View clinical trials related to Cervical Myelopathy.
Filter by:This study aims to establish the specialist consensus of the integration of posterior approach surgical treatment and postoperative intensive recovery management for CSM or OPLL patients, and verify its safety, practicability and reliability.
Deep learning technology has been used increasingly in spine surgery as well as in many medical fields. However, it is noticed that most of the studies about this subject in the literature have been conducted except of the cervical spine. In this study, we aimed to demonstrate the effectiveness of the deep learning algorithm in the diagnosis of cervical myelomalacia compared to conventional diagnostic methods. Artificial neural networks, a machine learning technique, have been used in several industrial and research fields increasingly. The development of computational units and the increasing amount of data led to the development of new methods on artificial neural networks
The objective of this study is to evaluate the safety and performance of occipito-cervico-thoracic spine surgery using posterior fixation as measured by reported complications, radiographic outcomes, and patients reported outcomes (PROs).This study is being undertaken to identify possible residual risks and to clarify mid-to long-term clinical performance that may affect the benefit/risk ratio of posterior fixation systems.
Rationale: Cervical degenerative disc disease (CDDD) is a common cause of cervical radiculopathy, myelopathy or myeloradiculopathy. Surgical treatment is indicated when conservative therapies do not provide sufficient relief or when neurological complaints are progressive. The main surgical techniques are anterior cervical discectomy with (ACDF) or without fusion (ACD), whereas both techniques result in high fusion rates. Short term outcomes of surgery show good clinical results. Long term follow-up shows a drop-in satisfaction rates, often due to the occurrence of new complaints. Pathology is often located at levels adjacent to the previously operated segment, known as adjacent segment disease (ASDis). This is thought to be the results of loss of motion at the previously operated and fused segment. Anterior cervical discectomy with arthroplasty (ACDA) is developed in an effort to reduce the incidence of ASDis by preserving physiological motion in the operated segment. Objective: To investigate physiological motion of the cervical spine the investigators will analyze motion patterns at the long-term in patients who underwent surgical treatment for CDDD, either ACD or ACDA. Study design: Fundamental research. This is a prospective study that includes a cohort of patients previously operated in the setting of a randomized controlled trial. Study population: Adult patients with an indication of surgical treatment for cervical radiculopathy as a consequence of CDDD were enrolled in an RCT between 2007 and 2014 and assigned to undergo ACD or ACDA. Flexion and extension cinematographic recordings of the cervical spine were performed, with the last one at one-year follow-up. The majority of patients in the ACDA group (80%) showed a normal sequence of segmental contribution, which was not the case in the ACD group. This cohort will now be asked to participate in the long-term follow-up study assessing the motion patterns 6-13 years after ACD or ACDA surgery. Intervention: One flexion and extension cinematographic recording of the cervical spine and will be made. Main study parameters/endpoints: The sequence of segmental contributions in sagittal rotation during flexion and extension of the cervical spine will be assessed in the long-term follow-up of surgical treatment. Secondary outcomes will be to assess the amount of degeneration based on the Kellgren Score (KS) and the segmental range of motion (sROM). Long term clinical outcomes will be assessed according to VAS, NDI, SF-36 and Odom's criteria. Patients will be asked whether they have new neurological symptoms and whether they have had a re-operation. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Participants receive cinematographic recordings once. The amount of radiation is a negligible risk. There will be no health benefits. There will be no follow-up.
The investigators objective of this research is to compare activity monitor results with standard of care (SOC) question-based outcome measures for degenerative cervical myelopathy patients before and after treatment with decompression. Understanding of the relationship between activity monitor data and question-based outcome measures in the context of degenerative cervical myelopathy will improve our understanding of the disease and limit the effort to diagnose and monitor it.
The study will consist of two parts: - In Study A, objectively assessed physical activity, gait, balance, range of movement of specific joints during walking and neurophysiological findings between patients with cervical spine stenosis (CSS) without myelopathy who will be treated conservatively and patients with stenosis and signs of myelopathy who are candidates for surgical Treatment will be compared. - In Study B, the 6-month changes in the same outcomes in patients treated conservatively (from the first specialist consultation until 6 months later) and in patients treated surgically (preoperative day and 6-month post-operatively) will be quantified.
Radiculopathy and/or myelopathy due to cervical degenerative disc disease are increasingly common pathologies in our ageing population. Both can be treated non-surgically or surgically. The most commonly used neurosurgical treatment is anterior cervical discectomy with or without fusion. The goal is to achieve neural decompression of the operated segment in both procedures. However, due to this fusion and reduced mobility of the cervical spine at the level of the intervention, adjacent segment disease may occur. This can lead to new symptoms like radiculopathy and/or myelopathy at an adjacent level which requires reoperation in about 2/3 of patients. Reoperations are burdensome for patients and have a socio-economic impact due to the costs of hospital admissions, operations, and secondary costs such as work-absenteeism. The primary objective of this retrospective study is to determine the occurrence of adjacent segment disease after a single- or multi-level anterior cervical discectomy with fusion procedure for radiculopathy and/or myelopathy in the investigators' centre and to compare this to the incidence in literature. The investigators also look at the risk of adjacent segment disease after different anterior surgical techniques, such as anterior cervical discectomy, anterior cervical discectomy with fusion and plating, and corpectomy. As a secondary outcome they aim to determine risk factors predicting the occurrence of adjacent segment disease.
This research study is being conducted to help improve the pre-operative, intra-operative, and post-operative course for patients and enhance recovery.
Model of this study is a combined both retrospective chart review and follow up survey. Data of 4 hospitals will be used to find out the efficacy of conservative treatment in cervical myelopathy.
Cervical degenerative disease is an almost universal concomitant of human aging. Over half of the middle aged population has cervical spondylosis. This condition is often asymptomatic, but in 10% to 15% of the cases, it is associated with, or progresses to, neural compression. Cervical spondylotic radiculopathy is a condition due to a root nerve compression while cervical spondylotic myelopathy is a condition due to a medullar cord compression. Root nerve or medullar cord can be compressed either by a soft disc extrusion or by arthrosis due to a degenerative disc. Anterior cervical discectomy and fusion is the standard surgical treatment of the cervical radiculopathy or cervical myelopathy when non-surgical treatment failed. The aim of this surgery is to provide a neurologic decompression associated to spine stabilization. Decompression is achieved by removal the disc and soft disc extrusion if present. Stabilization is supported by implantation of material in the interbody space like bone or cage with bone substitute. This cage provides a bone fusion matrix and an intervertebral height and stability support at the same time. To enforce the stabilization, a plate can be screwed on the anterior cervical vertebral wall. The HRCC® cage is a stand-alone cage with two rotary blades which penetrate into vertebral bone so there is no need to implant plate. One of the reasons why treatment can fail is the pseudarthrosis that is fusion failure. It mays occur as an increase of axial pain or radicular pain. The aim of this study is to demonstrate similar results on bone fusion in the surgical treatment of cervical radiculopathy or myelopathy with HRCC cage used in anterior cervical discectomy and fusion compared with other technics based on a prospective cohort study and a literature review. As secondary outcomes we will search to correlate pseudarthrosis and quality of life impact, to identify complications and to describe the sagittal balance evolution of the cervical spine. To this end, in the context of standard practices, patients who consult the neurosurgical team of the REIMS University Hospital Center with a diagnosis of a cervical radiculopathy or myelopathy with non-surgical treatment failure needing a one level anterior cervical discectomy and fusion will be proposed to be included during this pre-operative consultation. There will be pre-operative collected data about demographic data, pseudarthrosis risk factors, pre-operative symptomatology, quality of life data and pre-operative imagery data. Per-operative and hospitalization data are collected as well with surgery duration, blood lost, surgical technic, pain measurement and hospitalization duration. Next, follow-up starts with consultations at 6 weeks, 6 months and 12 months and pain, quality of life and classic X-Ray data are collected to be compared with pre-operative data. And Imagery data are collected in order to identify presence or absence of pseudarthrosis with dynamic X-Ray and CT-scan at 6 months and 12 months. A statistical analysis of the data is next performed to found significant results.