3D U-Net Neural Network Architecture-Assisted LDCT to Acquire Vertebral Morphology Parameters: A Vertebral Morphology Comprehensive Analysis in a Chinese Population.

To evaluate the feasibility of acquiring vertebral height from chest low-dose computed tomography (LDCT) images using an artificial intelligence (AI) system based on 3D U-Net vertebral segmentation technology and the correlation and features of vertebral morphology with sex and age of the Chinese population. Patients who underwent chest LDCT between September 2020 and April 2023 were enrolled. The Altman and Pearson's correlation analyses were used to compare the correlation and consistency between the AI software and manual measurement of vertebral height. The anterior height (Ha), middle height (Hm), posterior height (Hp), and vertebral height ratios (VHRs) (Ha/Hp and Hm/Hp) were measured from T1 to L2 using an AI system. The VHR is the ratio of Ha to Hp or the ratio of Hm to Hp of the vertebrae, which can reflect the shape of the anterior wedge and biconcave vertebrae. Changes in these parameters, particularly the VHR, were analysed at different vertebral levels in different age and sex groups. The results of the AI methods were highly consistent and correlated with manual measurements. The Pearson's correlation coefficients were 0.855, 0.919, and 0.846, respectively. The trend of VHRs showed troughs at T7 and T11 and a peak at T9; however, Hm/Hp showed slight fluctuations. Regarding the VHR, significant sex differences were found at L1 and L2 in all age bands. This innovative study focuses on vertebral morphology for opportunistic analysis in the mainland Chinese population and the distribution tendency of vertebral morphology with ageing using a chest LDCT aided by an AI system based on 3D U-Net vertebral segmentation technology. The AI system demonstrates the potential to automatically perform opportunistic vertebral morphology analyses using LDCT scans obtained during lung cancer screening. We advocate the use of age-, sex-, and vertebral level-specific criteria for the morphometric evaluation of vertebral osteoporotic fractures for a more accurate diagnosis of vertebral fractures and spinal pathologies.

Risk Factors for Residual Back Pain After Balloon Kyphoplasty for Osteoporotic Vertebral Fracture.

Background: Balloon kyphoplasty (BKP) is a method for the management of osteoporotic vertebral body fracture (OVF). However, improvement in back pain (BP) is poor in some patients, also previous reports have not elucidated the exact incidence and risk factors for residual BP after BKP. We clarified the characteristics of residual BP after BKP in patients with OVF. Hypothesis: In this study, we hypothesize that some risk factors may exist for residual BP 2 years after the treatment of OVF with BKP. Patients and Methods: A multicenter cohort study was performed where patients who received BKP within 2 months of OVF injury were followed-up for 2 years. BP at 6 months after surgery and final observation was evaluated by Visual Analog Scale (VAS) score. Patients with a score of 40 mm or more were allocated to the residual BP group, and comparisons between the residual back pain group and the improved group were made for bone density, kyphosis, mobility of the fractured vertebral body, total spinal column alignment, and fracture type (fracture of the posterior element, pedicle fracture, presence or absence of posterior wall damage, etc.). Also, Short Form 36 (SF-36) for physical component summary (PCS) and mental component summary (MCS) at the final follow-up was evaluated in each radiological finding. Results: Of 116 cases, 79 (68%) were followed-up for 2 years. Two years after the BKP, 26 patients (33%) experienced residual BP. Neither age nor sex differed between the groups. In addition, there was no difference in bone mineral density, BKP intervention period (period from onset to BKP), and osteoporosis drug use. However, the preoperative height ratio of the vertebral body was significantly worse in the residual BP group (39.8% vs. 52.1%; p = 0.007). Two years after the operation, the vertebral body wedge angle was significantly greater in the residual BP group (15.7° vs. 11.9°; p = 0.042). In the multiple logistic regression model with a preoperative vertebral body height ratio of 50% or less [calculated by receiver operating characteristic (ROC) curve], the adjusted odds ratio for residual BP was 6.58 (95% confidence interval 1.64-26.30; p = 0.007); similarly, patients with vertebral body height ratio less than 50% had a lower score of SF-36 PCS 24.6 vs. 32.2 p = 0.08. Conclusion: The incidence of residual BP 2 years after BKP was 33% in the current study. The risk factor for residual BP after BKP was a preoperative vertebral body height ratio of 50% or less, which should be attentively assessed for the selection of a proper treatment scheme and to provide adequate stabilization. Level of Evidence: III.

The Differences in Radiographic Vertebral Size in Dogs with Different Chest and Skull Types.

The objective of this study was to elucidate the differences in vertebral length, vertebral height, and vertebral length/height ratio of the fourth thoracic vertebra (T4), the second lumbar vertebra (L2), the fifth lumbar vertebra (L5) and the seventh lumbar vertebra (L7) based on radiographs in dogs with various body sizes, skull types, and thoracic conformations and to determine the relationships of these parameters with age and sex. A total of 258 dogs were included in this study and classified by three criteria-BW (Criterion 1), skull type (Criterion 2), and thoracic conformation (Criterion 3). Age had weak negative correlations with vertebral length and height. Sex did not affect the vertebral size parameters. BW had strong positive correlations with vertebral length and height, but there was no influence of BW on vertebral length/height ratio. Regarding the different body sizes and conformations, large breeds had vertebrae with significantly greater length and height than small and medium breeds (p < 0.001). In Criterion 2, the vertebrae of the mesocephalic dogs had significantly greater length and height than those of the brachycephalic and dolichocephalic dogs (p < 0.05). In Criterion 3, both deep-chest and round-chest dogs had vertebrae with significantly greater length and height than the barrel-chest dogs (p < 0.0001). Only vertebral length/height ratios of T4 were not influenced by age, sex, BW, skull type, and thoracic conformation. Age, differences in body size, skull type, and thoracic conformation could affect the vertebral size in dogs. Therefore, using breed-specific vertebral lengths and/or heights is a better approach for comparative radiographic analysis with vertebral measurements.

Beyond Pain Relief: An In-Depth Review of Vertebral Height Restoration After Balloon Kyphoplasty in Vertebral Compression Fractures.

This comprehensive review delves into the intricate landscape of vertebral height restoration after balloon kyphoplasty in cases of vertebral compression fractures. With a comprehensive examination of procedural intricacies, radiological evaluations, clinical outcomes, and influential factors, a nuanced comprehension unfolds. Beyond its immediate alleviation of pain, vertebral height restoration emerges as a linchpin in enhancing spinal alignment, fostering functional recuperation, and augmenting the overall quality of life. This review underscores the pivotal role of balloon kyphoplasty, transcending its mere medical utility to become a conduit for renewed independence and well-being among individuals grappling with vertebral compression fractures. The ongoing advancements in medical science and the continued pursuit of research stand poised to amplify the significance of vertebral height restoration, manifesting a promising horizon for individuals seeking respite from pain, a revitalised capacity for movement, and a life unburdened by its constraints.

Equivalent values between anterior vertebral height, wedge ratio, and wedge angle for evaluating vertebral mobility and deformity in osteoporotic vertebral fractures: a conventional observational study.

BACKGROUND: Vertebral mobility (V-mobility) has been used to diagnose fresh osteoporotic vertebral fractures (OVFs) and determine bone union by setting cutoff values for these purposes. V-mobility is the difference in vertebral height on dynamic radiographs taken in the sitting and lateral decubitus or supine positions. The dimensions for V-mobility were presented as anterior vertebral height (Ha; mm), wedge ratio (WR; %), and wedge angle (WA; °) in previous reports. This study was performed to obtain WR and WA values equivalent to V-mobility of 1.0 mm in Ha. METHODS: Lateral radiographs of 284 OVFs (grade 1-3 deformed vertebrae) from T11 to L2 were obtained from 77 patients with OVF. V-mobility presented as Ha, posterior vertebral height, and WA was obtained by the difference in these dimensions on dynamic radiographs. The WR and WA values equivalent to 1.0 mm in Ha were obtained by dividing the V-mobility values for WR and WA by that for Ha. RESULTS: The mean WR values corresponding to 1.0 mm in Ha for grade 1, 2, and 3 vertebrae were 3.2% ± 1.4%, 3.2% ± 0.9%, and 3.4% ± 1.0%, respectively, and the corresponding value for grade 1-3 vertebrae was 3.3% ± 1.0%. The mean WA values corresponding to 1.0 mm in Ha for grade 1, 2, and 3 vertebrae were 1.5° ± 0.8°, 1.5° ± 0.6°, and 1.5° ± 0.8°, respectively, and the corresponding value for grade 1-3 vertebrae was 1.5° ± 0.7°. CONCLUSIONS: The WR and WA values equivalent to V-mobility of 1.0 mm in Ha were 3.3% and 1.5°, respectively, in grade 1-3 vertebrae. These findings may be useful to secure a reliable value of V-mobility of OVFs using simultaneous measurements in three dimensions (Ha, WR, and WA) in clinical practice and to establish cutoff values for V-mobility to determine bone union.

Establishing a nomogram to predict refracture after percutaneous kyphoplasty by logistic regression.

Introduction: Several studies have examined the risk factors for post-percutaneous kyphoplasty (PKP) refractures and developed many clinical prognostic models. However, no prior research exists using the Random Forest (RF) model, a favored tool for model development, to predict the occurrence of new vertebral compression fractures (NVCFs). Therefore, this study aimed to investigate the risk factors for the occurrence of post-PKP fractures, compare the predictive performance of logistic regression and RF models in forecasting post-PKP fractures, and visualize the logistic regression model. Methods: We collected clinical data from 349 patients who underwent PKP treatment at our institution from January 2018 to December 2021. Lasso regression was employed to select risk factors associated with the occurrence of NVCFs. Subsequently, logistic regression and RF models were established, and their predictive capabilities were compared. Finally, a nomogram was created. Results: The variables selected using Lasso regression, including bone density, cement distribution, vertebral fracture location, preoperative vertebral height, and vertebral height restoration rate, were included in both the logistic regression and RF models. The area under the curves of the logistic regression and RF models were 0.868 and 0.786, respectively, in the training set and 0.786 and 0.599, respectively, in the validation set. Furthermore, the calibration curve of the logistic regression model also outperformed that of the RF model. Conclusion: The logistic regression model provided better predictive capabilities for identifying patients at risk for post-PKP vertebral fractures than the RF model.

The Effectiveness of Vertebral Height Restoration Based on the Vertebroplasty Procedure Used to Treat Osteoporotic Vertebral Fractures.

OBJECTIVE: Whether the use of a balloon or stent in vertebroplasty for vertebral fractures, such as balloon kyphoplasty (BKP) or vertebral body stenting (VBS), actually contributes to the restoration of postoperative vertebral height is unclear. The aim of the current study was to compare the effectiveness of percutaneous vertebroplasty (PVP), BKP, and VBS in the correction of collapsed vertebrae in patients with painful vertebral fractures. METHODS: The cases studied involved 34 vertebrae in 28 patients treated with PVP, 43 vertebrae in 38 patients treated with BKP, and 20 vertebrae in 20 patients treated with VBS at Izinkai Takeda General Hospital. Changes in the vertebral height and local kyphosis angle were measured based on standing lumbar radiographs before and after surgery and were compared among the treatment groups. RESULTS: There were no differences in changes in the height of the anterior wall, middle body, or posterior wall of the treated vertebrae among the 3 treatment groups. The same was true for changes in the local kyphosis angle. The effectiveness of vertebral height restoration depended heavily upon preoperative vertebral instability in all the treatment groups. Correction loss due to balloon deflation effect or balloon sinking was noted with VBS or BKP. CONCLUSION: BKP and VBS have the advantage of reducing the risk of extravertebral leakage of injected bone cement, but they have a disadvantage in that they are no more effective than PVP in restoring collapsed vertebrae despite the use of a balloon or metal stent.

Analysis of strategy and efficacy clinical treatments of Kümmell disease: a cohort study.

Background: Most clinical reports on the surgical treatment of kümmell disease lack consistency between classification and treatment protocol. In this study, we investigate the most appropriate and effective clinical treatment strategies according to the characteristics of different types of Kümmell disease. Methods: A retrospective analysis was performed of 48 patients with Kümmell disease treated in Tongde Hospital of Zhejiang Province, Hangzhou, Zhejiang, China for which complete follow-up data were available. All cases were classified into six types: type I, vertebral body height loss less than 20% and no intervertebral disc degeneration from adjacent segments; type II, vertebral body height loss more than 20% and accompanied by degeneration or mild instability of intervertebral discs at adjacent segments; type III, posterior vertebral cortical rupture and dural sac compression, and some accompanied by spinal cord nerve injury. Type III includes type IIIA (recoverable stable type), type IIIB (recoverable unstable type), type IIIC (spinal stenosis type), and type IIID (kyphosis type). Methods of surgery: patients of types I, II, and IIIA were treated with percutaneous vertebroplasty (PVP) or percutaneous kyphoplasty (PKP), type IIIB were treated with posterior fixation and fusion, type IIIC were treated with posterior decompression and fixation fusion, and type IIID were treated with posterior osteotomy, orthopedic fixation, and fusion. All patients were followed up for 10-44 months (mean, 20.5±4.5 months). The preoperative and postoperative visual analog scale (VAS) scores, Owestry disability index (ODI) scores, secondary height loss and kyphosis, and neurological improvement were followed up and statistically analyzed. Results: The VAS and ODI scores of all cases were improved compared with those pre-surgery (P<0.05). A total of 8 cases showed loss of vertebral height or secondary kyphosis. The American Spinal Injury Association (ASIA) grades of patients with neural impairment were all improved at the last follow-up. Conclusions: According to the characteristics of different types of Kümmell disease, appropriate clinical treatment strategies can achieve satisfactory curative effects and reduce the occurrence of complications. This study is only a retrospective study, lacks a control group, and the sample size is small. Therefore, it has limitations and does not provide guidance.

Robot-Assisted Kyphoplasty Improves Clinical and Radiological Features Better Than Fluoroscopy-Assisted Kyphoplasty in the Treatment of Vertebral Compression Fractures: A Meta-Analysis.

Purpose: This meta-analysis aimed to determine whether patients treated with robot-assisted kyphoplasty for vertebral compression fractures have superior clinical and radiographic improvement than those treated with fluoroscopy. Methods: A comprehensive search of the PubMed, Embase, Cochrane Library, Science Direct, and CNKI (China National Knowledge Infrastructure) databases was conducted to find randomized control trials (RCTs) or observational cohort studies that compared robotic-assisted kyphoplasty (RA-kyphoplasty) with fluoroscopy-assisted kyphoplasty (FA-kyphoplasty) in treating vertebral compression fractures. Preoperative, postoperative, and final follow-up data on vertebral height (VH), vertebral kyphosis angle (VKA), visual analog scale (VAS) for back pain, and cement leakage rate were collected from eligible studies for meta-analysis. Patients were divided into RA and FA groups depending on whether the operation was robotically or fluoroscopically guided. Results: We included 6 cohort studies with 491 patients and 633 vertebrae. The results of the meta-analysis showed that the RA group had a higher VH than the FA group at both postoperation (p < 0.001) and final follow-up (p < 0.001); the VKA in the RA group was lower than that in the FA group at postoperation (p < 0.001) and final follow-up (p < 0.001); the back pain VAS score was lower in the RA group than in the FA group at postoperation (p = 0.01) and final follow-up (p = 0.03); and the cement leakage rate in the RA group was lower than those in the FA group (p < 0.001). Conclusion: This meta-analysis demonstrated that RA-kyphoplasty outperformed FA-kyphoplasty in vertebral height restoration, kyphosis angle correction, VAS score reduction for back pain, and lower cement leakage rate in the treatment of vertebral compression fractures.

Do we have to pursue complete reduction after PVA in osteoporotic vertebral compression fractures: a finite element analysis.

BACKGROUND: Consensus regarding the optimal amount of bone cement and vertebral height in the treatment of osteoporotic vertebral compression fractures (OVCFs) is lacking. Our purpose was to explore the optimal amount of bone cement and vertebral height in OVCF after percutaneous vertebral augmentation (PVA). METHODS: A three-dimensional finite element model of the L1-L3 segments was constructed from CT scans of aging osteoporosis patients. Four different postoperative vertebral height models were simulated according to Genant semiquantitative grades 0, 1, 2, and 3. The volume of bone cement filling ranged from 3 ml to 6 ml. These models evaluated the von Mises stress of injured vertebral bodies, adjacent vertebral bodies and intervertebral discs under flexion, extension, left flexion, and right flexion after PVA. RESULTS: When the bone cement content was held constant, as the height of the vertebral body decreased, the stress of the L2 vertebral body decreased during left flexion and right flexion, but the stress of the L2 vertebral body increased and decreased during flexion and extension. As the height of the vertebral body decreased, the stress of the L1-L2 intervertebral disc increased. There was no significant change in the stress of other adjacent vertebrae or intervertebral discs. When the Genant grade was 0, 1, or 2 (3 ml and 4 ml), the stress of the overall vertebral body was closest to normal. CONCLUSIONS: When the height of the vertebral body is restored to the same height, a bone cement filling volume of 3 ml to 6 ml is suitable and will not produce a significant change in the stress of the vertebral body or adjacent vertebral body. As vertebral body height was lost, it may promote the degeneration of the intervertebral disc above the injury vertebrae after PVA. It is appropriate for the height of the vertebral body to return to Genant grade 0 or Genant grade 1 after surgery. When the height of the vertebral body has Genant grade 2 status, it was best to use 3 ml to 4 ml of bone cement filling. Therefore, when treating OVCFs, clinicians do not need to pursue complete reduction of the vertebral body. It is also important to verify the biomechanics results in clinical studies.

Application and thinking of minimally invasive transforaminal lumbar interbody fusion in degenerative lumbar diseases.

Background: This study sought to investigate the clinical efficacy and safety of minimally invasive transforaminal lumbar interbody fusion (MIS-TLIF) in the treatment of lumbar degenerative diseases. Methods: The clinical data of 55 patients with lumbar degenerative diseases treated at our hospital from January 2018 to January 2020 were analyzed retrospectively. Of the 55 patients, 35 who underwent MIS-TLIF were included in the MIS-TLIF group, and 20 who underwent posterior lumbar interbody fusion (PLIF) were included in the PLIF group. The visual analogue scale (VAS) score, Oswestry disability index (ODI) score, operation time, incision length, intraoperative bleeding, postoperative drainage, postoperative landing time, postoperative hospital stay, postoperative interbody fusion rate, and complications were compared between the two groups. Results: The patients in both groups were followed-up for at least 1.5 years (range, 18-30 months; with an average of 27.5±2.6 months). There was no significant difference in the operation time, incision length, intraoperative bleeding, VAS score for low back and leg pain, ODI score, interbody fusion rate, hospitalization expenses, and complication rate between the two groups (P>0.05). One patient had nail failure in the MIS-TLIF group, 1 patient in each group had nerve root irritation, and 1 patient in each group had superficial incision infection and local suture dehiscence. The postoperative drainage volume, postoperative landing time, and postoperative hospital stay of the MIS-TLIF group were less than those of the PLIF group (P<0.05). Conclusions: Compared to PLIF, the use of MIS-TLIF in the treatment of lumbar degenerative diseases has a number of advantages, including more complete intraoperative hemostasis, less postoperative drainage, earlier landing, and faster discharge, and also significantly improves postoperative lumbar discomfort.

Equivalent values between anterior vertebral height, wedge ratio, and wedge angle in osteoporotic vertebral fractures.

INTRODUCTION: Vertebral mobility (V-mobility) has been used to diagnose fresh osteoporotic vertebral fractures (OVFs), and determine or predict bone union by setting cutoff values for these purposes. V-mobility is defined as the difference in shape of vertebral bodies between lateral radiographs taken in weight-bearing and non-weight-bearing positions. The parameters for V-mobility have varied in previous reports among anterior vertebral height (Ha, mm), wedge ratio (WR, %), and wedge angle (WA, degrees). The present study aimed to clarify WR and WA equivalent to Ha of 1.0 mm, and to compare the reported cutoff values for V-mobility presented as Ha, WR, or WA. MATERIALS AND METHODS: Lateral radiographs of 446 normal vertebrae (grade 0) and 146 deformed vertebrae (grade 1-3) from T11 to L2 were obtained from 183 female patients aged > 60 years. WR (%) values equivalent to Ha of 1.0 mm were calculated by Ha (1.0 mm)/Hp × 100 (Hp: posterior vertebral height). Corresponding WA values were calculated by trigonometric function using vertebral dimensions. RESULTS: The mean WR values equivalent to Ha of 1.0 mm in the vertebrae from T11 to L2 were 3.2%, 3.2%, 3.5%, and 3.7% for grades 0, 1, 2, and 3, respectively, and the corresponding WA values were 1.6°, 1.6°, 1.5°, and 1.4°. CONCLUSION: The equivalent values for V-mobility presented as Ha, WR, and WA were obtained. The mean WR and WA values equivalent to Ha of 1.0 mm in grade 1-3 vertebrae were 3.5% and 1.5°, respectively.

Efficacy of a novel percutaneous pedicle screw fixation and vertebral reconstruction versus the traditional open pedicle screw fixation in the treatment of single-level thoracolumbar fracture without neurologic deficit.

Objective: The aim of this study was to compare the efficacy and safety of a novel percutaneous pedicle screw fixation and vertebral reconstruction (PPSR) vs. that of open pedicle screw fixation (OPSF) in the treatment of thoracolumbar fractures. Methods: This retrospective study enrolled 153 patients who underwent PPSR and 176 patients who received OPSF. Periprocedural characteristics, radiographic parameters, and clinical outcomes were compared between the two groups. Results: The operation duration was 93.843 ± 20.611 in PPSR group and 109.432 ± 11.903 in OPSF group; blood loss was 131.118 ± 23.673 in PPSR group and 442.163 ± 149.701 in OPSF group, incision length was 7.280 ± 1.289 in PPSR group and 14.527 ± 2.893 in OPSF group, postoperative stay was 8.732 ± 1.864 in PPSR group and 15.102 ± 2.117 in OPSF group, and total hospitalization costs were 59027.196 ± 8687.447 in PPSR group and 73144.432 ± 11747.567 in OPSF group. These results indicated that these parameters were significantly lower in PPSR compared with those in OPSF group. No significant difference was observed in the incidence of complications between the two groups. The radiographic parameters including height of the anterior vertebra, Cobb angle, and vertebral wedge angle were better in PPSR group than in OPSF group. Recovery rate of AVH was 0.449 ± 0.079 in PPSR group and 0.279 ± 0.088 in OPSF group. Analysis of clinical results revealed that during postoperative period, the VAS and ODI scores in PPSR group were lower than those in OPSF group. Conclusions: Collectively, these results indicated that PPSR more effectively restored the height of anterior vertebra and alleviated local kyphosis compared with OPSF. Moreover, the VAS and ODI scores in PPSR group were better than those of OPSF group.

Comparison of Jack dilator-kyphoplasty and balloon-kyphoplasty in postoperative vertebral height loss and adjacent intervertebral disc degeneration / 中华创伤骨科杂志

Objective:To compare Jack dilator-kyphoplasty (DKP) and balloon-kyphoplasty (BKP) for osteoporotic vertebral compression fracture (OVCF) in postoperative vertebral height loss and adjacent intervertebral disc degeneration.Methods:A total of 94 OVCF patients were treated and fully followed up at Department of Orthopaedic Surgery, The First Hospital Affiliated to Nanjing Medical University from May 2007 to October 2016. Of them, 30 were subjected to DKP and 64 to BKP. In DKP group, there were 18 males and 12 females, with an age of (72.4±9.2) years, a bone density of (-3.99±0.88) SD and a disease course of (0.7±0.4) months; in BKP group, there were 28 males and 36 females, with an age of (71.6±14.3) years, a bone density of (-4.08±0.63) SD and a disease course of (0.6±0.3) months. The 2 groups were compared in terms of change in the height of injured vertebrae, disc height index percentage (DHIP) and Pfirrmann grading of adjacent disc degeneration at preoperation, 2 days and 36 months after operation.Results:The 2 groups were comparable due to insignificant differences in their preoperative general data ( P>0.05). The anterior and middle heights of injured vertebrae and DHIP at postoperative 36 months were significantly lower than those at postoperative 2 days in both groups ( P<0.05). There was no significant difference between the 2 groups in DHIP at 36 months after operation (79.86%±4.48% versus 80.24%±6.85%) ( t=0.277, P=0.782). By the Pfirrmann grading, 36 and 84 patients had intervertebral disc degeneration in DKP and BKP groups respectively. There was no significant difference in the incidence of intervertebral disc degeneration between the 2 groups (60.0% versus 65.6%) (χ 2=0.560, P=0.454). Conclusions:In the OVCF treatment, DKP and BKP may potentially cause height loss of the injured vertebrae and degeneration of adjacent intervertebral disc, but no difference was found in disc degeneration between the 2 modes.

Early loss of angular kyphosis correction in patients with thoracolumbar vertebral burst (A3-A4) fractures who underwent percutaneous pedicle screws fixation.

PURPOSE: Percutaneous trans-pedicle screws represent a surgical option frequently performed in patients affected by thoracolumbar vertebral burst fractures (A3-A4). The aim of the study was to evaluate the early loss of kyphosis correction and its clinical correlations in a cohort of patients affected by burst spinal fracture treated with percutaneous trans-pedicle screws fixation. METHODS: The present investigation consists in a retrospective one center analysis. The primary outcome was the evaluation of the early loss of correction. Secondary outcomes were the bi-segmental kyphosis change, the clinical outcome and the correlation between clinical outcome and the loss of correction. RESULTS: Among 435 patients 97 were included in the study. A mean 3.3° of early loss of correction was observed between postoperative and 1 month follow-up evaluations. The mean anterior vertebral body height change was 3.8 mm. No statistical differences were found in clinical and functional outcomes between patients with >2° or <2° of kyphosis loss of correction. CONCLUSION: No statistical differences were found between 1 e 6 months postoperative kyphosis loss of correction. The amount of loss of correction seems not to influence clinical outcomes after percutaneous trans-pedicle screw fixation in patients with vertebral burst fractures.

Effect of spatial location of the screw at the injured vertebra on the vertebral height in AO type A thoracolumbar fracture / 中华创伤骨科杂志

Objective:To compare the effects of 3 spatial locations of the screw at the injured vertebra on the vertebral height in AO type A thoracolumbar fracture.Methods:A retrospective analysis was performed of the 156 patients with type A thoracolumbar fracture who had been hospitalized at Department of Spine Surgery, The Sixth Hospital of Ningbo from January 2016 to June 2019. They were divided into 3 groups according to the spatial location of the screw at the injured vertebra. In group A of 55 cases, the screws were located in the vertebral body between the longitudinal axis bisector of the vertebral pedicle and the upper endplate; in group B of 52 cases, the screws were located in the vertebral body between the vertical axis bisector of the vertebral pedicle and the horizontal line of the apex of the inferior pedicle notch; in group C of 49 cases, the screws were located in the vertebral body between the horizontal line at the apex of the inferior pedicle notch and the inferior endplate. The anterior, middle and posterior heights of the injured vertebra, Beck index and angulation of the injured vertebra at preoperation, one week postoperation and the last follow-up were compared between the 3 groups and within the same group.Results:There was no significant difference in preoperative general data between the 3 groups, showing comparability ( P>0.05). In all the 3 groups, the anterior and middle heights of the injured vertebra and Beck indexes at one week postoperation and at the last follow-up were significantly larger than those before operation while the angulations of the injured vertebra at one week postoperation and at the last follow-up were significantly smaller than the preoperative values (all P<0.05), but there was no significant difference between one week postoperation and the last follow-up in any of the above indexes ( P>0.05). In all the patients, the posterior height of the injured vertebra at one week postoperation was significantly larger than those before operation and at the last follow-up ( P<0.05), but there was no such a significant difference in comparison between preoperation and the last follow-up ( P>0.05). At the last follow-up, groups A and B had significantly larger anterior and middle heights of the injured vertebra and Beck indexes but significantly smaller angulations of the injured vertebra than group C, but such significant differences did not exist when the above indexes were compared between groups A and B ( P>0.05). Conclusions:In insertion into an injured vertebra, the screw should be parallel and close to the upper endplate, and located in the middle and upper part of the vertebra corresponding to the longitudinal axis of the vertebral pedicle, because this spatial position is conducive to intraoperative reduction, maintaining the postoperative height of the injured vertebra, and decreasing loss of the vertebral height.

Comparison Between Hyperextension and Neutral Positions for Vertebroplasty and Kyphoplasty: Which is Best for Osteoporotic Vertebral Compression Fractures?

PURPOSE: This study aimed to compare the demographic features (including total cost), surgical effects, radiographic parameters, and complications of kyphoplasty (KP) and vertebroplasty (VP) in the hyperextension (HP) and neutral positions (NP) and to assess their efficacy and cost-effectiveness for treating single-level osteoporotic vertebral compression fractures (OVCF). PATIENTS AND METHODS: This was a retrospective analysis of 245 consecutive patients who underwent KP or VP from February 2018 to February 2019 with observation on postoperative day 2 and at the one-year follow-up. The first 122 patients (86 KP and 36 VP cases) were treated in the neutral position, and the remaining 123 in the hyperextension position (90 VP and 33 KP cases). Back pain and impact on daily life were evaluated. Cobb's angle and the ratio of the anterior (AR) and middle vertebral (MR) bodies were the main radiographic parameters. The chi-square test, one-way analysis of variance (ANOVA), repeated measurement ANOVA, and post hoc tests (Bonferroni adjustments) were used for statistical analysis. RESULTS: There were no significant differences in the demographic features, operation time, or rate of re-fracture at the one-year follow-up among the groups. The rate of cement leakage was significantly lower in the HPVP group than in the NPKP group. The total cost was significantly lower in the VP groups than in the KP groups. At the one-year follow-up, back pain was significantly lower in the HPVP group than in the NPKP group. The Oswestry Disability Index, Cobb's angle, AR, and MR in the HPVP group were similar to those in the NPKP and HPKP groups, but better than those in the NPVP group. CONCLUSION: HPVP can achieve better pain relief, and similar disability scores, Cobb's angle, AR and MR recovery, with a lower total cost, compared with NPKP. HPVP is the most economically efficacious treatment for OVCF.

Effect of RTS versus percutaneous conventional pedicle screw fixation on type A thoracolumbar fractures: a retrospective cohort study.

PURPOSE: This study aims at evaluating the effects of RTS (rotation softened trauma fixation system) compared with PCPSF (percutaneous conventional pedicle screw fixation) on type A thoracolumbar fractures. METHODS: In this retrospective cohort study, 116 patients with type A thoracolumbar fractures from March 2014 to June 2018 were enrolled. PCPSF was performed in 60 patients, meanwhile the other 56 patients accepted RTS. VAS scores, Cobb angle, anterior vertebral height (AVH) and perioperative data were compared between the two groups. RESULTS: Both groups were consistent with baseline on demographic and clinical characteristics. No significant difference was observed in VAS score between-group before and after operation. One year after surgery, the VAS score of RTS group was lower than that of PCPSF group (0.7 ± 0.3 vs. 1.5 ± 0.4). The postoperative AVH (%) in PCPSF was 82.3% (95%CI, 81.7-84.6), and 91.78% (95% CI, 91.1-92.4) in RTS. The postoperative improvement rate of AVH (%) in RTS was higher than that in PCPSF (30.6 ± 5.0 [95% CI, 29.2-32.0] vs. 22.0 ± 7.3 [95% CI, 20.2-24.2]). The postoperative Cobb angle (°) in PCPSF was 2.6 ± 3.4 (95%CI,11.7-13.5), and 7.5 ± 2.0 (95%CI,7.0-8.0) in RTS. The postoperative correction of Cobb angle (°) in RTS was higher than that in PCPSF (16.1 ± 3.8 95%CI,15.1-17.1] vs. 11.6 ± 5.2 95%CI,10.3-13.1]). CONCLUSIONS: Compared with PCPSF, RTS has advantages in restoring the anterior vertebral height and reducing local kyphosis.

Comparison of percutaneous vertebroplasty and percutaneous curved vertebroplasty for osteoporotic vertebral compression fractures: Distribution and leakage rate of injected bone cement / 中国组织工程研究

BACKGROUND: Percutaneous curved vertebroplasty is a modified surgical method of percutaneous vertebroplasty; the most prominent feature of which is that it can make the bone cement distributed symmetrically and balance the strength on both sides of the vertebral body. In theory, it can ensure the distribution of bone cement in the vertebral body, and solve the problem that the uneven distribution of bone cement in the traditional percutaneous vertebroplasty and single injection leads to poor pain relief effect in the fracture area. OBJECTIVE: To compare the clinical efficacy of percutaneous curved vertebroplasty and percutaneous vertebroplasty bone cement injection in the treatment of osteoporotic vertebral compression fractures, and to discuss the value of percutaneous curved vertebroplasty in clinical application. METHODS: Seventy patients with single vertebral osteoporotic vertebral compression fractures from the Third Affiliated Hospital of AnHui Medical University between 2017 and 2018 were selected. The patients were randomly divided into two groups. Percutaneous curved vertebroplasty group (n=35) received treatment with percutaneous curved vertebroplasty. Percutaneous vertebroplasty group (n=35) received treatment with percutaneous vertebroplasty. Distribution and leakage of bone cement were observed in the two groups. Visual analogue scale score and Oswestry disability index were assessed preoperatively and 1 day postoperatively. Postoperative follow-up was conducted for 1 year to observe the recovery of the height of the anterior edge of the injured vertebra and the occurrence of adjacent vertebral fractures. The trial was approved by the Ethics Committee of the Third Affiliated Hospital of Anhui Medical University. RESULTS AND CONCLUSION: (1) Compared with the percutaneous vertebroplasty group, the distribution of bone cement was more uniform and satisfactory (P0.05). (4) There was no significant difference in the incidence of adjacent vertebral fractures between the two groups (P>0.05). (5) The results showed that compared with the treatment of percutaneous vertebroplasty, the treatment of osteoporotic vertebral body compression fractures by percutaneous curved vertebroplasty can reduce the rate of bone cement leakage and improve the quality of life of patients.