Evidence Summary of the nursing of spinal fixation in emergency adult patients with traumatic spinal cord injury / 中国实用护理杂志

Objective:To summarize the relevant evidence for the management of fixation in traumatic spinal cord injury patients, which provides a reference for the clinical care and care of patients.Methods:A systematic search was conducted for evidence related to spinal injuries from domestic and foreign databases, relevant guideline websites, etc. The types of literature were best practice, expert consensus, systematic review, evidence summary, clinical decision-making, etc. The search time was from the establishment of databases to January 31, 2022. Three researchers used the Multidimensional Systematic Review Tool to evaluate systematic review literature. Five researchers used the guideline research and evaluation tool AGREE Ⅱ to evaluate clinical practice guidelines, and used the Australian JBI Evidence-Based Health Care Center (2016) to evaluate expert consensus and expert opinion with the authenticity evaluation tool for expert opinions and professional consensus articles. And extracted and summarized evidence according to the subject.Results:Finally, 10 articles were included, including 4 clinical decision-making, 4 guidelines and 2 systematic evaluations. The 30 pieces of evidence include the assessment, prevention, cervical spinal fixation, and management after traumatic spinal cord injury.Conclusions:The evidence emphasizes the importance of standardized assessment of cervical risk factors in all emergency adult patients with traumatic spinal cord injury. In the emergency department, we need to improve the ability of spinal evaluation and fixation in patients with penetrating neck injury, optimize the timeliness process of emergency trauma, reduce the occurrence of potential complications, and improve patient outcomes.

Morphometric description of thoracic vertebral pedicles in adult Malawian cadavers and implications for transpedicula spine fixation / Descripción morfometrica de los pedículos vertebrales torácicos en cadáveres de Malawi adultos e implicaciones para la fijación transpedicular de la columna

SUMMARY: Thoracic pedicles are important during the surgical repair of the thoracic spine deformities. Individuals show considerable differences in the asymmetric dimensions of the thoracic pedicles across populations. The purpose of this study was to determine the thoracic pedicle size and angle in adult Malawian cadavers and to suggest the clinical implications associated particularly the transpedicular fixation of spinal deformities. Adult thoracic vertebra from undetermined sex specimens (n=227) from the skeletal collection in the Anatomy Division, Biomedical Sciences Department, College of Medicine, University of Malawi were measured to assess the pedicle width, pedicle height, chord length, transverse diameter, interpedicular distance, transverse and sagittal pedicle angles. The mean pedicle width was 4.71 ± 1.83 mm (left side) and 4.82 ± 1.77 mm (right side) and the mean pedicle height was 12.63 ± 2.61 mm (left side) and 12.60 ± 2.54 mm (right side). The mean transverse pedicle angle was 12.22 ± 2.30 degrees (left side) and 12.46 ± 2.34 degrees (right side). The mean sagittal pedicle angle was 9.24 ± 2.67 degrees (left side) and 9.40 ± 2.76 degrees (right side). The mean interpedicular distance was 16.67 ± 2.23 mm. Our sample population generally showed smaller thoracic pedicle dimensions than those reported in other populations. Prior knowledge of the variations regarding the thoracic pedicle dimensions is vital for the determination of the pedicle screw size and design. Most importantly the information helps surgeons during preoperative planning of the transpedicular thoracic spine fixation and radiological interpretation.

RESUMEN: Los pedículos de las vértebras torácicas son importantes durante la reparación quirúrgica de las deformidades de la columna torácica. Los individuos muestran diferencias considerables en las dimensiones asimétricas de las vértebras torácicas entre poblaciones. El propósito de este estudio fue determinar el tamaño y el ángulo los pedículos de las vértebras torácicas en cadáveres de Malawi adultos y sugerir las implicaciones clínicas asociadas a la fijación transpedicular de las deformidades espinales. Se midieron 227 vértebras torácicas de muestras de individuos de sexo indeterminado de la colección esquelética en la División de Anatomía, Departamento de Ciencias Biomédicas, Facultad de Medicina, Universidad de Malawi para evaluar el ancho del pedículo, la altura del pedículo, la longitud, el diámetro transversal, distancia interpedicular y ángulos pediculares transversales y sagitales. El ancho medio del pedículo fue de 4,71 ± 1,83 mm (lado izquierdo) y 4,82 ± 1,77 mm (lado derecho) y la altura media del pedículo fue de 12,63 ± 2,61 mm (lado izquierdo) y 12,60 ± 2,54 mm (lado derecho). El ángulo pedicular transverso medio fue de 12,22 ± 2,3 grados (lado izquierdo) y 12,46 ± 2,34 grados (lado derecho). El ángulo pedicular sagital medio fue de 9,24 ± 2,67 grados (lado izquierdo) y 9,40 ± 2,76 grados (lado derecho). La distancia interpedicular media fue de 16,67 ± 2,23 mm. La población de esta muestra mostró dimensiones de los pedículos de las vértebras torácicas generalmente más pequeñas que las informadas en otras poblaciones. El conocimiento previo de las variaciones con respecto a las dimensiones de los pedículos de las vértebras torácicas es vital para la determinación del tamaño y diseño del tornillo pedicular. Lo más importante es que la información ayuda a los cirujanos durante la planificación preoperatoria para la fijación transpedicular de la columna torácica y su interpretación radiológica.

Use of Cement-Augmented Percutaneous Pedicular Screws in the Management of Multifocal Tumoral Spinal Fractures

STUDY DESIGN: Retrospective case series observational study. PURPOSE: Cancer patients are often aged and are further weakened by their illness and treatments. Our goal was to evaluate the efficiency and safety of using minimally invasive techniques to operate on spinal fractures in these patients. OVERVIEW OF LITERATURE: Vertebroplasty is now considered to be a safe technique that allows a significant reduction of the pain induced by a spinal tumoral fracture. However, few papers describe the kyphosis reduction that can be achieved by combining percutaneous fixation and anterior vertebral reconstruction. METHODS: We studied 35 patients seen between December 2013 and October 2016 who had at least one pathological spinal fracture and multiple vertebral metastases. The population’s mean age was 67 years, and no patients included had preoperative neurological deficits. The patients underwent a minimally invasive surgery consisting of a percutaneous pedicular fixation with cement-enhanced screws and anterior reconstruction comprising kyphoplasty when possible or corpectomy in cases of excessive damage to the vertebral body. Back pain, traumatic local and regional kyphosis, and Beck’s Index were collected pre- and postoperatively, and at 3-, 6-, and 12-month follow-ups. RESULTS: Mean follow-up time was 13.4 months. Significant reductions in back pain (p<0.001) and local (p<0.001) and regional kyphosis (p=0.006) were found at the 6-month follow-up (alpha risk level <0.05). Beck’s Index was also significantly increased, indicating good restoration of the anterior vertebral height. By the final follow-up, no screws had fallen/pulled out. There were no infectious or neurological complications. CONCLUSIONS: Percutaneous cement-enhanced fixation for pathological fractures has proven a safe and efficient technique in our experience, enabling weak patients to rapidly become ambulatory again without complications. Further follow-up of the patients is necessary to assess the long-term effects of this technique and the continued quality of life of our patients.

Biomechanical Characteristics of Internal Fixation Methods for Treating Thoracolumbar Burst Fractures / 医用生物力学

Objective To analyze the biomechanical characteristics of 3 different posterior internal fixation methods for treating thoracolumbar burst fracture by three-dimensional finite element (FE) method. Methods The FE fixation models of normal thoracolumbar, short-segment posterior fixation (SSPF), short-segment posterior fixation with intermediate screws at fractured level (SSPFI) and long-segment posterior fixation (LSPF) were established, respectively. The biomechanical characteristics of L1 centrum and the adjacent intervertebral disc under 6 kinds of motion states (spinal flexion, extension, lateral bending and axial rotation), in normal thoracolumbar model and 3 fixation models were compared by FE analysis. Results L1 centrum equivalent stress distributions in normal thoracolumbar model, SSPF model, SSPFI model, LSPF model were 31.63, 13.41, 110.35, 13.17 MPa, respectively. The maximum equivalent stress of adjacent intervertebral disc in normal thoracolumbar model was 3.84 MPa, which was located in L1-2 intervertebral disc; the maximum equivalent stress of adjacent intervertebral disc in 3 fixation models was 0.41, 0.36, 0.40 MPa, respectively, which was all located in T12-L1 intervertebral disc. Conclusions Fixation in short segment of the fractured vertebrae could lead to an increase of stress in the centrum. The stress of the adjacent intervertebral disc in 3 fixation models was smaller than that in normal spinal model.

Morphometric Analysis of Lumbar Vertebrae in Tertiary Care Institutions in Telangana.

Background: Pedicle screw fixation has become an increasingly popular technique of instrumentation to treat spinal disorders by providing stable fixation in the treatment for degenerative diseases, trauma, deformities, and tumours of the spine. This method provides rigid support that allows surgeons to limit instrumentation to one or two motion segments, thus preserving maximum motion. This study was conducted to record the surgically relevant parameters of transverse pedicle isthmus width, transverse pedicle angle, spinal canal diameters and the approximate screw path length and to compare the results between male and female vertebrae and with those of similar studies in literature. Methods: 295 lumbar vertebrae in 61patients were analyzed based on transverse pedicle isthmus width, transverse pedicle angles, AP and transverse spinal canal diameters and approximate screw path length. The screw path length was measured in 184 vertebrae from 37 patients. The measurements were processed using SPSS v.15 software and analysed. Results: The mean transverse pedicle isthmus width was the least at L1 level (8.1 mm) and highest at L5 level (16.5mm). There was a significant difference between male and female vertebral diameters. Of the pedicles at L1, over 9% had a diameter of less than or equal to 5 mm, 15% had a diameter of less than or equal to 6 mm. The mean transverse pedicle angle was maximum at L5 level (26.80). The canal diameters are significantly lower than that of the western population. There was a change in pedicle angle and diameter in the same vertebra between right and left pedicles. Female vertebrae had a smaller pedicle diameter and screw path length but had a similar spinal canal diameter as compared to a male vertebrae. Conclusions: Significant differences in the morphometric parameters existed between genders and even between individuals of same gender. It is suggested that preoperative computed tomography scans of the patients must be evaluated to choose the appropriately sized implant and avoid inadvertent complications.

Sistema robótico guía para la inserción de tornillos en cirugía de fijación de columna / Robotic Guide System for Insertion of Screws in Spinal Fixation Surgery

El presente artículo muestra el diseño y operación de un primer prototipo de robot para la guía en la inserción de tornillos en cirugía de fijación de columna. Este tipo de cirugía, realizada normalmente de forma manual, puede producir muchas lesiones debido a errores humanos al momento de introducir los tornillos en las vértebras del paciente. Para evitar dichos errores se puede utilizar la tomografía computarizada, pero los resultados son mucho mejores si un robot asistente proporciona al cirujano el camino para la inserción del tornillo, según la imagen del tomógrafo. Este artículo muestra como utilizando un robot comercial de bajo costo se puede implementar un sistema que provee una solución funcional a este problema. Se implementó un software que permite definir la posición inicial y final del tornillo a ser introducido, sobre la imagen Dicom del paciente. Con esta información el sistema mueve el robot el cual posee un anillo que guiará al cirujano en la inserción final. Los resultados muestran un sistema bastante preciso ofreciendo al cirujano un camino seguro de inserción.

This article presents the design and operation of the first prototype of a robot, designed to guide the insertion of screws in spinal fixation surgery. This type of surgery, usually done manually, could cause many injuries due to human error at the moment of inserting the screws into the patient’s vertebrae. Computed tomography can be used to avoid such errors, but the results are much better if a robot assists and indicates the surgeon the path for the insertion of the screw, according to the image scanner. This article shows how using a commercial low-cost robot can be implemented in a system that provides a practical solution to this problem. A software that allows you to define the start and the end positions of the screw to be introduced on the Dicom image of the patient, was implemented. With this information the system moves the robot which has a ring that will guide the surgeon in the final insertion. The results show a fairly accurate system, giving the surgeon a safe path of insertion.

The effect of laminectomy spine fixation on restore function in treatment of patients with degenerative lumbar spinal stenosis / 中国基层医药

Objective To investigate the effect of laminectomy spine fixation on restore function in treatment of patients with degenerative lumbar spinal stenosis.Methods 60 patients with degenerative lumbar spinal stenosis were selected and divided into the observation group and control group with 30 patitents respectively.Patietns in the observation group were taken with laminectomy decompression of spinal fixation,while patients in the control were treated with part laminectomy decompression of spinal fixation.The treatment effect was observed.Results Compared with the preoperative data,postoperative neurologic recovery of the two groups were analyzed in A grade,B grade,D and E grade level terms after comparison analysis,the difference was statistically significant (χ2 =6.392,6.203, 7.213,7.382,all P 0.05 ).Conclusion Surgery is the treatment of degenerative lumbar spinal stenosis disease the most effective treatment.Measures taken by posterior spinal decompression discectomy,again with pedicle fixation and interbody fusion approach,can make a good prognosis,and isworthy of clinical use.

Clinical Outcome in Patients with Early versus Delayed Decompression in Cervical Spine Trauma

STUDY DESIGN: Prospective observational study. PURPOSE: To assess the clinical outcome after early versus late decompression for traumatic cervical cord injury. OVERVIEW OF LITERATURE: Traumatic spinal cord injury is common globally with the most tragic outcomes in the cervical spine. Although recent studies have shown that early decompression results in more favourable outcome, its authority is yet to be established. METHODS: Study on 98 patients with a traumatic cervical cord injury was conducted over a period of 5 years. The patients who were operated on within 24 hours of the onset of the primary injury (n=34) were classified as the early group, and those who were operated on after 24 hours of the onset of the injury (n=64) were categorized as the late group. The outcome of both the groups was assessed using the American Spinal Injury Association (ASIA) Impairment Scale (AIS) at the 6-month follow-up. RESULTS: The patients in the early group were operated on at a mean time of 18.4 hours (range, 13-24 hours) while patients were operated on at a mean time of 52.7 hours (range, 31-124 hours) in the late group. At the 6-month follow-up, 7 (23.3%) in the early group and 5 (8.7%) in the late group showed >2 grade improvement in the AIS. CONCLUSIONS: The results of patients undergoing decompression within 24 hours of the injury are better than those who are operated on later. An attempt should be made to decompress the traumatic cervical spine early in all possible cases.

Finite Element Model of A-P Instrimentation in Thoracolumbar Burst Fracture / 대한척추외과학회지

STUDY DESIGN: Finite element models of the thoracolumbar spine with various techniques used in spinal fractures were developed to investigate the effects of fixation techniques on spinal stiffness. OBJECTIVES: To develop finite element models of the thoracolumbar spine with various fixation techniques to compare their spinal stiffness characteristics. SUMMARY OF LITERATURE REVIEW: Various anterior and posterior instrumentation options have been applied to stabilize unstable burst fractures of the thoracolumbar spines. The biomechanical effects of different instrumentation options on spinal stability are still unknown. MATERIALS AND METHODS: The 3-D finite element model of the human thoracolumbar spine (T12-L2) was reconstructed from CT images. Various anterior and posterior instrumentation techniques, 1-rod and 2-rod anterior fixations, anterior fixations with posterior fixation, and posterior fixation only, were virtually performed in the developed model with a long cage after corpectomy. Five loading cases, axial compression, flexion, extension, lateral bending, and torsion, were applied up to 1000 N and 10 Nm, respectively. The axial displacement and the rotations of T12 with respect to L2 were measured to analyze the stiffness of the spinal segments. RESULTS: The posterior fixation technique increased the stiffness of the spine the most. The addition of an anterior rod from 1 to 2 increased the stiffness significantly without posterior fixation, but little effect was found with posterior fixation. Among all fixation techniques, the inter-segmental stiffnesses were similar to those of the intact model in torsion cases. In the other loading cases, the inter-segmental stiffnesses were much greater than those of the intact models. CONCLUSIONS: Finite element models of the thoracolumbar spine were developed with various fixation methods. The intact models were validated with in-vitro experimental tests. The posterior fixation technique had a more significant effect on spine stability than did anterior fixation. And anteroposterior fixation techniques provided increased spinal stiffness

Lateral Extracavitary Approach to Thoracic Cord Tumor and Disc Herniation

We treated 9 patients of ventrally or ventrolaterally located thoracic lesions with lateral extracavitary approach, six cases of ventrally located thoracic cord tumor, and three cases of central disc herniation. After operation, the patients' neurological symptoms were effectively improved and there were no signigicant postoperative c omplications. Compared to transthoracic approach, this approach is less invasive and enable simultaneous vertebral reconstruction and posterior spinal fixation. Although relatatively small in number experienced, lateral extracavitry approach is considered to be a alternative method to transthoracic approach for the treatment of ventrally and ventrolaterally located thoracic lesion.

Pedicle Screw Fixation of the Thoracic Spine

Pedicle screw instrumentation has proven to be reliable and effective in the surgical management of lumbosacral disorders, yet the appropriateness in the thoracic spine is not known. To evaluate the accuracy of the pedicle screw placement in the surgical management of the thoracic spinal disorders and to establish its risks and benefits, a prospective study was designed. One hundred and two thoracic pedicle screws in 22 consecutively treated patients were investigated after surgery by computed tomography scans. Twenty-one(20.5%) screws penetrated the pedicle cortex or the vertebral body anterior cortex. Three screws penetrated the medial cortex of the pedicle by the averages of 2mm to a maximum 4mm. Fifteen screws(14.7%) penetrated laterally by an average of 1.5mm. There were 3 screws of caudal penetration. The screws inserted at T1-T8 revelaed a higher penetration rate than those inserted at T9-T12(35.7% versus 14.7%)(p<0.05). Hardware failures causing the preoperative defor-mity were seen in a patient to whom half the cephalad screws were laterally misplaced. However, there were no major neurologic complications. Although segmental pedicle screw fixation of the thoracic spine requires meticulous measures and considerable experience, it was therefore can be considered as a safe and effective method for stabilizing the thoracic spine.

Pitfalls, Errors, and Complications in the Transpedicular Screw Fixation Surgery / 대한정형외과학회잡지

No abstract available.