introduction: the segmented structure of the spinal column serves as an effective mechanism to transmit axial loading while simultaneously allowing stipulated movements in all six degrees of freedom at the spinal joints. The pattern of anteroposterior intra-vertebral loading dynamically shifts at the thoracolumbar (TL) and lumbosacral (LS) junctions where the line of gravity changes its position in the sagittal plane with respect to the spinal curvatures. Recent publications documenting morphological and clinical presentations of thoracolumbar transitional vertebrae (TLTV) and lumbosacral transitional vertebrae (LSTV) anomalies in the spine literature has prompted this perspective article as an attempt to collate probable biomechanical and etiological links between these two transitional anomalies. A summary of these propositions, as documented by clinical studies and hypothetical modelling, has been presented and discussed. [ABSTRACT FROM AUTHOR]

Published

2022

27. Radiological outcome of operative treatment with posterior approach in patients with thoracolumbar junction traumatic injuries: A single-center pilot study in a developing country.

Author

Safdari, Mohammad, Safdari, Zohre, Pishjoo, Masoud, Seifirad, Sirous, Kheradmand, Daniel, and Saghebdoust, Sajjad

Subjects

TREATMENT effectiveness, WOUNDS & injuries, PILOT projects, KYPHOSIS, TREATMENT of fractures

Abstract

Background: The thoracolumbar junction (TLJ) represents a transition zone of the spine that leads to a high incidence of fractures. The treatment of burst fractures remains controversial regarding the ideal management. This study assessed the postoperative radiological outcome of TLJ fixation in patients with TLJ injuries who underwent surgery. Methods: All traumatic patients with TLJ injuries who were referred to the Khatam hospital of Zahedan between 2015 and 2020, with their thoracolumbar injury classification and severity score (TLICS) of four or more and who underwent surgery, were included in this study. The patients who entered the study were called for a follow-up examination. The degree of kyphosis, proximal junctional kyphosis, and fusion were assessed in these patients. Results: Among 273 patients, the average age was 43.5 ± 12.3 (21-73) years. One hundred and ninety-eight patients (72.5%) had no neurological symptoms at admission. Based on the above criteria, the kyphosis angle of these patients was calculated before surgery, which in 46 patients (16.8%), the kyphosis angle was more than 25°. Preoperation kyphosis was significantly associated with follow-up kyphosis (P < 0.001). Evidence of no fusion was also observed in 22 patients (8.1%). According to the Chi-square test, no association was observed between preoperative kyphosis and postoperative complications, including PJK and fusion (P > 0.05). Conclusion: According to our study, the posterior spinal fixation procedure is a low-complication method with an acceptable radiological outcome. Although kyphosis before surgery is a factor in developing long-term kyphosis, it is not associated with nonfusion and PJK. [ABSTRACT FROM AUTHOR]

Published

2022

28. Safe Extraforaminal Docking and Floating Technique in Transforaminal Endoscopic Discectomy for Thoracolumbar Junction for Calcified Disc Herniation: A Case Report and Technical Review Junction for Calcified Disc Herniation

Author

Pang Hung Wu, Hyeun Sung Kim, Harshavardhan D Raorane, Dong Hwa Heo, Yeon Jin Yi, Kyung-Hoon Yang, and Il-Tae Jang

Subjects

thoracolumbar junction, calcified disc herniation, transforaminal, endoscopic discectomy, floating technique, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Diseases of the musculoskeletal system, RC925-935

Abstract

Objective Thoracolumbar disc herniation is an uncommon disabling spine condition. Methods There is relatively large dura expansion to lateral recess in the thoracolumbar junction leading to potential hazard in docking and execution of endoscopic transforaminal discectomy. Mobile outside in technique had been executed successfully in lumbar disc herniation, we modified the technique to allow safe docking and execution of discectomy in thoracolumbar junction. Herein, we report a case of thoracic twelve lumbar one disc paracentral disc herniation treated with floating transforaminal endoscopic discectomy under local anesthesia. Results A 46-year-old man with a 3-months of severe back and radicular pain on the right groin. A diagnosis of right T12/L1 paracentral disc herniation was made, based on clinical and radiological investigations. He underwent percutaneous transforaminal endoscopic thoracolumbar discectomy with floating technique. Over a follow-up of 6 months, a favorable outcome was noted. Conclusion Floating technique of transforaminal endoscopic thoracolumbar junction discectomy is a safe and an effective surgical approach for the treatment of thoracolumbar disc herniation. In patients with thoracolumbar disc herniation, careful patient selection and evaluation neural elements anatomy in relation to bony anatomy is important in preparation for endoscopic decompression.

Published

2020

29. Exploring the Thoracolumbar Interfascial Plane (TLIP) Block as a Novel Approach for Improved Pain Management After Spine Surgery: A Comparative Review.

Author

Gajapure SJ and Chakole V

Abstract

Postoperative pain management following spine surgery remains a significant challenge, often requiring multimodal approaches to achieve adequate analgesia while minimizing side effects. The thoracolumbar interfascial plane (TLIP) block has emerged as a novel regional anesthesia technique for addressing this issue. By targeting the interfascial plane between the erector spinae and quadratus lumborum muscles at the thoracolumbar junction, the TLIP block aims to provide targeted analgesia to the surgical site while reducing systemic opioid requirements. This review explores the anatomy, technique, mechanism of action, and clinical evidence supporting the TLIP block for post-spine surgery pain management. Additionally, it compares the TLIP block with traditional pain management approaches and discusses its implications for clinical practice and future research. Overall, the TLIP block shows promise as an effective and potentially safer alternative for post-spine surgery pain management, potentially improving patient outcomes and enhancing recovery. Further research is warranted to optimize its utilization and comprehensively evaluate its long-term effects., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Gajapure et al.)

Published

2024

30. Early Recurrence of Thoracic Ossification of the Ligamentum Flavum After Posterior Decompression Surgery: A Case Report.

Author

Asanuma S, Miura K, Funayama T, Koda M, and Yamazaki M

Abstract

Thoracic ossification of the ligamentum flavum (OLF) is known to result in spinal canal stenosis and myelopathy. It is typically treated through decompressive laminectomy and resection of the ossified ligament, which is known to improve neurological deficits. However, the recurrence of OLF post-surgery remains a relatively undocumented and complex issue. The present report describes the case of a 58-year-old male patient who had obesity (BMI 34), diabetes mellitus, and Basedow's disease. The patient presented with bilateral lower limb paresthesia and associated gait impairment, resulting in an urgent hospital admission. Imaging diagnostics identified extensive thoracic ossification of the posterior longitudinal ligament and OLF, both of which resulted in significant spinal cord compression. He underwent posterior decompression with instrumented fusion from T1 to T9 and additional laminectomy and OLF resection at T10/11. Despite an initial improvement in the postoperative period, the patient developed an epidural hematoma one week following surgery, causing significant paralysis of the lower limbs. This complication was promptly addressed with hematoma removal surgery. Six months after the initial procedure, his walking function improved significantly, but eight months after surgery, he experienced a sudden regression in motor functions due to the recurrence of OLF at T10/11, necessitating an additional posterior instrumented fusion surgery. Subsequent to the additional surgical procedure, the patient experienced an amelioration in paralysis, enabling him to ambulate with the aid of a cane. The recurrence of thoracic OLF after decompression surgery is a significant concern, especially in cases where decompression without instrumented fusion is performed. When determining the surgical procedure for thoracic OLF in cases with extensive ossification of the spinal ligaments, it is crucial to consider the degree of spontaneous fusion and mobility of the spinal segments, as demonstrated in the present case. The concentration of mechanical stress due to fusion at adjacent segments and intervertebral mobility at the thoracolumbar junction may increase the risk of OLF recurrence and should be carefully assessed preoperatively, even though posterior decompression surgery is typically considered a sufficient option for thoracic OLF., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Asanuma et al.)

Published

2024

31. Thoracolumbar Junction Fracture: Principle of Management.

Author

Prajapati, Hanuman Prasad

Subjects

*TREATMENT of fractures, *SPINE, *CONSERVATIVE treatment, *SPINAL injuries, *SPINAL cord, *SPINAL fusion, *EARLY ambulation (Rehabilitation)

Abstract

The thoracolumbar junction (TLJ) is the most common site of traumatic spinal injury. Its management is a highly controversial area. There are no specific guidelines for management of these injuries. The primary goal of treatment of TLJ fractures involves protecting the spinal cord from further neural damage, obtaining the stability by reconstructing anatomical alignment of spinal column, and returning patients to workplace through early mobilization and rehabilitation. There is a great variation in evaluation of stability of these fractures, which is one of the crucial factors in deciding the treatment. Controversy also exists regarding conservative versus operative treatment, timing of intervention, anterior versus posterior approach, short versus long segment fixation, and bracing versus no bracing. This article had reviewed the conflicting results and recommendations for management of TLJ fractures of previously published reports in PubMed, PubMed Central, and Medline databases. We analyzed these related articles which addresses issues regarding evaluation of stability, indications for operative and conservative treatment, timing of surgery, surgical approach, and fusion length. [ABSTRACT FROM AUTHOR]

Published

2021

32. Single-stage posterior debridement, decompression and transpedicular screw fixation for the treatment of thoracolumbar junction (T12-L1) tuberculosis with associated neurological deficit: a multicentre retrospective study

Author

Yanping Zeng, Wenjie Wu, Jingtong Lyu, Xun Liu, Jiulin Tan, Zhilin Li, Yuan Chen, Litao Li, Yonghong Zheng, Gaoju Wang, Jianzhong Xu, and Zehua Zhang

Subjects

Spinal tuberculosis, Thoracolumbar junction, Neurological deficit, Posterior decompression, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background A multicentre retrospective study was conducted to evaluate the safety and efficacy of single-stage posterior debridement, decompression and transpedicular screw fixation for the treatment of thoracolumbar junction (T12-L1) tuberculosis in patients with associated neurological deficit. Methods Thoracolumbar junction (T12-L1) tuberculosis patients (n = 69) with neurological deficit who underwent single-stage posterior debridement, decompression and transpedicular screw fixation from January 2005 to January 2015 were included in the study. Antituberculosis therapy was performed both before and after surgery. The surgery duration and patient blood loss were evaluated, in addition to the change in pain visual analogue score (pVAS), kyphotic angle, Oswestry disability index (ODI) score and American Spinal Injury Association (ASIA) grade assessed preoperatively, immediate postoperatively and at the final follow-up visit. Results The average blood loss was 354 ± 291 mL. The average kyphosis angle was corrected from 21 ± 9° preoperatively to 9 ± 4° postoperatively, with a mean decrease in pVAS and ODI scores of 3.4 and 16, respectively. The postoperative ASIA grading was grade A for five patients, grade C for 15 and grade D for 49 patients, which had improved to grade C for four patients, grade D for three patients and grade E for 62 patients at the final follow-up. The neurological deficit did not worsen in any of the patients. Conclusions Single-stage posterior debridement, decompression and transpedicular screw fixation is an effective treatment method in thoracolumbar junction (T12-L1) tuberculosis patients with neurological deficit, with good neurological recovery and no progression of kyphosis.

Published

2019

33. Is cast an option in the treatment of thoracolumbar vertebral fractures?

Author

Alessandro Rava, Federico Fusini, Pasquale Cinnella, Alessandro Massè, and Massimo Girardo

Subjects

Closed reduction and casting, conservative treatment, thoracolumbar junction, vertebral fractures, Diseases of the musculoskeletal system, RC925-935

Abstract

Background: Thoracolumbar vertebral fractures are common in high-energy trauma and often are associated to other concomitant injuries. Currently, brace and Closed Reduction and Casting (CRC) are the two conservative treatments proposed by literature. Despite CRC was widely used in the past, today brace is preferred. The aim of our study is to evaluate clinical and radiographic outcomes of thoracolumbar type A fractures, not associated with other injuries, treated with CRC. Materials and Methods: We retrospectively evaluated all patients treated from 2008 to 2015, with a mean age of 26.69 years (range 15–45). All patients were affected by AO type A fracture: 26 type A1, 17 type A2, and 21 type A3. All patients were evaluated by X-ray, computed tomography, and magnetic resonance imaging. Radiological evaluations included vertebral kyphosis (VK), segmental kyphosis (SK), regional kyphosis (RK) angle, and vertebral ratio (VR) measures. Patients were clinically assessed through visual analog scale, Oswestry Disability Index, Roland–Morris Disability Questionnaire, and Short Form 36 Health Survey. Results: Seventy-four patients (41 males and 33 females) were included in the study. At follow-up (mean 28.48 months ± 5.16), we found significant improvements in VK (P = 0.000013), SK (P = 0.000455), and RK (P = 0.000016). No significant differences were observed in VR (P = 0.26). Good clinical results were reported in patients in all scores and 90.7% of patients returned to work. Conclusions: Closed reduction and casting is still a reliable treatment option in selected thoracolumbar fractures without spinal cord involvement. A correct fracture evaluation, patient compliance, and motivation are essentials. Level of evidence: IV.

Published

2019

34. Injuries to the thoracolumbar junction: bibliometric analysis of English-language literature

Author

Sergey V. Likhachev, Vladimir V. Zaretskov, Alexey E. Shulga, Svetlana A. Gramma, Ivan N. Shchanitsyn, Sergey P. Bazhanov, Aleksandr V. Zaretskov, and Anna M. Donnik

Subjects

spine, thoracolumbar junction, spondilosynthesis, bibliometric analysis, citation, Surgery, RD1-811

Abstract

Objective. To analyze the 50 most cited articles related to the diagnosis, classification and surgical treatment of injuries of the thoraco- lumbar junction, which influenced the study of this problem. Material and Methods. The Web of Science database was searched for keywords to detect articles related to thoracolumbar junction sur- gery. Articles were selected taking into account the title, abstract and the used methods, and then evaluated by the total number of cita- tions to identify the fifty most cited. Characteristics of publications were analyzed. Results. The United States of America, Thomas Jefferson University and A.R. Vaccaro were the most productive country, institution and author, respectively, dealing with the subject. The 2000s was the most active decade in terms of the number of publications. The great- est attention of scientists dealing with the problems of thoracolumbar injury was attracted by the article by McLain et al. analyzing the causes of the failures of short-segment transpedicular systems in the early postoperative period. The article by Laursen et al. presenting the results of using recombinant bone morphogenetic protein-7 in combination with metal fixation is at the top of the list in terms of aver- age citation index. Most articles are well-designed randomized studies with the evidence level II. Conclusion. Citation analysis allowed to identify the most relevant articles, the authors of which have made a significant contribution to the problem of surgery of the thoracolumbar junction. Study of the information field through the prism of the most cited articles allows seeing the mainstream and future development of diagnostics, classification and treatment of the injuries of this localization.

Published

2018

35. The Role of Orthotics in Osteoporosis

Author

Pfeifer, Michael, Sinaki, Mehrsheed, editor, and Pfeifer, Michael, editor

Published

2017

36. Morphometric analysis of thoracolumbar junction (T11-L2) in central Indian population: A computerized tomography based study of 800 vertebrae.

Author

Hedaoo, Ketan, Ambuj Kumar, Brijesh Kumar Singh, Raghavendra Kumar Sharma, Mallika Sinha, and Yadav, Yadram

Abstract

To determine various morphometric parameters like transverse and sagittal pedicle width; interpedicular distance; antero-posterior and transverse canal diameter and canal surface area at thoracolumbar junction (T11, T12, L1, L2) in central Indian population and compare results with similar studies available in literature. A prospective, computerized tomography scan based morphometric analysis of thoracolumbar junction was conducted at medical college and tertiary care centre in central India. All asymptomatic cases more than 18 years age with normal lateral radiograph and CT scan of thoracolumbar junction and free from any spinal pathology or trauma were included in the study. Parameters measured were transverse and sagittal pedicle width; interpedicular distance; antero-posterior and transverse canal diameter and canal surface area at thoracolumbar junction (T11, T12, L1, L2). Mean transverse pedicle width was maximum at T11 and minimum at L1 in both males and females, whereas sagittal width was maximum at T11 and minimum at L2 in both the groups. Interpedicular distance was largest at L1 in both the groups. All the measurements were significantly different (P < 0.05) in males and females. Mean antero-posterior and transverse diameter was maximum at T12 and L2 respectively in both male and female study population. Canal surface area was maximum at L1 among males (230.10 mm2) as well as females (209.02 mm2). There is significant variation in morphometric parameters of thoracolumbar junction in different races and population. Thorough knowledge of morphometry of a particular population is essential for dealing with pathology or trauma of thoracolumbar junction. [ABSTRACT FROM AUTHOR]

Published

2021

37. PI and T9-SPI: New Predictive Factors for Increased Kyphosis of the Thoracolumbar Junction in Thoracolumbar/Lumbar Adolescent Idiopathic Scoliosis

Author

XiaoLong Lin, Jie Zhu, Weiping Sha, Fei Yan, Liming Wang, and Yong Qiu

Subjects

adolescent idiopathic scoliosis, thoracolumbar junction, pelvic incidence, T9-SPI, kyphosis, Pediatrics, RJ1-570

Abstract

Objectives: Studies have demonstrated that there is an increased thoracolumbar junction sagittal Cobb angle (TLJS) in thoracolumbar/lumbar adolescent idiopathic scoliosis (AIS) patients. The objectives were to ascertain the correlations between the spinopelvic alignments and TLJS and to explore potential predictive factors for hyperkyphotic TLJS in the sagittal plane in thoracolumbar/lumbar AIS.Methods: A total of 114 AIS patients with thoracolumbar/lumbar curve were included. Cobb angle, apical vertebrae rotation (AVR), thoracic kyphosis (TK), TLJS, lumbar lordosis (LL), pelvic incidence (PI), sacral slope (SS), pelvic tilt (PT), T1-spinopelvic inclination (T1-SPI), and T9-spinopelvic inclination (T9-SPI) were measured. After patients were organized into two subgroups based on TLJS, all parameters were compared between the two groups. Correlation analysis and multiple linear regression analysis were performed between the radiologic measurements and TLJS in all patients.Results: There was a significant difference between the non-kyphotic group and kyphotic group in mean Nash-Moe grade, TK, T9-SPI, PI, and SS. Correlation analysis showed that LL, PI, and SS were inversely associated with TLJS. TK, T9-SPI, and Nash-Moe grade were positively related to TLJS. The multiple linear regression analysis showed that TLJS could be predicted by the equation TLJS = −2.322 + 5.585 × Nash-Moe grade + 0.687 × T9-SPI – 0.208 × PI, with an adjusted R2 of 0.410.Conclusion: TLJS was positively correlated with greater AVR in the coronal plane, greater T9-SPI in the sagittal plane and inversely associated with PI among patients with thoracolumbar/lumbar scoliosis. Spine surgeons should pay more attention to the degree of AVR, T9-SPI, and PI when dealing with thoracolumbar/lumbar scoliosis with thoracolumbar junction kyphosis.

Published

2020

38. Posterolateral Instrumented Fusion in Elderly Patients With a Single Osteoporotic Vertebral Fracture: Evaluation of Health-Related Quality of Life.

Author

Kapetanakis S, Gkantsinikoudis N, Apostolakis S, Tsioulas P, and Chaniotakis C

Abstract

Introduction Treatment of osteoporotic vertebral fractures (OVFs) is a factor that affects the quality of life and should be considered during management. In patients with a single OVF and neurologic deficit, surgical procedures aiming at neural decompression with instrumented fusion should be considered in elderly individuals. Posterolateral instrumented fusion (PLF) constitutes a largely performed fusion surgery for patients featuring indications for fusion surgery. The aim of this study was to determine the safety, effectiveness, and impact on health-related quality of life (HRQoL) of PLF surgery in elderly patients diagnosed with a single OVF. Methods This study was conducted at Interbalkan European Medical Center, Thessaloniki, Greece. Eighty (80) consecutive individuals with OVFs were subjected to PLF and recruited in this prospectively designed non-randomized study. Clinical evaluation was performed preoperatively and postoperatively at particular chronic intervals at one, three, six, and 12 months and two years. The assessment was conducted via the standardized Visual Analogue Scale (VAS) and Short-Form 36 (SF-36) Medical Health Survey Questionnaire for pain and HRQoL, respectively. Results No major perioperative complications were observed. All parameters of SF-36 presented significant improvement over the entire follow-up period with VAS scores reaching a plateau at six months. Depicted improvement of these parameters proves the beneficial role of PLF in elderly patients who suffered from a single OVF with or without referable neurological deficit. Conclusion OVFs have a significant impact on the quality of life of elderly patients, and surgical treatment with PLF with or without decompression can lead to functional recovery, pain relief, and HRQoL amelioration. Our results demonstrated that the outcomes of PLF in the surgical treatment of these patients are remarkably favorable, demonstrating the safety and efficacy of the technique., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Kapetanakis et al.)

Published

2024

39. Is T9-11 the true thoracolumbar transition zone?

Author

Murphy, J., McLoughlin, E., Davies, A.M., James, S.L., and Botchu, R.

Abstract

Degenerative thoracic stenosis has been shown to most frequently involve the lower thoracic segments (T9-T12) where there is greater mobility and vulnerability due to flexion, extension and rotation of the spine. The thoracolumbar junction is considered anatomically to be T12-L1; the anatomical transition between the relatively immobile thoracic spine and relatively mobile lumbar spine. From anecdotal experience at our institution, we hypothesise that the true thoracolumbar junction is higher, at T10-11; the point of transition from floating to false ribs resulting in increased mobility at T10-11. A retrospective review was performed of MRI lumbar and whole spine performed on patients aged 10–40 years in our institution over a 5-year period. Patients with previous surgery, chronic spinal disorders and congenital abnormalities were excluded from the study. Intervertebral discs from T8-9 to L1-2 were assessed for evidence of degeneration using the Pfirrmann grading system. Data obtained from a study using computer-based models to assess mean resultant loads in flexion, sitting and standing from T8-9 to L1-2 on patients aged 18–35 years was also analysed. The mean load gradients between two consecutive discs from T8 to L2 were analysed. Statistical analysis was performed with SPSS (p < 0.05 was considered statistically significant). Three-hundred and twenty-two MRI studies were reviewed. Mean Pfirrmann grade was highest at T8-9 and T9-10 (1.35 ± 0.99 and 1.32 ± 0.93 respectively).Pfirrmann grade differed significantly at each level (χ2 = 45.137 p = 0.001). Difference in mean load gradient from T9 to T11 was significantly higher than mean load gradient across T11 to L1 in both sitting and standing (0.095 ± 0.062 vs 0.050 ± 0.044 kN; p = 0.007, and 0.101 ± 0.061 kN vs 0.040 ± 0.054 kN; p = 0.007). The changes in segmental loads and more severe disc degeneration at T9-11 compared to T11-L1 support our hypothesis that the true thoracolumbar transition is higher than expected, at T10-11; where the rib cage transitions from floating to false ribs. [ABSTRACT FROM AUTHOR]

Published

2020

40. Should Thoracolumbar Junction Be Always Avoided as Upper Instrumented Vertebra in Long Instrumented Fusion for Adult Spinal Deformity?: Risk Factor Analysis for Proximal Junctional Failure.

Author

Se-Jun Park, Chong-Suh Lee, Jin-Sung Park, Kyung-Jun Lee, Park, Se-Jun, Lee, Chong-Suh, Park, Jin-Sung, and Lee, Kyung-Jun

Subjects

*FACTOR analysis, *RISK assessment, *SPINAL fusion, *VERTEBRAE, *SPINAL surgery, *HUMAN abnormalities, *DUAL-energy X-ray absorptiometry, *ATRIAL septal defects, *LUMBAR vertebrae surgery, *AGE distribution, *RETROSPECTIVE studies, *TREATMENT failure, *SCOLIOSIS, *LUMBAR vertebrae, *THORACIC vertebrae, *LONGITUDINAL method

Abstract

Study Design: Retrospective study.Objective: The aim of this study was to investigate the risk factors for proximal junctional failure (PJF) following long instrumented fusion stopping at thoracolumbar junction (TLJ) in adult spinal deformity (ASD) and to determine which cases are suitable for TLJ stop without increasing the risk for PJF.Summary Of Background Data: PJF following long fusion for ASD is a well-recognized complication that negatively affects clinical outcomes. Generally, the uppermost instrumented vertebra (UIV) at the TLJ is associated with the risk of PJF. Little is known about the risk factors for PJF in case with the UIV at TLJ.Methods: Radiographic and clinical data of 63 consecutive patients who underwent instrumented fusion from sacrum to TLJ (T11, T12, and L1) for the treatment of ASD with a minimum 2-year follow-up were analyzed to identify the risk factors for PJF, which was defined as proximal junctional angle (PJA) ≥20°, fracture at UIV or UIV+1, failure of UIV fixation, myelopathy, or 'need for proximal extension of fusion.Results: During the average follow-up duration of 51.7 months, PJF developed in 23 patients (36.5%) at a mean of 9.3 months after surgery. Multivariate analysis revealed that age >70 years (odds ratio [OR]: 1.119), osteoporosis (OR: 4.459), and preoperative kyphotic PJA (OR: 1.138) were significant risk factors for the development of PJF. No PJF occurred in 14 patients lacking any risk factors. The last follow-up clinical results were significantly inferior in the PJF group than in the non-PJF group in terms of Oswestry Disability Index and Scoliosis Research Society-22 score.Conclusion: Age >70 years, osteoporosis, and PJA greater 0° were identified as significant risk factors for PJF. Therefore, the TLJ level can be considered as UIV selectively for patients younger than 70 years without osteoporosis and with lordotic preoperative PJA.Level Of Evidence: 3. [ABSTRACT FROM AUTHOR]

Published

2020

41. Tethered cord syndrome and transitional vertebrae.

Author

Apaydin, Melda

Subjects

*VERTEBRAE, *SPINE, *SPINAL cord, *LUMBOSACRAL region, *HUMAN abnormalities

Abstract

Purpose: Tethered cord syndrome (TCS) usually presents with low-lying conus medullaris and thickened filum terminale. Spinal cord anomalies usually accompany congenital malformations and variations of the vertebral column. Transitional vertebrae (TV) are common variant, especially in the lumbosacral region. Accurate definition of the spine level is essential for proper radiological diagnosis and treatment. In this study, congenital spinal cord and vertebral anomalies and the relation with TV groups and types were evaluated in TCS patients. Methods: The study was performed in 97 patients. Radiological imaging findings [computed tomography (CT), magnetic resonance imaging (MRI), and radiography] and medical records were evaluated. Spine bony malformation, spinal cord malformation, and spinal level of malformation were compared with TV and non-TV groups in TCS patients. In addition, TV groups and types were compared with each other for these anomalies. Results: There was no statistically significant difference between TV and non-TV group in terms of the presence of vertebral bone and spinal cord anomalies. There were some significant differences in some of the spine bone and spinal cord anomalies among the groups and types of TV. Conclusion: Sixty-two point nine percent TCS patients had TV. Although these findings indicate that TV is common in patients with TCS, no significant difference is observed in most of the studied anomalies. However, there were some differences among the TV groups and TV types in relation to congenital malformations. It can be concluded that TV anomaly could be a distinct malformation apart from all the other anomalies that were studied. Transitional vertebrae may cause pain due to biomechanical changes in addition to progressive neurological symptoms which are usually seen with TCS. [ABSTRACT FROM AUTHOR]

Published

2020

42. Clinical and Demographic Characteristics of Patients Who Were Treated with Kyphoplasty Due to Osteoporotic Fracture

Author

Atilla Yılmaz, Mustafa Turgut Yıldızgören, Şükrü Oral, and Yurdal Serarslan

Subjects

Kyphoplasty, osteoporotic fracture, thoracolumbar junction, Medicine, Other systems of medicine, RZ201-999

Abstract

Objective: The aim of this study is to determine the demographic and clinical characteristics of patients who underwent kyphoplasty due to osteoporotic fractures. Materials and Methods: This retrospective study included 55 patients who underwent kyphoplasty due to osteoporotic fracture between the years 2011 and 2014. The patients divided into two groups according to their ages (under/over 65 years), and divided into three groups according to fracture regions (T10 and above; between T11-L1; L2 and under). Thus the age and gender distributions of the patients were made. Resting pain scores of all patients were determined by using visual analog scale (VAS) and daily life activities by Oswetry Disability Index (ODI) before and in the first month of treatment. Results: Seventeen of the all patients were male (30.9%) and 38 were female (69.1%), with a mean age of 69.9±8.7 years (between 50-88 ages). 90% of the patients older than 65 years had fracture in T11 and below. In 45.5% of all patients, the fracture was in the T11-L1 (thoracolomber junction) region. Resting VAS and ODI scores significantly improved from 8.7±1.5 to 2.1±1.2 and 44.7±7.2 to 15.4±3.5 respectively in the first month after kyphoplasty (p

Published

2017

43. The biomechanical state of the thoracolumbar junction with various options of transpedicular fixation under flexion load

Subjects

finite element model, дворівнева корпоректомія, бікортикальна транспедикулярна стабілізація, грудо-поперековий перехід, грудо-поясничный переход, бикортикальная транспедикулярная стабилизация, флексионная нагрузка, флексійне навантаження, thoracolumbar junction, two-level corpectomy, конечно-элементная модель, двухуровневая корпорэктомия, crosslink, поперечна стяжка, поперечная стяжка, flexion load, скінченно-елементна модель, bicortical transpedicular stabilization

Abstract

Introduction. Morphological and biomechanical features of the thoracolumbar junction determine the large number of cases of traumatic bone injuries. Reconstructive and stabilizing surgeries performed in this area, due to the significant load on both the elements of hardware and bony structures, require high reliability of fixation. Objective. To study the stress-strain state of the model of the thoracolumbar section of the spine after the Th12-L1 vertebrae resection with various options of transpedicular fixation under the influence of flexion load. Materials and methods. The stress-strain state of the mathematical finite-element model of the thoracolumbar section of the human spine under the influence of flexion load was studied. The model simulated the condition after surgery for a significant traumatic lesion of the thoracolumbar junction with laminectomy, facetectomy, and corpectomy of the Th12 and L1 vertebrae. Four variants of transpedicular fixation were studied (using short or long bicortical fixation screws, two crosslinks and without them). Control points of the model characterizing the load distribution both in bony structures and on metal elements of fusion and body replacement systems were studied. Results. Crosslinks have the greatest effect on reducing the level of stress both in the bony elements of the models and in the metal elements. When comparing the length of the screws, the use of monocortical screws was determined to have minor biomechanical advantages. The stress analysis of the area of the screw entry into the pedicle of the arch of the fixed vertebrae (clinically significant zone) revealed that in the model with short screws and without crosslinks, the stress for the vertebrae Th10, Th11, L2 and L3 is 5.0, 1.9, 7.8 and 13.6 MPa, respectively, while the presence of crosslinks reduces the corresponding values to 4.6, 1.9, 7.3 and 12.7 MPa. In models with bicortical screws, the corresponding values are 5.1, 2.3, 10.2, and 12.7 MPa in the absence of crosslinks and 4.7, 1.8, 9.9, and 12.2 MPa with the presence. A similar trend is observed in other control points. When comparing the results with the compression load in the models studied earlier, it was established that flexion causes an increase in the stress of the models with monocortical screws by an average of 33.7%, with bicortical screws by 39.6%. Conclusions. In case of flexion load, the use of crosslinks makes it possible to reduce the level of stress in all control points of the models, regardless of the length of the used transpedicular screws, while the length of the screws does not have a fundamental effect on the stress distribution., Морфологические и биомеханические особенности зоны грудо-поясничного перехода объясняют большое количество случаев костно-травматических изменений в ней. Реконструктивно-стабилизирующие хирургические вмешательства, выполняемые в этой зоне, из-за значительной нагрузки как на элементы металлоконструкций, так и на костные структуры, требуют высокой надежности фиксации. Цель: Изучить напряженно деформированное состояние модели участка грудо-поясничного отдела позвоночника после резекции позвонков Тh12-L1 при различных вариантах транспедикулярной фиксации под влиянием флексионной нагрузки. Материалы и методы. Исследовано напряженно-деформированное состояние математической конечно-элементной модели участка грудо-поясничного отдела позвоночника человека под влиянием изгибающей нагрузки. Модель имитировала состояние после хирургического вмешательства по поводу значительного травматического поражения участка грудо-поясничного перехода с ламинэктомией, фасетэктомией и корпектомией позвонков Th12 и L1. Изучали 4 варианта транспедикулярной фиксации (с использованием коротких или длинных бикортикальных фиксирующих винтов, двух поперечных стяжек и без них). Исследовали контрольные точки модели, характеризующие распределение нагрузки как в костных структурах, так и на металлических элементах стабилизирующей и телосменной систем. Результаты. Более всего на понижение уровня напряжения как в костных элементах моделей, так и в элементах конструкции, влияют поперечные стяжки. При сравнении длины винтов установлено, что использование монокортикальных винтов имеет незначительные биомеханические преимущества. Анализ напряжения участка входа винта в ножку дуги фиксированных позвонков (клинически значимой зоны) обнаружил, что у модели с короткими винтами без поперечных стяжек напряжения для позвонков Тh10, Тh11, L2 и L3 составляет 5,0, 1,9, 7,8 и 13,6 МПа соответственно, в то время как наличие поперечных стяжек снижает соответствующие показатели до 4,6, 1,9, 7,3 и 12,7 МПа. В моделях с бикортикальными винтами соответствующие показатели составляют 5,1, 2,3, 10,2 и 12,7 МПа при отсутствии стяжек и 4,7, 1,8, 9,9 и 12,2 МПа при наличии стяжек. Подобная тенденция наблюдается и в других контрольных точках. При сравнении результатов с компрессионной нагрузкой в моделях, исследованных ранее, выявлено, что флексия приводит к увеличению напряжения в моделях с монокортикальными винтами в среднем на 33,7%, с бикортикальными винтами – на 39,6%. Выводы. При флексионной нагрузке использование поперечных стяжек позволяет снизить уровень напряжения во всех контрольных точках моделей, независимо от длины использованных фиксирующих винтов, при этом длина винтов не влияет на распределение напряжения., Морфологічні та біомеханічні особливості зони грудо-поперекового переходу пояснюють велику кількість випадків кістково-травматичних змін у ній. Реконструктивно-стабілізувальні хірургічні втручання, які виконують у цій зоні, через значне навантаження як на елементи металоконструкцій, так і на кісткові структури, потребують високої надійності фіксації. Мета: Вивчити напружено-деформований стан моделі ділянки грудо-поперекового відділу хребта після резекції хребців Тh12-L1 за різних варіантів транспедикулярної фіксації під впливом флексійного навантаження. Матеріали і методи. Досліджено напружено-деформований стан математичної скінченно-елементної моделі ділянки грудо-поперекового відділу хребта людини під впливом згинального навантаження. Модель імітувала стан після хірургічного втручання з приводу значного травматичного ураження ділянки грудо-поперекового переходу із ламінектомією, фасетектомією та корпектомією хребців Th12 і L1. Вивчали 4 варіанти транспедикулярної фіксації (з використанням коротких або довгих бікортикальних фіксувальних гвинтів, двох поперечних стяжок та без них). Досліджували контрольні точки моделі, що характеризують розподіл навантаження як у кісткових структурах, так і на металевих елементах стабілізувальної та тілозамінної систем. Результати. Найбільше на зниження рівня напруження як у кісткових елементах моделей, так і в елементах конструкції, впливають поперечні стяжки. При порівнянні довжини гвинтів установлено, що використання монокортикальних гвинтів має незначні біомеханічні переваги. Аналіз напруження ділянки входу гвинта в ніжку дуги фіксованих хребців (клінічно значущої зони) виявив, що у моделі із короткими гвинтами без поперечних стяжок напруження для хребців Тh10, Тh11, L2 і L3 становить 5,0, 1,9, 7,8 та 13,6 МПа відповідно, тоді як наявність поперечних стяжок знижує відповідні показники до 4,6, 1,9, 7,3 і 12,7 МПа. У моделях із бікортикальними гвинтами відповідні показники становлять 5,1, 2,3, 10,2 та 12,7 МПа за відсутності стяжок і 4,7, 1,8, 9,9 та 12,2 МПа за наявності стяжок. Схожа тенденція спостерігається і в інших контрольних точках. При порівнянні результатів із компресійним навантаженням у моделях, досліджених раніше, виявлено, що флексія спричиняє збільшення напруження у моделях із монокортикальними гвинтами в середньому на 33,7%, з бікортикальними гвинтами ‒ на 39,6%. Висновки. При флексійному навантаженні використання поперечних стяжок дає змогу знизити рівень напруження в усіх контрольних точках моделей незалежно від довжини використаних фіксувальних гвинтів, при цьому довжина гвинтів не впливає на розподіл напруження.

Published

2023

44. MATHEMATICAL MODELING OF VARIANTS OF TRANSPEDICULAR FIXATION AT THE THORACOLUMBAR JUNCTION AFTER ТHХІІ VERTEBRECTOMY DURING TRUNK BACKWARD BENDING

Author

Nekhlopochyn, Oleksii, Verbov, Vadim, Cheshuk, Ievgen, Karpinsky, Mykhailo, and Yaresko, Olexander

Subjects

грудопоперековий перехід, Скінченно-елементна модель, thoracolumbar junction, cross-link, бікортикальна транспедикулярна стабілізація, екстензія, extension, корпоректомія, corpectomy, поперечна стяжка, Finite element model, bicortical transpedicular stabilization

Abstract

Fractures at the thoracolumbar junction are the most common traumatic spinal injuries. Advances in instrumentation for vertebral body replacement have significantly improved surgical techniques.However, the biomechanical characteristics of stabilizing surgeries have been insufficiently studied. Objective. To investigate the stressstrain state (SSS) of a mathematical finite element model of the humanthoracolumbar spine during trunk backward bending after ТhХІІ vertebra resection, considering different transpedicular fixation options. Methods. A mathematical finite element model of the humanthoracolumbar spine — ThIX‒LV vertebrae — was developed. The ТhХІІ vertebra was removed, and an interbody support and transpedicularsystem with 8 screws were implanted to simulate the postsurgical state after a ТhХІІ burst fracture with wide laminectomy, facetectomy, and corpectomy. The influence of transpedicular screw length and the presence of cross-links on the SSS of the model wasexamined. Results. The use of bicortical screws reduced stress levels in the bone elements of the model, except in the regions around the screws in the lumbar vertebrae, when compared to short screws.Installing cross-links decreased stress levels at all control points compared to models without cross-links. Specifically, in the presence of cross-links, the SSS values at the entry points of the short screwsinto the vertebral bodies of ThX, ThXI, LI, and LII were 2.3, 1.8, 1.2, and 5.0MPa, respectively, compared to 2.7, 2.0, 1.5, and 6.1 MPa in the models without cross-links. In the case of bicortical screwswithout cross-links, the stress values at the screw entry points into the pedicles of the corresponding vertebrae were 2.9, 1.5, 8.2, and 11.2 MPa, respectively, compared to 2.7, 1.5, 7.5, and 10.2 MPa in the models with cross-links. Conclusions. When the trunk is tilted backward, the use of cross-links reduces stress levels at all control points in the models, regardless of the screw length used. Bicortical transpedicular screws increase stress levels on the screws themselves and in the lumbar vertebral bodies surrounding them., Переломи ділянки грудопоперекового переходу є найчастішими травматичними ураженнями хребта. Удосконалення систем стабілізації та конструкцій для заміни тіл хребців значнопокращило техніку хірургічних утручань. Але особливості біомеханіки варіантів стабілізувальних операцій вивчені недостатньо. Мета. Вивчити напружено-деформований стан(НДС) моделі грудопоперекового відділу хребта під час нахилу тулуба назад після резекції хребця ТhХІІ за різних варіантів транспедикулярної фіксації. Методи. Розроблено математичнускінченно-елементну модель грудопоперекового відділу хребта людини — хребці ТhІХ‒LV. Хребець ТhХІІ видалено і встановлено міжтілову опору та траспедикулярну систему із 8 гвинтів.Тобто, імітовано стан після хірургічного втручання з приводу вибухового перелому ТhХІІ із широкою ламінектомією, фасетектомією та корпектомією. Досліджували вплив на НДС моделі довжини транспедикулярних гвинтів і поперечних стяжок.Результати. Застосування бікортикальних гвинтів дозволило знизити рівень напружень у кісткових елементах моделі порівняно з короткими, за винятком зон навколо гвинтів у хребцяхпоперекового відділу. Установлення поперечних стяжок, порівняно з моделями без них, зменшило рівень напружень на всіх контрольних точках. Зокрема, за наявності стяжок показникиНДС на рівні входу короткого гвинта в тіла хребців ТhХ, ТhХІ, LІ та LІІ становили 2,3; 1,8; 1,2; 5,0 МПа відповідно проти 2,7; 2,0; 1,5; 6,1 МПа в моделі без стяжок. У разі введення бікортикальних гвинтів без стяжок у ділянках входу гвинта в ніжкудуги відповідних хребців напруження дорівнювали 2,9; 1,5; 8,2; 11,2 МПа проти 2,7; 1,5; 7,5; 10,2 МПа в моделі зі стяжками. Висновки. За умов нахилу тулуба назад використання поперечних стяжок дозволяє знизити рівень напружень у всіх контрольних точках моделей незалежно від довжини використанихгвинтів. Застосування бікортикальних транспедикулярних гвинтів призводить до підвищення рівня напружень на них танавколо в тілах хребців поперекового відділу хребта.

Published

2023

45. Minimally invasive thoracoscopic approach to thoracolumbar junction fractures

Author

Jan Kocis, Martin Kelbl, Peter Wendsche, and Radek Vesely

Subjects

thoracolumbar junction, minimally invasive approach, transdiaphragmatic approach, thoracoscopy, Medicine

Abstract

Aims: A retrospective analysis of patients with thoracolumbar junction fractures who underwent video-assisted thoracoscopic surgery via a minimally invasive approach (minithoracotomy) for reconstruction of the anterior spinal column. Methods: Between 2002 and 2014, a total of 176 patients were treated by this technique. The patients received either posterior stabilization and, at the second stage, the minimally invasive technique via an anterior approach, or the minimally invasive anterior procedure alone. Results: In the anterior procedure, the average operative time was 90 min. (50 to 130 min). Bony fusion without complications was achieved in all patients within a year of surgery. The loss of correction after the anterior procedure with an allograft or titanium cage was up to 2 degrees at two years follow-up. Conclusion: The minimally invasive approach (minithoracotomy up to 6-7 cm) combined with thoracoscopy is an alternative to an exclusively endoscopic technique enabling us to provide safe surgical treatment of the anterior spinal column.

Published

2016

46. Complex Compression Fracture in the Thoracolumbar Junction: A Case Report.

Author

Ivanov K, Kalnev M, Petrov PP, Bashev S, and Penchev P

Abstract

Compression fractures in the thoracolumbar junction are one of the most frequent types of spine injuries. They can be the result of trauma or underlying conditions of the vertebrae. We present a case report of a 68-year-old patient with pain and loss of mobility in the lumbar spine after sustaining a trauma via falling from a significant height. Lumbar spondylography and a following CT scan revealed a complex compression fracture of L1 with degenerative osteoporotic changes of lumbar vertebrae and several pathologies of the lumbosacral junction. A surgical intervention was performed in the form of posterior transpedicular vertebral stabilization with titanium rods and screws. Postoperatively, relief from the lumbar region pain was reported. No neurological deficit was observed. The patient was mobilized, rehabilitated, and discharged from the hospital. This case report emphasizes the use of reliable imaging methods for the diagnosis of thoracolumbar compression fracture and highlights the reliability of surgical treatment of the condition via posterior transpedicular vertebral stabilization., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2023, Ivanov et al.)

Published

2023

47. Эффективность ревизионного хирургического вмешательства в отдаленный период травматического повреждения грудопоясничного перехода

Subjects

thoracolumbar junction, отдаленный период травмы, травматические повреждения позвоночника, ревизионная хирургия, chronic spinal cord injury, грудопоперековий перехід, ревізійна хірургія, травматичні ушкодження хребта, revision surgery, грудопоясничный переход, traumatic injuries of the spine, віддалений період травми

Abstract

Traumatic injuries of the spine constitute a relatively small part of the consequences of the traumatic factor action on the human body but they significantly affect the social and economic component of the injured patients’ life. During the Russian-Ukrainian war, the number of patients with traumatic injuries to the spine and spinal cord increased significantly. The analysis of previous armed conflicts shows that most spinal injuries in both military and civilians are closed. Therefore, the treatment strategy correspond to those in peacetime. One of the least studied issues is the feasibility of surgical decompression of the spinal canal in the late period of spinal cord injury.An anamnestically complex case of traumatic injury of the thoracolumbar junction is presented. A patient with a combined injury underwent laminectomy of the Th12 vertebra and transpedicular fixation of the Th11, Th12, L1 and L2 vertebrae after fracture-dislocation of the Th12-L1, that was accompanied by gross neurological symptoms of ASIA A. Surgery was performed 11 days after the emergency hospitalization. 6 months after trauma it was revealed the screws malposition in the bodies of the Th12 and L1 vertebrae. After 10 months, a surgery was performed: removal of the left transpedicular screw from the body of the Th12 vertebra, laminectomy of the Th12, L1 and L2 vertebrae, an electronic neurostimulator was installed on the spinal cord, and 12 months after the injury, the transpedicular stabilization system was rearranged and the electrodes of neurostimulator were removed. Within 3 years and 7 months, after the appearance of acute pains in the area of the kidneys, an additional examination was performed. Fragmentation of the left rod of fusion system between the L1 and L2 vertebrae was revealed, as well as the presence of ossified fragments of the intervertebral disc at the Th12-L1 level, which caused absolute stenosis of the spinal canal. In Romodanov Neurosurgery Institute of National Academy of Medical Sciences of Ukraine, revision surgery was performed: adequate repositioning of the stabilization system and extensive decompression of the spinal canal with facetectomy and complete decompression of the dural sac. During the follow-up examination after 4 months, regression of the neurological deficit from ASIA A to ASIA B was recorded.In the article classic errors during surgery of traumatic injuries of the thoracolumbar junction and the expediency of performing decompressive-revision surgical interventions in the late period of spinal cord injury were analyzed. An anamnestically complex case of traumatic injury of the thoracolumbar junction is presented. A patient with a combined injury underwent laminectomy of the Th12 vertebra and transpedicular fixation of the Th11, Th12, L1 and L2 vertebrae after fracture-dislocation of the Th12-L1, that was accompanied by gross neurological symptoms of ASIA A. Surgery was performed 11 days after the emergency hospitalization. 6 months after trauma it was revealed an unsatisfactory location of the screws in the bodies of the Th12 and L1 vertebrae. After 10 months, a surgery was performed: removal of the left transpedicular screw from the body of the Th12 vertebra, laminectomy of the Th12, L1 and L2 vertebrae, an electronic neurostimulator was installed on the spinal cord, and 12 months after the injury, the transpedicular stabilization system was rearranged and the electrodes of neurostimulator were removed. Within 3 years and 7 months, after the appearance of acute pains in the area of the kidneys, an additional examination was performed. Fragmentation of the left rod of fusion system between the L1 and L2 vertebrae was revealed, as well as the presence of ossified fragments of the intervertebral disc at the Th12-L1 level, which caused absolute stenosis of the spinal canal. In the Romodanov Neurosurgery Institute of National Academy of Medical Sciences of Ukraine, revision surgery was performed: adequate repositioning of the stabilization system and extensive decompression of the spinal canal with facetectomy and complete decompression of the dural sac. During the follow-up examination after 4 months, regression of the neurological deficit from ASIA A to ASIA B was recorded. In the article we analyze classic errors during surgery of traumatic injuries of the thoracolumbar junction and the expediency of performing decompressive-revision surgical interventions in the late period of spinal cord injury., Хотя травматические повреждения позвоночника составляют относительно небольшую часть последствий воздействия травмирующего фактора на организм человека, они в значительной степени влияют на социальную и экономическую составляющую жизни пострадавших. Во время российско-украинской войны значительно увеличилось количество пострадавших с травматическим повреждением позвоночника и спинного мозга. Вопреки сложившемуся мнению, анализ предшествующих вооруженных конфликтов свидетельствует о том, что большинство травм позвоночника как у военнослужащих, так и у гражданского населения, закрытые. Поэтому тактика их лечения соответствует таковой в мирное время. Одним из наименее изученных является вопрос о целесообразности выполнения хирургической декомпрессии позвоночного канала в поздний и отдаленный период позвоночно-спинномозговой травмы. Приведен анамнестически сложный случай травматического повреждения грудопоясничного перехода. Пациенту с сочетанной травмой через 11 суток после ургентной госпитализации проведена ламинэктомия позвонка Th12 и транспедикулярная стабилизация позвонков Th11, Th12, L1 и L2 в связи с переломо-вывихом позвонков Th12 и L1, сопровождавшимся грубой неврологической симптоматикой ASIA А. Через 6 мес после травмы выявлено неудовлетворительное расположение винтов в телах позвонков Th12 и L1. Через 10 мес проведено хирургическое вмешательство: удаление левого транспедикулярного винта из тела позвонка Th12, ламинэктомию позвонков Th12, L1 и L2, установлен электронейростимулятор на спинной мозг. Через 12 мес после травмы выполнена перестановка транспедикулярной системы стабилизации и удалены электроды электронейростимулятора. Через 3 года 7 мес в связи с появлением резких болей в области почек проведено дополнительное обследование. Выявлена фрагментация левой балки системы стабилизации между позвонками L1 и L2, а также наличие осифицированных фрагментов межпозвонкового диска на уровне Th12-L1, что стало причиной абсолютного стеноза позвоночного канала. В Институте нейрохирургии имени А.П. Ромоданова НАМН Украины выполнено ревизионное хирургическое вмешательство: адекватная перестановка системы стабилизации и широкая декомпрессия позвоночного канала с фасетэктомией и полной декомпрессией дурального мешка. При контрольном осмотре через 4 мес зафиксирован регресс неврологического дефицита от ASIA A до ASIA B. Рассмотрены классические ошибки при оказании помощи пострадавшим с травматическими повреждениями грудопоясничного перехода и целесообразность выполнения декомпрессивно-ревизионных хирургических вмешательств в отдаленный период позвоночно-спинномозговой травмы., Хоча травматичні ушкодження хребта становлять відносно невелику частину наслідків дії травмувального чинника на організм людини, вони значною мірою впливають на соціальну та економічну складову життя постраждалих. Під час російсько-української війни значно збільшилася кількість постраждалих із травматичним ушкодженням хребта та спинного мозку. Всупереч думці, що склалася, аналіз попередніх збройних конфліктів свідчить про те, що більшість травм хребта як у військовослужбовців, так і у цивільного населення, є закритими. Тому тактика їхнього лікування відповідає такій у мирний час. Одним із найменш вивчених є питання про доцільність виконання хірургічної декомпресії хребтового каналу в пізній та віддалений період хребетно-спинномозкової травми.Наведено анамнестично складний випадок травматичного ушкодження грудопоперекового переходу. Пацієнту з поєднаною травмою через 11 діб після ургентної госпіталізації проведено ламінектомію хребця Th12 і транспедикулярну стабілізацію хребців Th11, Th12, L1 та L2 у зв’язку з переломо-вивихом хребців Th12 та L1, що супроводжувався грубою неврологічною симптоматикою ASIA А. Через 6 міс після травми виявлено незадовільне розташування гвинтів у тілах хребців Th12 та L1. Через 10 міс проведено хірургічне втручання: видалення лівого транспедикулярного гвинта з тіла хребця Th12, ламінектомію хребців Th12, L1 та L2, установлено електронейростимулятор на спинний мозок. Через 12 міс після травми виконано перестановку транспедикулярної системи стабілізації та видалено електроди електронейростимулятора. Через 3 роки 7 міс у зв’язку з появою різких болів у ділянці нирок проведено додаткове обстеження. Виявлено фрагментацію лівої балки системи стабілізації між хребцями L1 та L2, а також наявність осифікованих фрагментів міжхребцевого диска на рівні Th12-L1, що спричинило абсолютний стеноз хребтового каналу. В Інституті нейрохірургії ім. А.П. Ромоданова НАМН України виконано ревізійне хірургічне втручання: адекватну перестановку системи стабілізації та широку декомпресію хребтового каналу з фасетектомією і повною декомпресією дурального мішка. Під час контрольного огляду через 4 міс зафіксовано регрес неврологічного дефіциту від ASIA A до ASIA B.Розглянуто класичні помилки під час надання допомоги постраждалим із травматичними ушкодженнями грудопоперекового переходу та доцільність виконання декомпресивно-ревізійних хірургічних втручань у віддалений період хребетно-спинномозкової травми. Наведено анамнестично складний випадок травматичного ушкодження грудопоперекового переходу. Пацієнту з поєднаною травмою через 11 діб після ургентної госпіталізації проведено ламінектомію хребця Th12 і транспедикулярну стабілізацію хребців Th11, Th12, L1 та L2 у зв'язку з переломо-вивихом хребців Th12-L1, що супроводжувався грубою неврологічною симптоматикою ASIA А. Через 6 міс після травми виявлено незадовільне розташування гвинтів у тілах хребців Th12 та L1. Через 10 міс проведено хірургічне втручання: видалення лівого транспедикулярного гвинта з тіла хребця Th12, ламінектомію хребців Th12, L1 та L2, установлено електронейростимулятор на спинний мозок, через 12 міс після травми виконано перестановку транспедикулярної системи стабілізації та видалення електродів електронейростимулятора. Через 3 роки 7 міс у зв'язку з появою різких болів у ділянці нирок проведено додаткове обстеження. Виявлено фрагментацію лівої балки системи стабілізації між хребцями L1 та L2, а також наявність осифікованих фрагментів міжхребцевого диска на рівні Th12-L1, що спричинило абсолютний стеноз хребтового каналу. В Інституті нейрохірургії імені А.П. Ромоданова НАМН України виконано ревізійне хірургічне втручання: адекватну перестановку системи стабілізації та широку декомпресію хребтового каналу з фасетектомією і повною декомпресією дурального мішка. Під час контрольного огляду через 4 міс зафіксовано регрес неврологічного дефіциту від ASIA A до ASIA B. Розглянуто класичні помилки під час надання допомоги постраждалим із травматичними ушкодженнями грудопоперекового переходу та доцільність виконання декомпресивно-ревізійних хірургічних втручань у віддалений період хребетно-спинномозкової травми.

Published

2023

48. Spine

Author

Schultheiss, Markus, Gulkin, Daniel, Gebhard, Florian, Arnold, Wolfgang, Series editor, Ganzer, Uwe, Series editor, Oestern, Hans-Jörg, editor, Trentz, Otmar, editor, and Uranues, Selman, editor

Published

2014

49. MIS Thoracic Interbody Surgery

Author

Scheufler, Kai-Michael, Wang, Michael Y., editor, Lu, Yi, editor, Anderson, D. Greg, editor, and Mummaneni, Praveen V., editor

Published

2014

50. Pediatric Kyphosis

Author

Kramarz, Michael J., Hwang, Steven W., Samdani, Amer F., Storm, Phillip B., Patel, Vikas V., editor, Patel, Alpesh, editor, Harrop, James S., editor, and Burger, Evalina, editor

Published

2014