View clinical trials related to Spinal Cord Diseases.
Filter by:The goal of this pilot clinical trial is to test the safety and preliminary performance of the ZetaFuse Bone Graft in patient requiring fusion of the C3-C7 vertebral bones due to pain or loss of neurological function. Participants will be treated with ZetaFuse during surgical intervention to reduce pain and the loss of neurological function.
In the normal healthy population, the sagittal alignment can be divided into four types based on the size of the sacral slope and lumbar lordosis. The effect of this sagittal profile especially type 2 with almost straight lordosis on the clinical outcomes of patients after mini-open discectomy is unknown. In this study, the results of patients who underwent mini-open discectomy were evaluated according to sagittal profile types of the patients.
Every year, thousands of Canadians are diagnosed with degenerative cervical myelopathy (DCM), a form of non-traumatic injury caused by spinal cord compression in the neck. While DCM causes a range of symptoms, one of the most disabling is loss of hand dexterity. Surgical decompression is standard treatment for DCM, but reduced dexterity often remains. The investigators have developed a portable, easy-to-use dexterity assessment tool for measuring hand dexterity. Hand function is often assessed using tools incapable of measuring subtle changes in function, limiting a clinician's ability to monitor progression of or recovery from a disease over time. The hope is that if subtle changes in function are identified early, leading to an early DCM diagnosis and treatment, this may prevent patients from experiencing a greater loss of hand function. The goals of this study are to determine the relationship between dexterity and myelopathy severity, as well as to establish the validity and reliability of the dexterity tool. This will be done by assessing dexterity using the dexterity tool in DCM patients (to determine the relationship between disease severity and dexterity, and measure validity) and healthy participants (to establish reliability).
So far, therapies have limited success in functional recovery in adults with chronic SCI. By introducing remote cognitive multisensory rehabilitation (CMR), which has shown significant functional improvements due to neurological recovery when delivered in-person, transformative results that (i) provide a potentially effective new therapy within the healthcare system, accessible to more patients, and (ii) demonstrate brain function changes alongside improved function in chronic SCI are anticipated. The results will inform and justify a large scale federally funded clinical trial.
This study is a single blinded prospective randomized monocentric study examining the effectiveness of transcutaneous auricular vagus nerve stimulation paired with rehabilitation and low frequency/antidromic stimulation of the pelvic somatic nerves. The investigator hypothesize that treatment using transcutaneous auricular vagus nerve stimulation will improve gait recovery in spinal cord injured participants already treating by rehabilitation and pelvic nerves neuromodulation.
Over one million Americans rely on their upper extremities for manual wheelchair propulsion. Shoulder overuse injuries are prevalent among manual wheelchair users and these injuries often result in shoulder pain. Severe shoulder pain can lead some wheelchair users to transition from manual to powered mobility, complicating transportation, and reducing independence in activities of daily living. This project will expand the understanding of a new wheelchair design that allows better positioning of the hand rims and allows for different gearing. The investigators will study steady-state propulsion efficiency with different gear ratios and develop a new system with multiple gear ratios. The advanced gearing will allow for a low gear when initiating movement, going uphill, or when moving over carpet, and then a higher gear option for movements on hard flat level terrain. This system has the potential to dramatically improve shoulder ergonomics and reduce pain in many future manual wheelchair users.
Study team will plan a prospective, randomized control trial using our institution's spine clinical outcomes registry. Eligible patients undergoing ACDF (see inclusion criteria listed below) will be randomized to an Intervention or Control Group, which will differ according to the interbody cage used during the procedure. In the Intervention Group (100 patients), Medtronic Titan Endoskeleton TCS zero-profile, stand-alone interbody cages with nanoLOCK osseointegrative technology will be implanted at each treated level. In the Control Group (100 patients), patients will receive an alternative interbody cage system that does not employ nanoLOCK ossteointegrative technology. Interbody cages used in the Control Group (along with the decision to apply anterior plate fixation) will be determined according to surgeon preference. There will be no blinding to the type of implant used. Standard demographic and procedural variables will be collected for all patients (including history of diabetes, tobacco, use, prior use of oral corticosteroids, number of levels fused, and presence of bicortical screw placement). Clinical and radiographic outcomes in the Intervention and Control Groups will be directly compared.
Amyotrophic lateral sclerosis (ALS) is a serious rapidly progressive disease of the nervous system. The average survival from the time of diagnosis is two to three years. The patient physical and psychological sufferings in ALS are immense, and apart from Riluzole, there is no effective treatment. Care of advanced ALS have an estimated cost of 4-8 million NOK per year. Perhaps the most challenging topic of ALS care is the decision to extend ventilation support into the stages of disease that require treatment both during day and night. In these cases, treatment is clearly life-sustaining and although quality of life may be maintained, the burden of caregiving imposed upon family or health care workers is huge, regardless of tracheostomy (TIV) or non-invasive (NIV) modality. The present study is a longitudinal questionnaire study in Norway measuring overall quality of life, health-related quality of life, and disease-specific quality of life in ALS patients, partners and children before and after the introduction of life sustaining ventilation support. The investigators aim to increase the knowledge on how life-sustaining ventilation support with NIV or TIV affects the quality of life in ALS patients, life partners and children. The results from the study may provide crucial information for clinicians and patients on one of the most difficult ethical issues of ALS treatment. The investigators anticipate that this information will facilitate a shared decision making processes, weighing benefits and disadvantages in a wider perspective.
The goal of this clinical trial is to evaluate the effect of transcutaneous spinal cord stimulation on blood pressure in individuals with an acute spinal cord injury (within 30 days of injury). Blood pressure instability, specifically orthostatic hypotension (a drop in blood pressure when moving lying flat on your back to an upright position), appears early after the injury and often significantly interferes with participation in the critical rehabilitation time period. The main questions it aims to answer are: 1. Can optimal spinal stimulation increase blood pressure and resolve orthostatic symptoms (such as dizziness and nausea) when individuals undergo an orthostatic provocation (a sit-up test)? Optimal stimulation and sham stimulation (which is similar to a placebo treatment) will be compared. 2. What are the various spinal sites and stimulation parameters that can be used to increase and stabilize blood pressure to the normal range of 110-120 mmHg? Participants will undergo orthostatic tests (lying on a bed that starts out flat and then moved into an upright seated position by raising the head of bed by 90° and dropping the base of the bed by 90° from the knee) with optimal and sham stimulation, and their blood pressure measurements will be evaluated and compared.
This project will investigate the effect of spinal cord transcutaneous stimulation on blood pressure in individuals with a chronic spinal cord injury who experience blood pressure instability, specifically, orthostatic hypotension (a drop in blood pressure when moving from lying flat on your back to an upright position). The main questions it aims to answer are: 1. What are the various spinal sites and stimulation parameters that normalize and stabilize blood pressure during an orthostatic provocation (70 degrees tilt)? 2. Does training, i.e., exposure to repeated stimulation sessions, have an effect on blood pressure stability? Participants will undergo orthostatic tests (lying on a table that starts out flat, then tilts upward up to 70 degrees), with and without stimulation, and changes in their blood pressure will be evaluated.