Search Results (66)

Background and Objectives: Diffuse idiopathic skeletal hyperostosis (DISH)-related spinal fractures with marked anterior distraction are highly unstable and pose substantial surgical challenges. The transdiscal screw for diffuse idiopathic skeletal hyperostosis (TSD) technique has been proposed to enhance fixation strength by penetrating adjacent vertebral endplates; however, its clinical utility in large-displacement cases remained unclear. Materials and Methods: In this retrospective study, we reviewed 21 patients with thoracolumbar DISH-related fractures and an anterior fracture gap ≥ 15 mm, who underwent posterior fixation between 2010 and 2024. 11 patients underwent TSD fixation (TSD group), and 10 underwent conventional fixation without bilateral TSD (control group). Results: The mean number of fused segments did not differ significantly between the groups (5.0 ± 1.4 vs. 5.0 ± 1.3, p = 0.43). Operative time was comparable (164 ± 57 vs. 168 ± 60 min, p = 0.90). Blood loss tended to be lower in the TSD group (306 ± 334 vs. 528 ± 658 mL, p = 0.33). For fracture-gap reduction, the TSD group improved from 17.4 ± 2.3 mm preoperatively to 13.8 ± 4.4 mm postoperatively and 2.0 ± 3.6 mm at final follow-up, while the control group showed less reduction (16.8 ± 2.2, 15.4 ± 1.4, and 7.0 ± 9.1 mm, respectively). Screw loosening occurred in three TSD patients and six controls (p = 0.13). All patients in the TSD group achieved bone union without reoperation, whereas four controls experienced implant backout, three required reoperation, and two failed to achieve bone union (p = 0.035). Conclusions: Posterior fixation using TSD provided reliable stability, maintained reduction, and reduced the risk of implant failure compared with conventional fixation in highly unstable DISH-related fractures with anterior distraction. Although larger prospective studies are needed, TSD may represent a valuable surgical option for this challenging patient population. Full article

Background: Carbon-fiber-reinforced polyetheretherketone (CFR-PEEK) vertebral-body replacements (VBRs) aim to mitigate subsidence, minimize imaging artifacts, and facilitate radiation planning while preserving fusion potential. We assessed the safety and efficacy of a novel modular, titanium-coated CFR-PEEK VBR (Kong^®) for anterior column reconstruction (ACR) in the thoracolumbar spine. Primary question: Does the implant safely and effectively achieve and maintain kyphosis correction after ACR for trauma and neoplasms? Methods: A single-center retrospective case series was performed on 28 patients who underwent thoracolumbar ACR with the Kong^® VBR for fractures or tumors (2020–2021). The primary outcome was the bi-segmental kyphotic angle (BKA). Secondary outcomes were screw loosening, cage height loss, fusion rate, subsidence, and tilting. Clinical status was recorded with Odom criteria, Karnofsky Performance Status (KPS), and AOSpine PROST. Results: Twenty-eight patients (mean age, 61 yr; 33% female; mean follow-up, 17.7 mts) were studied. Mean postoperative BKA correction was 16.5° (p = 0.006) and remained 14.5° at final follow-up (p = 0.008); loss of correction was 2.0° (p = 0.568). Subsidence, cage height, and sagittal tilt were unchanged. Fusion (Bridwell grade I/II) was observed in 95% on CT. One deep surgical-site infection occurred. At final follow-up, 91% of patients were graded “excellent” or “good” by Odom. KPS improved by 20 points (p = 0.031), and mean AOSpine PROST was 56.9. Conclusions: Single-center early results indicate that the modular titanium-coated CFR-PEEK VBR is a safe, effective adjunct for thoracolumbar ACR in trauma and neoplasm, providing durable kyphosis correction, mechanical stability and high fusion rates and grants for improved follow-up imaging quality. Full article

Background/Objectives: Thoracolumbar burst fractures often require surgical stabilization. Although posterolateral fusion (PLF) has been traditionally used, percutaneous posterior fixation (PPF) without fusion has emerged as a less invasive alternative. However, comparative data specifically addressing PPF and PLF are limited. This study aimed to compare the radiological and perioperative outcomes of PPF and PLF for thoracolumbar burst fractures. Methods: This retrospective cohort study analyzed 61 patients with T11–L2 burst fractures (PPF, 28; PLF, 33). Radiological parameters included local and global sagittal alignment and vertebral height ratio. Fracture morphology was assessed using a structured grading system based on anterior height ratios. Perioperative variables were also assessed. Statistical significance was set at p < 0.05. Results: PPF demonstrated significant advantages in operative time (160.7 min vs. 205.8 min, p < 0.01) and blood loss (165 cc vs. 317 cc, p < 0.01), with a shorter hospitalization time. PPF achieved outcomes comparable to PLF in global alignment and anterior height restoration. The PLF group showed greater local kyphotic angle correction (−7.77° vs. −1.53°, p = 0.01), whereas the PPF group showed significantly higher postoperative posterior height ratio (p = 0.02). Changes in morphological grades, assessed using the anterior height ratio-based grading system, showed similar patterns of improvement in both groups. All implant removals were performed due to patient-reported discomfort. Conclusions: PPF yielded radiological outcomes comparable to PLF in the treatment of thoracolumbar burst fractures. The use of a morphological grading system provided a structured descriptive tool to evaluate surgical impact, though its utility remains exploratory and requires further validation. Full article

Background/Objectives: Traumatic dislocation of the lumbosacral facet joints without associated fractures is exceedingly rare in the pediatric population. Due to the unique anatomical and biomechanical features of the pediatric spine, such injuries present diagnostic and therapeutic challenges. This study aims to describe a rare case of bilateral L5–S1 jumped facets without fracture in a 13-year-old boy and to review the existing literature on pediatric traumatic facet dislocations. Methods: We performed a systematic review according to PRISMA guidelines, searching PubMed, Embase, Scopus, and the Cochrane Library up to 16 January 2025. Keywords included “pediatric traumatic spondylolisthesis” and “pediatric traumatic facet joint”. Eligible studies reported traumatic lumbosacral or thoracolumbar facet dislocations in patients aged <18 years. In addition, we report the clinical course, surgical management, and outcome of a representative case from our institution. Results: The systematic review identified 14 pediatric cases across 11 studies. Most patients were male (71.4%), with high-energy trauma as the primary mechanism. The L5–S1 level was most frequently involved (57.1%). Neurological impairment was present in 57.1% of cases. All patients underwent surgical treatment, with posterior fixation being the most common approach. Our case involved bilateral L5–S1 jumped facets without fracture, successfully treated with open reduction and posterior fusion. Postoperative recovery was favorable, with neurological improvement. Conclusions: Traumatic bilateral facet dislocation without fracture is an extremely rare but serious condition in pediatric patients. Early recognition and surgical stabilization are essential to prevent permanent neurological damage. This study reinforces the importance of advanced imaging and prompt multidisciplinary management in optimizing outcomes. Full article

Background: Osteoporosis is the most prevalent metabolic bone disease, characterized by decreased bone mineral density, which leads to increased bone fragility, back pain, impaired postural stability, and a heightened risk of fractures. Proprioceptive exercises have been identified as an effective approach for reducing the risk of falls and adverse events. Objective: Our aim was to conduct a pilot exploratory study evaluating the effectiveness of proprioceptive training in improving coordination and balance, and in reducing chronic thoracolumbar back pain in older women diagnosed with osteoporosis. Methods: Quantitative ultrasound bone densitometry was performed on 144 women over the age of 60, followed by the implementation of a proprioceptive training program. The One-Leg Stance balance test and the Visual Analog Scale for pain intensity were administered before and after a six-month training intervention. Results: ANOVA revealed significant improvements in balance, with the OLS duration increasing from 2.49 s at baseline to 7.31 s following the intervention. Participants aged over 70 years demonstrated a positive, though comparatively lower increase in stability and balance. Chi-squared (χ²) analysis indicated that 83.9% of the variance in OLS performance was attributable to proprioceptive training (Cramer’s V = 0.839, p = 0.001). A significant reduction in VAS pain scores was observed, with 48.1% of the variance explained by the moderate effect of proprioceptive training (Cramer’s V = 0.481, p = 0.001). Conclusions: Proprioceptive training has the potential to improve postural stability, balance, and coordination and stimulate pain intensity in the thoracolumbar region. Despite promising results, the absence of a control group limits our ability to draw definitive causal conclusions. Full article

Purpose: Thoracolumbar burst fractures represent a significant proportion of spinal injuries, with management strategies remaining a subject of debate. While four-screw (4S) short-segment posterior fixation is commonly used, recent biomechanical studies suggest that adding pedicle screws at the fractured level (six-screw, 6S, construct) may improve stability and clinical outcomes. However, the clinical relevance of these findings remains uncertain. Methods: A systematic review and meta-analysis were conducted in accordance with PRISMA guidelines. Three databases (Scopus, PubMed/MEDLINE, Cochrane Library) were searched for studies comparing 4S and 6S constructs in thoracolumbar fractures. Inclusion criteria encompassed comparative clinical studies reporting perioperative, functional, and radiological outcomes. Data were extracted and analyzed using Review Manager 5.4.1, applying fixed- or random-effects models based on heterogeneity. Results: Twenty-two studies involving 1595 patients were included. The 6S group showed significantly improved postoperative pain scores (VAS), better short- and long-term sagittal alignment, and a lower implant failure rate. However, this technique was associated with longer operative times, increased intraoperative blood loss, and extended hospital stays. No significant differences in long-term functional disability (ODI) or infection rates were found. Conclusions: The addition of intermediate screws improves radiological outcomes and reduces implant failure but increases surgical burden. Further high-quality studies focusing on patient-reported outcomes and specific fracture subtypes are needed to refine clinical indications. Full article

Background: Patients with ankylotic spines suffering from vertebral column fractures are frequently operated on to maintain spinal stability and prevent secondary displacement and nerve damage. The aim of this study was to identify a subset of patients that may be treated non-operatively, thus avoiding operative complications in this group of patients. Methods: Extension-type injuries in patients with DISH (diffuse idiopathic skeletal hyperostosis) not involving the posterior elements of the spine comprised the study group. Results: Twenty two extension fractures occurred in 21 patients with DISH in SZMC (Shaare Zedek Medical Cente) between 2014–2025. All patients were treated non-operatively. Patients were allowed free mobilization, and no orthosis was used. The only limitation was keeping the bed inclined to 20–30 degrees to prevent extension at the fracture site. All fractures healed uneventfully, and no patient required late surgical intervention, and no neurological complications were noted. Conclusions: Patients with DISH who sustain extension-type injuries of the thoracolumbar spine, with no involvement of the posterior elements, may be treated non-operatively, with good results. Full article

Background/Objectives: We sought to characterize the variance and overlap among definitions of Proximal Junctional Kyphosis (PJK) used in the adult spinal deformity (ASD) literature. PJK is defined as excess in PJK angle, a Cobb angle between the upper-instrumented vertebra (UIV) and a supra-adjacent vertebra (SAV), either one (UIV+1) or two (UIV+2) levels rostral of the UIV. No expert consensus exists for threshold angle or which SAV to use. Methods: A total of 116 thoracolumbar fusion patients ≥ 65 years old were reviewed. The UIV+1 and UIV+2 angles were measured. Six definitions of PJK from the literature were evaluated. These definitions were selected based on citation frequency, historical relevance, and accessibility through commonly used databases. Pearson’s Chi-squared and pairwise comparisons were performed to evaluate the distinctness and agreement rates among these definitions. Results: The six definitions of PJK were as follows: [PJK20] PJK angle ≥ 20° with UIV+2 as the (SAV), [PJK10] PJK angle ≥ 10° with a >10° change from pre-op with UIV+2 as the SAV, [PJK2SD] PJK angle > 2 standard deviations from average with UIV+1 as the SAV, [PJK10+10] PJK angle ≥ 10° with a >10° change from pre-op with UIV+1 as the SAV, [PJK15] PJK angle > 15° with UIV+1 as the SAV, and [PJK30] PJK angle > 30° with UIV+2 as the SAV, or displaced rod fracture, or reoperation within 2 years for junctional failure, pseudoarthrosis, or rod fracture. [PJK10] and [PJK2SD] were the most distinct definitions while [PJK20], [PJK10+10], [PJK15], and [PJK30] showed no significant pairwise differences. [PJK2SD] was stringent, while definition [PJK30] included unique diagnostic information not captured by other definitions. Conclusions: The use of [PJK20], [PJK10+10], [PJK15], or [PJK30] is recommended for consistency, with [PJK15] presenting the best balance. Stringent [PJK2SD] may be beneficial for identifying severe PJK, though with low sensitivity. Overall, PJK definitions must be standardized for the consistent reporting of clinical outcomes and research comparability. Full article

Background: The objective was to evaluate and compare the efficacy of direct fragment impaction, indirect reduction through ligamentotaxis, and the combination of both techniques in burst fractures of the thoracolumbar (TL) spine. Methods: The fractures were categorized using the Arbeitsgemeinschaft für Osteosynthesefragen (AO) classification and assessed via standard computed tomography (CT) scans for spinal canal area (SCA) and mid-sagittal diameter (MSD). The Frankel classification was used to assess neurological deficits. Only single vertebrae AO types A3 and A4 thoracic or lumbar fractures were included. All patients received bisegmental posterior stabilization, one of the reduction techniques, and, if neurological deficits were present, a spinal decompression. Mean preoperative (µSCApre/µMSDpre), postoperative (µSCApost/µMSDpost) and difference (∆SCA/∆MSD) in radiographic values were obtained and analyzed using the Mumford formula. The significance of the reduction from preoperative stenosis was assessed using a t-test, while the effectiveness of the reduction techniques was compared using the Kruskal–Wallis test and Dunn’s post hoc test. The manuscript was focused primarily on radiographic outcomes; therefore, aside from the neurostatus, no other clinical parameters were statistically analyzed. Results: Thirteen patients (38.2%) received stand-alone indirect reduction, 13 patients (38.2%) underwent direct reduction, and a combined reduction was used in eight patients (23.6%). All methods resulted in a statistically significant reduction in spinal canal stenosis (p < 0.05), with a minimal mean ∆SCA of 19%. Patients in the direct reduction group had significantly higher µSCApre values compared to those in the indirect reduction group (p = 0.02). Conclusions: All of the tested reduction techniques provided a significant reduction in spinal canal stenosis. Patients who underwent mere direct reduction had significantly higher preoperative spinal canal stenosis compared to the indirect reduction group. Full article

Objective: The aim of this study is to present the initiation of robotic-guided (RG) spine surgery into routine clinical care at a single center with the use of intraoperative CT (iCT) automatic registration-based navigation. The workflow included iCT with automatic registration, fusion with preoperative imaging, verification of preplanned screw trajectories, RG introduction of K-wires, and the insertion of pedicle screws (PSs), followed by a control iCT scan. Methods: All patients who underwent RG implantation of pedicle screws using the Cirq^® robotic arm (BrainLab, Munich, Germany) in the thoracolumbar spine at our department were included in the study. The accuracy of the pedicles screws was assessed using the Gertzbein–Robbins scale (GRS). Results: In total, 108 patients (60 female, mean age 68.7 ± 11.4 years) in 109 surgeries underwent RG PS placement. Indications included degenerative spinal disorders (n = 30 patients), spondylodiscitis (n = 24), tumor (n = 33), and fracture (n = 22), with a mean follow-up period of 7.7 ± 9 months. Thirty-seven cases (33.9%) were performed percutaneously, and all others were performed openly. Thirty-three operations were performed on the thoracic spine, forty-four on the lumbar and lumbosacral spine, thirty on the thoracolumbar, one on the cervicothoracic spine, and one on the thoracolumbosacral spine. The screws were inserted using a fluoroscopic (first 12 operations) or navigated technique (latter operations). The mean operation time was 228.8 ± 106 min, and the mean robotic time was 31.5 ± 18.4 min. The mean time per K-wire was 5.35 ± 3.98 min. The operation time was lower in the percutaneous group, while the robot time did not differ between the two groups. Robot time and the time per K-wire improved over time. Out of 688 screws, 592 were GRS A screws (86.1%), 54 B (7.8%), 22 C (3.2%), 12 D (1.7%), and 8 E (1.2%). Seven screws were revised intraoperatively, and after revision, all were GRS A. E screws were either revised or removed. In the case of D screws, screws located at the end of the construct were revised, while so-called in-out-in screws in the middle of the construct were not revised. Conclusions: Brainlab’s Cirq^® Robotic Alignment Module feature enables placement of pedicle screws in the thoracolumbar spine with high accuracy. A learning curve is shown through improvements in robotic time and time per K-wire. Full article

Background/Objectives: Semiquantitative grading of the vertebral body (SQ) is an easy screening method for vertebral body deformation. The validity of SQ as a risk factor and screening tool for incident osteoporotic fractures in the vertebral body (OF) was investigated using retrospective case-control data. Methods: Outpatients with osteoporosis who were followed up for ≥2 years as patients with osteoporosis were recruited. All of them were tested using X-ray images of the lateral thoracolumbar view and other tests at baseline. Patients were classified according to the SQ grade, and potential risk factors were compared for each SQ group. Cox regression analyses were conducted on the incident OFs. Statistical differences in the possible risk factors among the groups and the likelihood of incident OFs in the variables were examined. After propensity score matching (PSM) and inverse probability of treatment weighting (IPTW) for confounding factors, the possibility of incident OFs was compared between the SQ grade groups. Results: In the crude dataset, the probability of incident OF in SQ Grade 3 was significantly higher than in other grade groups. Using a Cox regression analysis in multivariate mode, SQ grade was the only statistically significant factor for incident OF. However, no significant differences were observed between PSM and IPTW. Conclusions: These results suggest that the SQ classification was inappropriate for predicting incident OFs. However, the grading showed a significantly higher risk than that available for screening. Full article

Background/Objectives: Kyphoplasty and vertebroplasty are minimally invasive approaches for spinal fractures aiming to reduce pain, increase mobilization, and prevent further vertebral height loss. Their efficacy in treating burst fractures has been questioned due to fragment mobility and concerns for cement leakage. We aim to report outcomes in patients who underwent kyphoplasty for spinal burst fractures. Methods: We conducted a retrospective review of patients with burst fractures treated from 2018 to 2023. Those who underwent kyphoplasty or vertebroplasty and had follow-up imaging were included. Clinical characteristics and follow-up outcomes were obtained through chart review. The primary outcome was the need for surgical intervention after kyphoplasty. Results: We identified ten patients (mean age 67.9 years, range 36–93 years) with burst fractures who underwent kyphoplasty/vertebroplasty. Six received kyphoplasty/vertebroplasty within 1 week of injury and four between 1 and 4 months post-injury. Nine patients had a TLICS score of 2, and one had a TLICS score of 5. Kyphoplasty/vertebroplasty was performed for pain management in seven patients and significant/worsening vertebral height loss in three patients. At follow-up, 70% of patients reported an improvement in pain and 75% of patients reported improved mobility. One patient experienced progression of an L2 burst fracture but improved with conservative management. No patient required additional surgical fixation. Conclusions: In this series of ten patients with spinal burst fractures, standalone kyphoplasty was a safe and effective treatment. Our findings suggest kyphoplasty may be a viable treatment option for select spinal traumatic burst fractures, offering potential pain relief and mobility improvement in the short term. Full article

Background: This study aims to evaluate how surgical timing and the radiological characteristics of fragment blocks can affect the effectiveness of ligamentotaxis, in restoring the spinal canal area, and local kyphosis in adults with traumatic thoracolumbar A3 burst fractures without neurological impairment treated with percutaneous short-segment fixation. Methods: A retrospective observational study was conducted between January 2016 and December 2022 on neurologically intact adult patients with a single A3 thoracolumbar fracture. Data collected included demographics, injury mechanism, fracture level, and clinical and surgical details. Radiological assessments included spinal canal area, local kyphotic angle, anterior and posterior vertebral heights, and fragment block measurements. Results: Out of 101 treated patients, 9 met the criteria with a mean age of 52.22 years. Most fractures were at L1 (88.89%). All patients had moderate-to-severe pain (NRS 6.22 ± 1.09) at baseline. Five patients (55.55%) underwent surgery within 72 h, with a mean surgical time of 109.22 min. SCA and LKA values improved significantly in all patients post-surgery. Early surgical intervention (<72 h) correlated with greater improvements in spinal canal area (p = 0.016) and local kyphotic angle (p = 0.004). A significant association was found between spinal canal area improvement and the percentage ratio of fragment height to “normal” vertebral height (rho = 0.682; p = 0.043). Conclusions: Early (<72 h) short-segment percutaneous fixation is recommended for adults with high functional demands and moderate-to-severe axial pain due to single traumatic A3N0M0 thoracolumbar fracture. This “upfront” approach is associated with enhanced indirect decompression and better local kyphotic angle restoration. Considering the fragment morphology could also be important in surgical planning. Full article

Background: The present study aims to investigate the influence of systematic radiological screening for silent vertebral fractures (VFs) on osteoporosis diagnosis, treatment decisions, and long-term clinical outcomes compared to standard care without routine screening in elderly patients hospitalised primarily for fractures requiring surgical treatment at sites other than the spine. Material/Methods: In a level 1 trauma centre, patients with fractures requiring surgical treatment after low-energy trauma were prospectively examined over a period of 12 months. Using radiographs of the thoracic and lumbar spine in two planes, previously unknown VFs were identified and categorised according to the classification for osteoporotic fractures (OFs) of the thoracolumbar spine. Results: A total of 106 patients with a mean age of 79.4 years participated in this study, and 112 previously unknown vertebral compression fractures were diagnosed in 57% (60/106) of the patients. In this group, lumbar vertebra 2 was the most frequently affected, and the majority of these VFs were classified as OF 2, which corresponds to an isolated endplate fracture with minimal involvement of the posterior wall. Furthermore, 26% (28/106) of the patients in the evaluation showed VFs at multiple levels. This study revealed no statistically significant difference in the prevalence of silent VFs between male and female patients (p = 0.055). Additionally, the analysis revealed that nearly 75% of patients exhibited vitamin D insufficiency. Conclusions: The high prevalence of silent VFs in elderly patients emphasises the necessity for systematic radiological investigations, irrespective of gender. Full article

Background/Objectives: Osteoporosis is a global problem that will increase as the population increases and ages, requiring prevention, early detection, and appropriate treatment. An increasing loss in bone mineral density (BMD) is the hallmark of osteoporosis, leading to an increased risk for insufficiency fractures. We aimed to investigate and analyze the applicability of native lumbar spine computed tomography (CT) scans for the evaluation of bone density compared with standard bone density measurements with quantitative computed tomography (QCT) and computed tomography X-ray absorptiometry of the hip (CTXA). Methods: Patients who were referred to our institution for diagnostic investigations and underwent CT imaging of the lumbar spine, as well as standard osteoporosis assessments including QCT and CTXA, were included in the study, resulting in a total of 240 patients (mean age: 65.9 years, range: 24–91). An ANOVA test was used to compare patient groups without a fracture, with one fracture, with more than one fracture, and with additional sacral fractures. An ROC analysis was performed to assess the predictive power of fracture risk estimation considering HU, QCT, and CTXA values. Results: At least one fracture was detected in 42.9% of these patients. For the lumbar spine, the median HU was 89.9 (range 67.9–126.9) and the median BMD was 73.7 (range 57.1–104.2) mg/cm³. With a correlation coefficient of 0.98 (p < 0.001), the HU values obtained from native lumbar CT scans can be calculated using the following formula: BMDspine = 0.84 + (0.81 × HU). With HU values < 80 and a BMD of the lumbar spine < 66 mg/cm³, a significantly increased number of osteoporotic vertebral fractures were found in the mid-thoracic, thoracolumbar, and sacral regions with an effect size of 0.89. In 32 patients (13.3%), additional sacral fractures were found; these patients showed the lowest density values with a median HU value of 31.8 (12.7–58.2). An ROC analysis of HU revealed a 93% sensitivity for the coincidence of a vertebral fracture. There was no significant difference compared with the AUC of QCT (p = 0.395) for concomitant vertebral body fractures. CTXA values also allowed for risk assessment but showed a significantly lower AUC. We found a negative correlation of BMD with age and a positive correlation of BMD with body mass index. Conclusions: Cancellous density measurements in HU values can be effectively converted into quantitative BMD values in mg/cm³, enabling a reliable assessment of osteoporosis severity and fracture risk prediction. Further quantitative density evaluation of the hip does not add value to fracture risk assessment for the axial skeleton. Based on this study’s findings, using HU values in native CT of the lumbar spine alone offers a viable, opportunistic approach towards fracture risk evaluation of the spine. Full article