Performance of successful ambulatory cervical spine surgery: safety, efficacy, and early experiences of first 100 cases in Poland.

BACKGROUND: Ambulatory anterior cervical discectomy and fusion (ACDF) is a promising method, but not common in Poland. OBJECTIVE: That is why the purpose of this study was to demonstrate the experience of performing ACDF in patients with degenerative spinal diseases. METHODS: This study at the Spine Centre involved a single-center, multi-surgeon evaluation of 100 patients undergoing ACDF. RESULTS: Outcomes assessed included pain severity, measured by the visual analogue scale, which improved from 4.28 ± 0.76 preoperatively to 1.11 ± 0.59 one month postoperatively. The Core Outcome Measures Index-neck (COMI-neck) scale also showed significant improvement: before surgery, 30% of patients scored their condition severity between 4-6, and 70% scored 7-10; 6 months postoperatively, the scores were 0-3 for 55% of patients, 4-6 for 45%, and 7-10 for none. Only 2% of patients experienced moderate, temporary complications, with no serious complications or postoperative hematomas observed. CONCLUSION: The study supports the feasibility, safety, and efficacy of performing ACDF in an ambulatory setting, suggesting that with appropriate patient selection and surgical protocols, ambulatory ACDF can be more broadly implemented.

Improving stability of atlantoaxial fusion: a biomechanical study.

PURPOSE: The incidence of atlanto-axial injuries is continuously increasing and often requires surgical treatment. Recently, Harati developed a new procedure combining polyaxial transarticular screws with polyaxial atlas massae lateralis screws via a rod system with promising clinical results, yet biomechanical data is lacking. This biomechanical study consequently aims to evaluate the properties of the Harati technique. METHODS: Two groups, each consisting of 7 cervical vertebral segments (C1/2), were formed and provided with a dens axis type 2 fracture according to Alonzo. One group was treated with the Harms and the other with the Harati technique. The specimen was loaded via a lever arm to simulate extension, flexion, lateral flexion and rotation. For statistical analysis, dislocation (°) was measured and compared. RESULTS: For extension and flexion, the Harati technique displayed a mean dislocation of 4.12° ± 2.36° and the Harms technique of 8.48° ± 1.49° (p < 0.01). For lateral flexion, the dislocation was 0.57° ± 0.30° for the Harati and 1.19° ± 0.25° for the Harms group (p < 0.01). The mean dislocation for rotation was 1.09° ± 0.48° for the Harati and 2.10° ± 0.31° for the Harms group (p < 0.01). No implant failure occurred. CONCLUSION: This study found a significant increase in biomechanical stability of the Harati technique when compared to the technique by Harms et al. Consequently, this novel technique can be regarded as a promising alternative for the treatment of atlanto-axial instabilities.

Computational model predicts risk of spinal screw loosening in patients.

PURPOSE: Pedicle screw loosening is a frequent complication in lumbar spine fixation, most commonly among patients with poor bone quality. Determining patients at high risk for insufficient implant stability would allow clinicians to adapt the treatment accordingly. The aim of this study was to develop a computational model for quantitative and reliable assessment of the risk of screw loosening. METHODS: A cohort of patient vertebrae with diagnosed screw loosening was juxtaposed to a control group with stable fusion. Imaging data from the two cohorts were used to generate patient-specific biomechanical models of lumbar instrumented vertebral bodies. Single-level finite element models loading the screw in axial or caudo-cranial direction were generated. Further, multi-level models incorporating individualized joint loading were created. RESULTS: The simulation results indicate that there is no association between screw pull-out strength and the manifestation of implant loosening (p = 0.8). For patient models incorporating multiple instrumented vertebrae, CT-values and stress in the bone were significantly different between loose screws and non-loose screws (p = 0.017 and p = 0.029, for CT-values and stress, respectively). However, very high distinction (p = 0.001) and predictability (R2Pseudo = 0.358, AUC = 0.85) were achieved when considering the relationship between local bone strength and the predicted stress (loading factor). Screws surrounded by bone with a loading factor higher than 25% were likely to be loose, while the chances of screw loosening were close to 0 with a loading factor below 15%. CONCLUSION: The use of a biomechanics-based score for risk assessment of implant fixation failure might represent a paradigm shift in addressing screw loosening after spondylodesis surgery.

The challenge of measuring spinopelvic parameters: inter-rater reliability before and after minimally invasive lumbar spondylodesis.

BACKGROUND: The common manual measurement technique of spinal sagittal alignment on X-rays is susceptible to rater-dependent variability, which has not been adequately considered in previous publications. This study investigates the effect of those variations in the characterization of patients receiving lumbar spondylodesis. METHODS: General alignment parameters on pre- and postoperative X-rays were evaluated by four raters in 43 prospectively sampled patients undergoing monolevel spondylodesis. The Intra-class Correlation Coefficient (ICC) for each rater pair and all raters together was calculated for inter-rater reliability. For the operation-induced change of the sagittal alignment in every patient the Wilcoxon test was applied to compare for each rater separately. RESULTS: The ICCs were "good" (>0.75) to "excellent" (>0.9) for all raters together and for 45 of the 48 single rater pairs (93.75%). All revealed a significant increase of the addressed segmental lordosis and disc height and no significant change for spinopelvic parameters and sagittal vertical axis from pre- to postoperative. The lumbar lordosis showed a significant increase through the operation of +2.5° (p = 0.014) and +3.7° (p = 0.015) in two raters and no difference for the other ones (+2.1°, p = 0.171; -2.2°, p = 0.522). CONCLUSIONS: The pre- to postoperative change of lumbar lordosis revealed different significance levels for different raters, although the ICCs were formally good. Accordingly, the evaluation by only one rater would lead to different conclusions. Due to this susceptibility of alignment measurements to rater-dependent variability, the exact evaluation process should be described in every publication and the consistency of significant results be validated through multiple raters. TRIALS REGISTRATION: The trial was approved by the local ethics committee and listed at the national clinical trials register ( DRKS00004514 , date of registration: 08/11/2012).

Impact of Sarcopenia and Bone Mineral Density on Implant Failure after Dorsal Instrumentation in Patients with Osteoporotic Vertebral Fractures.

Background and Objectives: Age-related loss of bone and muscle mass are signs of frailty and are associated with an increased risk of falls and consecutive vertebral fractures. Management often necessitates fusion surgery. We determined the impacts of sarcopenia and bone density on implant failures (IFs) and complications in patients with spondylodesis due to osteoporotic vertebral fractures (OVFs). Materials and Methods: Patients diagnosed with an OVF according to the osteoporotic fracture classification (OF) undergoing spinal instrumentation surgery between 2011 and 2020 were included in our study. The skeletal muscle area (SMA) was measured at the third lumbar vertebra (L3) level using axial CT images. SMA z-scores were calculated for the optimal height and body mass index (BMI) adjustment (zSMAHT). The loss of muscle function was assessed via measurement of myosteatosis (skeletal muscle radiodensity, SMD) using axial CT scans. The bone mineral density (BMD) was determined at L3 in Hounsfield units (HU). Results: A total of 68 patients with OVFs underwent instrumentation in 244 segments (mean age 73.7 ± 7.9 years, 60.3% female). The median time of follow-up was 14.1 ± 15.5 months. Sarcopenia was detected in 28 patients (47.1%), myosteatosis in 45 patients (66.2%), and osteoporosis in 49 patients (72%). The presence of sarcopenia was independent of chronological age (p = 0.77) but correlated with BMI (p = 0.005). The zSMAHT was significantly lower in patients suffering from an IF (p = 0.0092). Sarcopenia (OR 4.511, 95% CI 1.459-13.04, p = 0.0092) and osteoporosis (OR 9.50, 95% CI 1.497 to 104.7, p = 0.014) increased the likelihood of an IF. Using multivariate analysis revealed that the zSMAHT (p = 0.0057) and BMD (p = 0.0041) were significantly related to IF occurrence. Conclusion: Herein, we established sarcopenic obesity as the main determinant for the occurrence of an IF after instrumentation for OVF. To a lesser degree, osteoporosis was associated with impaired implant longevity. Therefore, measuring the SMA and BMD using an axial CT of the lumbar spine might help to prevent an IF in spinal fusion surgery via early detection and treatment of sarcopenia and osteoporosis.

C-reactive protein in spinal surgery: more predictive than prehistoric.

PURPOSE: In spinal surgery, surgical site infections (SSI) after dorsal spondylodesis lead to severe short- and long-term complications. Despite various clinical and serological evidence, the detection of a postoperative SSI remains crucial. In this retrospective cohort study, we determined the prognostic value of C-reactive protein (CRP) kinetics after open reduction and dorsal spondylodesis in the development of a SSI. METHODS: We retrospectively analyzed 192 patients from 2016 to 2018 undergoing open reduction and dorsal spondylodesis with and without SSI for 20 days at a level-I trauma center and assessed their serological and clinical characteristics. RESULTS: On day 7 and 8 after surgery, patients who developed a SSI displayed significantly higher CRP levels. A second peak after the initial maximum of CRP and a restricted failure to decline as well as a maximum CRP of more than 225 mg/l predict an infectious complication with a sensitivity of 92.9%, and a specificity of 78.2%. A binary logistic regression leads to 85.7% and 69.7%, respectively. A one-phase decay exponential regression can predict 75.6% of the variance after the initial peak of CRP. CONCLUSION: Our study demonstrates a high value of postoperative CRP kinetics in SSI detection after dorsal spondylodesis. Moreover, we observed typical CRP levels with a specific course as indicative predictors that may facilitate an early SSI detection in clinical practice.

Current patterns of practice in spinal fusion for chronic low back pain-results from a survey at the German Spine Societies' Annual Congress 2018.

BACKGROUND: There is debate regarding criteria to select patients for lumbar fusion surgery who have chronic low back pain (CLBP) and corresponding degenerative changes, but without nerve root compression or neurogenic claudication. The aim of this study was to compare patterns in current practice. METHOD: A total of 143 printed questionnaires containing 51 questions were distributed at the German Spine Societies' (DWG) annual congress, 6-8 December 2018. RESULTS: We received 127 (89%) surveys (64 orthopedic surgeons and 63 neurosurgeons). Excluding the 22% who do not perform lumbar fusion for CLBP, 41.4% reported performing 1-10 lumbar fusion procedures for patients with CLBP per year, 20.2% reported 11-20, 10.1% reported 21-30 and 17.2% reported performing more than 50. A total of 44.9% of surgeons reported treating patients for at least 6-12 months conservatively before considering surgery; 65.6% considered postoperative pain reduction of 50-70% a treatment success; 32.6% of respondents believe that <50% of patients showed good outcomes after fusion in CLBP and only 15.5% believed that 70% or more showed good outcomes. Orthopedic surgeons perform more lumbar fusion surgeries than neurosurgeons (p = 0.05), fuse more lumbar segments than neurosurgeons (p = 0.02) and are more likely to suggest that their patients with CLBP cease smoking preoperatively (p = 0.02). CONCLUSIONS: Despite discouraging evidence in the literature, the majority of respondents still perform fusion surgery in patients with CLBP. The use of preoperative diagnostics and tests vary widely among spine surgeons.

[Peak timing for complications after spine surgery]. / Komplikationen im zeitlichen Verlauf nach einer operativen Wirbelsäulenversorgung.

BACKGROUND: Spine surgeries can pose many complications; however, peak timing of post-operative complications in the field of spine surgery is still not sufficiently delineated in the literature as yet. Nevertheless the determination of peak timing of post-operative complications has a significant influence on patient education and post-operative follow-up. MATERIALS AND METHODS: This single-center study analyzed the medical records of 1179 patients that underwent spinal instrumentation between 2010 and 2015 at 3, 6, 12, 24 and 36 months postoperatively. Complications were analyzed according to their time of onset. RESULTS: Of the 1179 patients included, 199 (16.9%) underwent revision surgery due to a complication. Peak timing for complications (72.9%) occurred within the first 3 months after surgery. Infection was the most common reason for revision surgery (42.7%) and most infections occurred within the first 3 months after surgery (early infections) (91.8% of infections). Peak timing for material failure occurred in the second post-operative year (46% of all detected prosthesis failures) (2.5% of all complications). DISCUSSION: Peak timing of post-operative complications post spinal instrumentation occurs as early on as within the first 3 months after surgery and post-operative infections remain the most common post-operative complication overall. Nonetheless, regular and long-term postoperative clinical and radiological follow-up is crucial, since in particular prosthesis failure has its peak timing in the second post-operative year.

[Hip-spine syndrome-current developments and state of the evidence]. / Hip-Spine-Syndrom ­ Aktuelle Entwicklungen und Evidenzlage.

The movements between the spine, pelvis and hip joints are coordinated to allow for a physiological balance of the upper body and the pelvis during sitting and standing. Degenerative changes or spondylodesis of the spine result in decreased pelvic mobility and can lead to increased rates of instability in the presence of total hip arthroplasty (THA). To reduce the risk of THA dislocation several authors have recently recommended functional radiographs of the spine and pelvis, as well as individual safe zones for THA components. The aim of this article is to summarize the current body of knowledge regarding the influence of spinopelvic alignment on THA and provide recommendations for everyday clinical practice.

[Battle: Indication for surgery in hip-spine syndrome-Hip or spine first? : The spine surgeon's view]. / Battle: Operationsindikation beim Hip-Spine-Syndrom ­ Die Hüfte oder die Wirbelsäule zuerst? : Die Sicht des Wirbelsäulenchirurgen.

Pathologies of the hip, spine and the lower extremity are often concomitant due to their three-dimensional anatomic and physiological interrelation. The real challenge lies in defining which of the pathologies is most relevant for the patient in terms of clinical symptoms and which organ should be treated first. The purpose of this review article is two-fold: Firstly, to explain the treatment dilemma of hip-spine syndrome to the treating physician. Secondly, to highlight the significance of spinal pathology in this context.

[Collected data on freehand technique instrumentation and literature comparison on fluoroscopic and CT-assisted navigation]. / Erhobene Daten zur Instrumentierung in Freihandtechnik und Literaturvergleich zu fluoroskopisch- und CT-gestützter Navigation.

BACKGROUND: A proven and frequently used surgical procedure in patients with idiopathic scoliosis (IS) is posterior transpedicular corrective spondylodesis using the freehand technique. Novel procedures with fluoroscopically and computed tomography (CT)-assisted navigation are presumed to be less risky and more accurate. OBJECTIVE: Is the freehand technique for IS safe with respect to screw-associated complications and intraoperative radiation exposure? MATERIAL AND METHODS: Prospectively collected data (2017-2018) from 39 consecutive patients (average age 18.7 years) with thoracic single curvature IS (61.7°â€¯± 13.9°) from a specialized scoliosis center were evaluated for the following parameters (mean ± standard deviation): total radiation product, fluoroscopy time, fused segments, operative time, blood loss and screw-associated complications. A comparison with data from the literature on intraoperative radiation exposure using navigation procedures was carried out. RESULTS: The total radiation product per patient was 71.7 ± 44.0 cGy*cm2, fluoroscopy time 17.4 ± 8.6 s. (7.8 segments), operative time 183.5 ± 54.2 min and blood loss 379.5 ± 183 ml. There were no screw-associated complications in the entire collective. Correction of the main curvature was 75.7%. Comparison of the data with index data from the literature showed a 1.25-12.5-fold higher radiation exposure for patients with fluoroscopically assisted navigation and 9.25-12.3-fold higher radiation exposure with CT-assisted procedures compared to the present results. CONCLUSION: The results of this study showed that with appropriate experience freehand positioning of pedicle screws is associated with comparable accuracy and less radiation exposure for patients than navigation procedures. With respect to the young age of patients, a radiation-induced long-term risk for malignant diseases should be taken into consideration.

[Posttraumatic deformity of the thoracolumbar spine]. / Posttraumatische Fehlstellungen der Brust- und Lendenwirbelsäule.

Posttraumatic kyphotic deformities of the thoracolumbar spine may result in significant clinical complaints. If conservative treatment is not successful, surgical correction of the kyphosis becomes an option. In contrast to degenerative deformities, posttraumatic kyphotic deformities are usual limited to few segments and can be treated with shorter constructs. The surgical strategy depends on the rigidity and the localization of the posttraumatic kyphotic deformity. In this respect purely posterior approaches and combined posteroanterior surgical approaches are available each with different advantages and disadvantages.

[Safety and efficacy of an electron beam melting technique-manufactured titanium mesh cage for lumbar interbody fusion]. / Sicherheit und Effektivität eines in Electron-Beam-Melting-Technik hergestellten Titan-Mesh-Cages zur intersomatischen lumbalen Fusion.

BACKGROUND: Electron beam melting (EBM) technique enables cage design changes such as the integration of guide rails on the cage surface or a 3D matrix for osseointegration. A change in manufacturing technique or design can lead to a decreased fusion rate or impaired applicability. OBJECTIVE: The aim of the present study was to evaluate cage handling, lordosis reconstruction capability, and fusion rate 1 year after surgery. MATERIALS AND METHODS: In this study, 50 patients who had undergone minimally invasive transforaminal lumbar interbody fusion (TLIF) or open posterior lumbar interbody fusion (PLIF) using an EBM-manufactured cage were retrospectively included. Fusion evaluation was based on routinely performed CTs and flexion-extension radiographs 12 months postoperatively. Lumbar and segmental lordosis were compared between pre-, post, and 1­year follow-up. Postoperative cage position was used for evaluation of cage handling. RESULTS: The radiological fusion rate was 97% at the 1­year follow-up. Two cages were placed into the endplates during surgery without an effect on fusion. In 31% of the cages, placement at the anterior third of the disk space was possible. Lumbar lordosis was improved by a mean of 5° and segmental lordosis by a mean of 4°. At final follow-up, 1° was lost in both parameters. No implant-associated complications were registered. CONCLUSION: The implant is safe and leads to a very high fusion rate. A learning curve results from the fact that the cage follows a defined radius dictated by the guide rails. Addressing this, exact placement at the anterior endplate can be achieved.

[Classification of the growth potential and consecutive treatment consequences for spinal deformities : When does what make sense?] / Klassifikation des Wachstumspotenzials und resultierende therapeutische Konsequenzen bei Wirbelsäulendeformitäten : Wann ergibt was Sinn?

BACKGROUND: Adolescent idiopathic scoliosis is a three-dimensional spinal deformity with a curvature in the frontal plane (Cobb angle) of more than 10° without known underlying causes. During the phase of rapid growth, scoliosis deterioration is likely with an increase in the Cobb angle as well as deterioration of the rotational component. Accordingly, knowledge of the different stages of human growth is crucial for the treatment of adolescent idiopathic scoliosis. CLASSIFICATION: There are a variety of classification systems helping to estimate the growth potential. In the following, on the one hand, the most common classification systems with regard to their availability, learning curve as well as accuracy with respect to the application in adolescent idiopathic scoliosis will be considered in more detail. On the other hand, based on the measured Cobb angles and the expected growth potential, a treatment algorithm for the management of adolescent idiopathic scoliosis will be presented.

[Etiology and significance of growth disturbances of the spine]. / Ätiologie und Bedeutung von Wachstumsstörungen der Wirbelsäule.

BACKGROUND: The majority of growth disturbances of the spine are acquired and their etiology is still unknown. Both scolioses and sagittal profile disorders are most commonly of idiopathic origin. ETIOLOGY: The etiology is multifactorial and besides genetic, hormonal and mechanical factors also metabolic components seem to be involved. The risk of progression of an existing deformity is particularly high during the pubertal growth spurt. Accordingly, regular clinical and radiological controls should be carried out in this vulnerable period. Recently, spinal deformities have been classified according to the time of diagnosis rather than according to their etiology, considering the increasing knowledge about the correlation between spinal and thoracic growth and the associated maturation of the lungs. Therefore, the term "early onset scoliosis" considers all deformities of the spine diagnosed before the age of 10 years. TREATMENT: In the case of failure of conservative treatment options, which have to be applied for as long as possible, definitive spinal fusion surgery should be delayed by the use of growth-sparing surgical techniques, aiming to achieve as normal pulmonary function as possible.

[Lumbar fusion-Indications and techniques]. / Lumbale Spondylodese ­ Indikationen und Techniken.

BACKGROUND: Lumbar spinal fusion is an established surgical technique in spine surgery. The goal of spinal fusion is a biomechanically lasting interbody union, which can be accomplished through different surgical approaches, implants and grafts. TECHNIQUES: The mainly surgical techniques used are: posterior lumbar fusion (PLF), posterior interbody lumbar fusion (PLIF), transforaminal lumbar interbody fusion (TLIF), anterior lumbar interbody fusion (ALIF), oblique lumbar interbody fusion (OLIF) and extreme lateral interbody fusion (XLIF). These procedures, their indications, complications and results are described in this narrative review.

Skeletal dissemination in Paget's disease of the spine.

PURPOSE: Paget's disease of bone (PDB) is a common skeletal disorder that is associated with locally increased bone turnover, skeletal deformity and pain. We report a case of skeletal dissemination in PDB of the spine. METHODS: Case report. RESULTS: A 46-year-old former professional athlete suffered from disseminated PDB throughout the spine and hips after various surgical interventions including spondylodesis, bone grafting and bone morphogenetic protein (rhBMP-2) administration. Only intravenous zoledronic acid prevented the further progression of skeletal dissemination, which was expressed by a normalization of (bone-specific) alkaline phosphatase levels. The biopsy obtained from the lumbar spine confirmed the diagnosis of PDB in the absence of malignant transformation. CONCLUSIONS: We outline skeletal dissemination as a possibly surgery-related complication in a patient with PDB in the lumbar spine. Bisphosphonates remain the treatment of first choice in PDB and surgical interventions should be considered very carefully.

Perioperative complications after surgical treatment in degenerative adult de novo scoliosis.

BACKGROUND: Degenerative adult de novo (DAD) scoliosis appears characteristically in the sixth or seventh decade with symptoms of severe back pain and radiculopathy or spinal claudication. The aim of this study was to enhance the knowledge of perioperative complications and detect possible risk factors in this selective DAD scoliosis surgery. METHODS: This retrospective study included only patients with DAD scoliosis undergone correction spondylodesis with previous failure of conservative treatment. Excluded were patients with other types of scoliosis and previous fusion surgeries. Patient epidemiological data, medical comorbidities and treatments were included. Intraoperative data and perioperative complications were documented. Analyses regarding early, late and no complications were undertaken. RESULTS: A total of 92 patients with a mean age of 67.29 ± 7.93 years and clinical follow-up visits of minimum 12 months were included. On average, 5.26 ± 2.24 segments were fused. Early complications (e.g. wound healing defects, paresis, screw loosing) occurred in 23 patients and often required a re-operation. Cardiac arrhythmias, pacemaker and coumarin derivative therapies were associated with increased perioperative complications. The transforaminal lumbar interbody fusion technique was associated with early complications. Adjacent segment failure occurred in 36% and was the major late complication. Twenty patients did not have any complications in the minimum follow-up. CONCLUSIONS: This study analysed a selective DAD scoliosis collective and its' surgical treatment outcomes. It identified numerous perioperative complications (adjacent segment failure, postoperative paresis and epidural hematoma) and multiple possible predisposing risk factors (e.g. operative techniques and anti-coagulation therapies). This here gained information raises awareness in preoperative patient selection and preparation. Further studies in DAD scoliosis and a risk-adjusted patient selection/preparation are needed to improve treatment quality and outcomes.

[Complications of the lumbosacral junction in adult deformity surgery : Indications and technique for posterior and anterior revision surgery]. / Komplikationen des lumbosakralen Übergangs bei Korrektur von Erwachsenendeformitäten : Indikation und Technik dorsaler und ventraler Revisionsoperationen.

BACKGROUND: Surgical correction of ASD can be challenging. The indication for surgery is individual and after specification of the therapeutic goals, detailed planning of the surgery is essential to achieve a good postoperative result. COMPLICATIONS AND INDICATION: The reasons for the comparatively high complication rate are well investigated and are often located at the lumbosacral junction. In addition to negative general factors like osteoporosis, especially undercorrection of the sagittal profile and insufficient lumbo-pelvic stabilization are causative. The main indications for revision surgery are a loss of lordosis due to progressive degeneration of the unfused segment L5/S1 or implant loosening and pseudarthrosis of a failed lumbosacral fusion. TREATMENT: The goals of revision surgery are restoration of the spinal balance as well as stable fixation and fusion in consideration of the general condition of the patient. Besides osteotomies in a previously fused region, especially reinstrumentation of the lumbosacral region can be challenging, although ala-ilium and ilium screws give the greatest stability. Additional anterior intersomatic cages allow for a better fusion rate, and, moreover they provide better lordozation. Each PLIF, TLIF, and ALIF cage has its own specific advantages. This article summarizes the reasons for complications of the lumbosacral junction after ASD correction and describes surgical principles for revision surgery.

[Degenerative cervical spine diseases: fusion vs. total disc replacement : What can be done when?] / Degenerative Halswirbelsäulenerkrankungen: Fusion vs. bewegungserhaltende Verfahren : Wann ist was sinnvoll?

Motion preserving surgery within the cervical spine may be performed by special implants, for example, c spine disc prosthesis or total disc replacement (cTDR), or by simple decompression of the cervical nerve roots. However, also fusion surgery may be performed with good results. Here, we summarize indications as well as contraindications for motion preserving techniques and indications for fusion surgery. cTDR is indicated in special cases of soft disc herniation, especially in younger individuals without signs of myelopathy. Posterior decompression may be used as an alternative, especially if anterior surgery is not possible. If degeneration is severe, in the presence of kyphosis, severe canal encroachment, instability, and in cases of myelopathy, cervical spine fusion seems to be the better way.