121 Clinical Trials for Various Conditions
This protocol is designed to study Orthofix regulatory approved and commercially available spine devices to generate Real World Evidence (RWE) of device safety and performance in the treatment of patients with spine injuries and/or disorders following the local medical standard of care. The clinical data generated from this study will support compliance to global regulatory requirements including but not limited to the European Medical Device Regulation (EU MDR) for the applicable devices.
The purpose of this study is to evaluate a new control (i.e., the vision-guided shared control) for a wheelchair-mounted assistive robotic manipulator among powered wheelchair users. This study will consist of a questionnaire about general demographics, health information, and previous experience with assistive technology. Several tests will also be administered to test upper extremity function and ability as well as to test spatial orientation and visualization ability. Participants till then undergo a training phase with the assistive robotic manipulator mounted on a table to assess if they will be eligible for participation in the study. Eligible participants will move on to a second training phase where they will be asked to learn and practice slightly more complex tasks while using the vision-guided shared controller. After this training the assistive robotic manipulator will be mounted to the participants wheelchair and they will be asked to complete a number of everyday tasks from a task list. At the conclusion of the study, researchers will conduct a brief semi-structured interview with each participant and obtain more insight on how participants perceive the ease-of-use and usefulness of the vision-guided shared control.
The investigator is evaluating data stored on the Collaborative Community Clinic data repository (IRB #201811032). Researchers seek to evaluate the effectiveness of the Collaborative Community Clinic (CCC), an occupational therapy student experiential learning clinic for uninsured or under-insured people with spinal cord injury and disease (SCI/D), using participants' initial and follow-up assessment batteries.
The purpose of this project was to develop and pilot test a self-management program targeted toward individuals with Spinal Cord Injury/Disease (SCI/D) who are current parents or who are considering becoming parents. This Parenting Self-Management Program (PSMP) will allow parents to identify their goals for successful family participation and provide a structure for professionals to use when working with parents with SCI/D to best meet their needs. A draft PSMP was assembled by members of the research team. This draft was reviewed by experienced parents with SCI/D and professionals who work with individuals who have SCI/D through key informant interviews or focus groups. The feedback was used to modify the draft program and the PSMP was pilot tested with a group of 10 individuals with SCI/D who are new parents, newly injured or who want to improve their participation in parenting activities.
* Patients with spinal cord injury (SCI) usually breathe without any mechanical assistance, but significant breathing problems occur often during sleep, either because the upper airway closes (obstructive sleep apnea; OSA), or because of weakness/paralysis of the breathing muscles. These problems often go unrecognized, as SCI patients face logistical barriers that cause them to refuse appropriate testing in sleep laboratories. We have devised a strategy for diagnosing sleep-disordered breathing in the patient's home, using placement of noninvasive devices that monitor breathing overnight. This project is designed to test the feasibility and utility of this strategy. * After collecting baseline data on symptoms and medical events for four months, the home-based studies are performed noninvasively with FDA-approved devices: a type III sleep system and a recording oxygen saturation/ transcutaneous carbon dioxide monitor. If these studies identify sleep-disordered breathing, noninvasive ventilatory support is prescribed according to standard clinical practice. Over the following twelve months, the subjects monitor their symptoms daily, and answer quality-of-life questionnaires every three months. After 3, 6, and 12 months, blood tests are performed to measure blood sugar and cholesterol/lipids. Data is downloaded from the ventilator device to monitor compliance and ventilator performance. This study is designed to determine the prevalence of sleep-disordered breathing in SCI, the feasibility of home-based testing to establish the diagnosis, and the short term effects on symptoms, quality-of-life, and associated conditions (glucose intolerance, blood lipid disorders).
This study will use a randomized controlled design with an active attention control group to evaluate an intervention intended to reduce social isolation and loneliness in persons with SCI/D. The intervention, Caring Connections, is a peer-based intervention which is important because peers with SCI/D play an important role in improving quality of life, mental health, and social health in persons with SCI/D.
People with spinal cord injuries (SCI) are particularly prone to complications from excessive sitting, because many are not able to stand without support. Excessive sitting after SCI is believed to contribute to pressure injuries, pain, osteoporosis, joint stiffness, spasticity, and worsening bowel and bladder function. The VA has developed, patented, and licensed a mobile manual standing wheelchair (MMSW), and the investigators believe the key feature of being able to wheel around while in a standing position will dramatically change how paralyzed Veterans function in their home and community. If this expanded utility is realized, persons with SCI may naturally spend more time standing and less time sitting. To test these ideas, Veterans with SCI will be randomized to using one of two manual standing wheelchairs at home and in the community for two months.
The purpose of this three-year study is to determine the prevalence and incidence of the different types of cardiac disease and ECG abnormalities in SCI patients. Study goals are: (i) delineation of the specific types of heart disease that occur in the SCI population as manifested both pre-clinically and clinically and (ii) demonstration of their association with ECG findings. This will enable validation of scores and algorithms using the inexpensive and widely available ECG for the prevention of heart disease as well as it's early treatment and rehabilitation in SCI patients. The findings will be helpful in demonstrating what cardiological tests are appropriate for the mandated annual evaluation of SCI patients.
This is a randomized controlled trial to study a nutrition education intervention in individuals with spinal cord injuries both in the acute rehabilitation setting (n = 100) and the community setting (n = 100). Participants in the treatment group will receive six interactive nutrition lectures based upon a successful program that has been used in older adults titled "Eat Smart, Stay Well". The goals of intervention are to improve whole-grain, fruit and vegetable, and low-fat dairy intake and reduce fat and saturated fat intake. Secondary outcomes will include improvements in waist circumference of body mass index and some biomarkers such as cholesterol and blood sugar.
The purpose of the study is to assess screw deviation from pre-planned trajectory using the Mazor X robotic system in patients undergoing posterior thoracolumbar arthrodesis procedures between T2-S1.
The purpose of this study is to determine if playing a virtual reality walking game can help improve neuropathic pain in adults with incomplete spinal cord injury.
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.
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.
Spinal cord injury following posterior decompression in patients suffering from chronic, cervicothoracic spinal cord compression is a known complication with multiple etiologies. Currently, intraoperative neuromonitoring (IONM) remains the gold standard for predicting and preventing post-operative deficits from these procedures. However, there is a paucity in the field of spine surgery for further, non-invasive biomarkers that can help detect and prognosticate the degree of spinal cord injury intraoperatively. Contrast enhanced ultrasound (CEUS) is a radiation free imaging modality that utilizes nanobubble technology to allow for visualization of the macro- and microvascular architecture of soft tissue structures. Despite being currently approved for the use in hepatology and cardiology, it has remained absent from the field of spinal cord injury. The study team aims to evaluate and quantify micro- and macrovascular changes that lead to areas of hyper-perfusion as well as areas of ischemia intraoperatively in patients that undergo elective cervicothoracic posterior decompression for chronic compression. In addition, the study team aims to assess the efficacy of CEUS in detecting microvascular changes that correlate with IONM changes and predicting degree and recovery of post-operative neurologic deficits from intraoperative spinal cord injury. The study team hypothesizes that following decompression, subjects will have detectable levels of microvascular changes causing areas of hypoperfusion and reperfusion injury. Second, the study team hypothesizes that these perfusion changes will correlate with intraoperative neuromonitoring changes and can predict and prognosticate the degree of post-operative neurologic injury.
The purpose of this research study is to compare the effect of two different types of education and support programs for partner caregivers of people with spinal cord injury (SCI).
This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
Locomotor training is an established rehabilitation approach that is beneficial for improving walking function in individuals with spinal cord injuries (SCIs). This approach focuses on repetitive practice and appropriate stepping movements to activate spinal neural networks and promote rhythmic motor output associated with walking. Assistance with stepping movements is often provided by physical therapists and trainers, but this can be costly and difficult to deliver in the cost-constrained U.S. healthcare market. Robotic devices have been used as an alternate method to deliver locomotor training, but current robotic approaches often lack the natural movement variations that characterize normal human stepping. Furthermore, studies to compare locomotor training approaches have not shown any specific benefits of using robotic devices. A new type of robotic device has emerged that uses an individual's muscle activation and stepping movements to control the robot during walking. This adaptive robotic device adjusts to the user's intentions and can assist with stepping during locomotor training in a manner that matches natural human stepping. While this type of adaptive robot has been preliminarily tested, the safety and efficacy of locomotor training using adaptive robotics are not well-established in patients with SCI. This is a critical step to determine if individuals with SCI may benefit from use of this device and for preliminary adoption of this technology. Recent studies have used the Cyberdyne Hybrid Assistive Limb (HAL) to deliver locomotor training and have reported outcomes suggesting that the HAL adaptive robot is safe and efficacious for walking rehabilitation in European SCI patients. Therefore this study will use the HAL adaptive robot to deliver locomotor training. This research is necessary to determine if use of the HAL is potentially beneficial and warranted for use with locomotor training and SCI patients receiving care in the U.S. Results of this study may contribute to the development and implementation of effective walking rehabilitation approaches for people with SCIs.
A non-randomized study evaluating the efficacy of intravesical gentamicin on the occurrence rate of urinary tract infections and bladder complications in patients after spinal cord injury (SCI), and to assess its effectiveness in promoting overall quality of life (QOL), community living, and participation.
The SciExVR study will evaluate the potential benefit of autologous bone marrow derived stem cells (BMSC) in the treatment of spinal cord injury with evidence of impaired motor or sensory function. The treatment consists of bilateral paraspinal injections of the BMSC at the level of the injury as well as superior and inferior to that spinal segment followed by an intravenous injection and intranasal placement. Patients undergoing BMSC treatment may also be assigned to use of exoskeletal movement (or equivalent) or virtual reality visualization (or equivalent) to augment upper motor neuron firing and/or receptivity of the sensory neurons. http://mdstemcells.com/sciexvr/
Spinal cord injury (SCI) is debilitating to an individual's health, functional capacity and quality of life. This contributes to a sedentary lifestyle and an elevated risk for cardiometabolic and hypokinetic diseases. While physical activity is promoted in persons with SCI to reduce incidence of secondary disabling conditions, a majority of individuals are inactive and have low levels of fitness. High intensity interval training (HIIT) is a form of exercise characterized by brief, intermittent bouts of intense exercise, separated by periods of lower intensity exercise for recovery. The level of improvements in aerobic exercise capacity following HIIT are similar to moderate-intensity continuous training, but only require a fraction of the total energy and time commitment. Little research has been done on HIIT in persons with SCI, who are unable to carry out conventional lower limb HIIT exercises. An upper extremity form of HIIT that is effective, safe, and quick could be an attractive option for these individuals. The study will look at feasibility and acceptability of a 6-week HIIT program for persons with a spinal cord injury who are untrained. Investigators will test 10 untrained individuals with SCI/D who use a manual wheelchair full time. Prior to any testing, participants will be screened and will need to obtain a signed medical release from their physician. The screening involves asking the participant the inclusion/exclusion criteria and administering two short questionnaires related to physical activity. After obtaining the release form, participants will be scheduled for their first visit. During Visit 1, baseline testing and questionnaires will be completed. The study questionnaires will address sociodemographics, pain and health measures, general health, and physical activity. Exercise testing includes an aerobic exercise stress test (conducted following American College of Sports Medicine guidelines using an electronic ergometer) and an anaerobic (maximum power output) test. After Visit 1, participants will exercise three times per week for six weeks, following a standard HIIT protocol. Two of those sessions will be supervised by a trainer, and one session will be completed on their own. After six weeks, participants will be scheduled for Visit 2 and will complete the same evaluations as Visit 1. Additionally, participants will complete evaluations on their level of satisfaction of the training program and their likelihood to continue.
This study seeks to evaluate the efficacy of nerve transfers in restoring hand function in patients with cervical spinal injuries.
The purpose of this study is to determine whether testosterone plus finasteride treatment will improve musculoskeletal health, neuromuscular function, body composition, and metabolic health in hypogonadal men who have experienced ambulatory dysfunction subsequent to incomplete spinal cord injury. The investigators hypothesize that this treatment will improve bone mineral density, enhance muscle size and muscle function, and improve body composition, without causing prostate enlargement.
The purpose of this study is to determine if a year of alendronate treatment will maintain or increase bone mass density (BMD) compared to baseline BMD values in people with chronic spinal cord injury (SCI). This study will also investigate 1) if alendronate therapy will increase bone strength in people with chronic SCI, 2) the number of participants with adverse events from alendronate, and 3) the effects of alendronate on serum markers of bone metabolism.
The purpose of this study is to determine if a second year of exposure to teriparatide in both subjects that received a year of teriparatide or teriparatide-placebo will result in a greater increase in bone mass density (BMD) compared to that seen in a single year's treatment. This study will also investigate 1) if a second year of teriparatide therapy will increase bone strength in people with chronic spinal cord injury (SCI) who previously received a year of teriparatide or teriparatide-placebo, 2) the number of participants with adverse events from teriparatide, and 3) the effects of teriparatide on serum markers of bone metabolism.
The goal of the investigators work is to establish how nerve transfers can be best used to improve upper extremity function in patients with cervical level spinal cord injury (SCI). The investigators' hypothesis is that nerve transfers are safe and effective and will improve function and quality of life in patients with loss of upper function due to spinal cord injury. The investigators plan on looking at upper limb function, and health-related quality of life in patients before and after surgery to better understand how patients benefit from these treatments. A nerve transfer procedure can be used to rewire the system to make some muscles work again following SCI. The nerve transfer procedure (which is done in the arm and not at the level of the spinal cord) can be used to bypass the damaged area and to deliver a signal from the brain to a muscle that became disconnected following that injury. A donor nerve is taken from another muscle whose use is not essential and then transferred to help in providing more a more critical function. For example, one type of nerve transfer is done to restore the lost ability to pinch or grasp small objects between the fingers that occurs in many patients with cervical SCI. In this surgery, a donor nerve that normally helps flex the elbow. This nerve can be used because the biceps muscle is also working to flex the elbow. This donor nerve is cut and re-attached to the nerve going to muscles in the forearm that provide pinch by bending the tips of the thumb and index finger. Because the nerve transfer procedure involves cutting and reattaching nerve and muscle tissues, time is required to regenerate working connections between the nerves and muscle as well as to allow the brain to relearn how to use and strengthen that muscle.
This study will demonstrate that vaporized marijuana results in antinociception when compared to placebo in subjects with spinal cord injury. To further evaluate potential benefits and side effects, the effect of different strengths of cannabis on mood, cognition, and psychomotor performance will also be measured.
The purpose of this study is to investigate whether combining a noninvasive method of brain stimulation, called Transcranial Direct Current Stimulation (tDCS), enhances the effect of training of the affected upper limbs in patients with incomplete Spinal Cord Injury.
Individuals who suffer a spinal cord injury in the neck region have difficulty using their hands due to paralysis and/or weakness of their arms and hand muscles. This project aims to test the effects of pairing spinal cord and nerve stimulation combined with physical therapy training in recovering arms and hand function. The long-term goal is to provide better therapies that will improve the ability of individuals with spinal cord injuries to use their arms and hands to perform everyday tasks, similar to injury before.
The objectives of this study are to (1) determine the effects of neuromodulation techniques on mobility in persons with chronic SCI, as measured by subjective and objective measures, and (2) to determine the optimal combination of techniques that modify mobility and movement in an individual. The neuromodulation techniques explored will be methods of electromagnetic stimulation - that is, electrical stimulation and magnetic stimulation.