View clinical trials related to Spinal Cord Diseases.
Filter by:Individuals with HTLV-1 secondary myelopathy (HAM/TSP) may have motor and sensory alterations, which may result in reduced functional performance and consequent risk of falls. The aim of the study is to verify the therapeutic effect of a Pilates exercise program on functional performance and risk of falls, when compared to task-oriented training, of people with HAM / TSP. This is a randomized, crossover clinical trial performed with individuals with HAM / TSP who are attended at a referral center who is able to perform gait whether or not to use a walking aid. Amputees, with psychiatric disorders, rheumatic or orthopedic diseases and other associated neurological disorders, which could influence the balance and functional mobility, as well as pregnant women, were excluded. Participants will be submitted to the initial evaluation of functional mobility, balance, gait balance, fatigue, gait endurance, sphincter changes and questioned about the occurrence of falls in the last three months and will answer a semi-structured questionnaire about their conjugality. They will be allocated randomly to two groups. One will perform the Pilates Method protocol and the other task-oriented training. The first group, called test-control group (GTC), will initiate the protocol with exercises of the Pilates method; the control-test group (GCT) will initiate the task-oriented training protocol. A p <0.05 will be considered a statistically significant difference.
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
This is a multi-center, prospective, blinded, pilot feasibility study to evaluate improvement in sensory and motor function with sham.
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.
Acute spontaneous Spinal Cord Infarctions (SCI) are an uncommon cause of myelopathy (5%), but their prognostic is heterogeneous and frequently severe. Positive diagnosis is difficult, one quarter of initial MRIs are normal. Differential diagnosis with other transverse myelopathy causes is a common issue. As in cerebral stroke, there are multiple causes and mechanisms in spontaneous SCI, often difficult to clearly establish. There are also clinical and radiological patterns, sometimes misleading, according to vascular territory and its expanse. Due to its scarcity and heterogeneity, improving knowledge and medical care remains difficult. Medical care is still badly codified in medical literature. Recently, diagnostic criteria have been proposed to better identify SCI, provide earlier care and homogenize future research. External validity and reproduction of these new criteria among acute myelopathies are still to be validated. While there is no established medical treatment in the initial care of spontaneous SCI, some case reports show successful treatment with IV thrombolysis. Given the severe prognosis, conventional treatment of strokes (thrombolysis, anticoagulant and antiplatelet), could be considered on an individual scale, in a specific protocol. A better knowledge of radio-clinical and security factors are necessary to support this approach. In order to respond to these difficulties, a retrospective cohort will allow us to better define epidemiological, clinico-radiological and prognostic features of spontaneous SCI. It lays the foundation of a possible prospective multicentric cohort, necessary for specific therapeutic studies.
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.
Use of cervical orthosis after instrumented posterior cervical spinal surgery is still widely practiced even though modern fusion techniques likely do not require additional stabilization from an external orthosis. This is a single, centre randomized, non-blinded equivalence trial. Patients undergoing multi-level posterior cervical fusion will be randomized to cervical orthosis (CO group) or no orthosis (NO group). Immediately following surgery patients in the CO group will be fitted with a Philadelphia collar prior to being transferred to the recovery room. On the patient ward a physiotherapist will fit the patient with a Cervimax/Aspen/Miami J collar which will be worn at all times for 6 weeks according the standard of care. The NO group will have no specific precautions applied to their neck range of motion. Outcomes will be assessed prior to surgery, on the second day after surgery, and at 2, 4, 6 and 12 weeks after surgery. The primary outcome will be neck pain score on the numerical rating scale (ranging from 0-10 with higher scores indicating more severe pain) during the first 4 weeks after surgery with an equivalence margin of 2.0 points. Secondary outcomes will be neck disability, general health, treatment satisfaction, pain medication use, adverse events, neck range of motion, time meeting discharge status, and compliance in wearing the collar.
Up to 15 able-bodied individuals will participate in one testing session to evaluate the effectiveness of the A-FES system. Up to 20 individuals with SCI will participate in 12 sessions of A-FES therapy. At each session, participants will stand on a force plate (Accu Sway, AMTI, USA) with the A-FES system (Compex Motion II, Compex Motion, Switzerland) donned. The centre of pressure (COP) will be calculated in real time using the force plate data. The calculated COP will be presented to participants on a monitor and they will be instructed to shift their COP in the indicated directions as represented by a cursor (i.e. training with visual feedback). The intensity of electrical stimulation provided by the A-FES system will be regulated by the measured COP in a closed-loop manner. In this study we propose to develop and evaluate the clinically-feasible A-FES system for the training of standing balance.
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.
Veterans are at heightened risk of developing cervical spondylotic myelopathy (CSM) from rigors of military service. Balance and posturography are negatively affected in CSM, but require expensive equipment, and extensive training of personnel for data acquisition and interpretation. The Virtual Environment TBI Screen (VETS) is a simple and inexpensive construct that could be implemented as an aid in diagnosis and as an objective means to compare treatment modalities and track recovery. The goal for the SPiRE is to generate the critical data to support rigorous Merit studies of posturography for assessments of clinical course in the treatment and rehabilitation of CSM. The investigators' ultimate goal, if the SPiRE is successful, is to phase in objective posturography assessments as VA standard of care in CSM.