954 Clinical Trials for Various Conditions
Accumulating evidence suggests that repeatedly breathing low oxygen levels for brief periods (termed intermittent hypoxia) is a safe and effective treatment strategy to promote meaningful functional recovery in persons with chronic spinal cord injury (SCI). The goal of the study is to understand the mechanisms by which intermittent hypoxia enhances motor function and spinal plasticity (ability of the nervous system to strengthen neural pathways based on new experiences) following SCI.
The purpose of this study is to assess the long-term safety and effectiveness of botulinum toxin type A on patients with overactive bladder as a result of spinal cord injury or multiple sclerosis. This is a follow-up study to two Allergan sponsored studies (NCT00311376 and NCT00461292).
The purpose of this research is to test the health benefits of using functional electrical stimulation for lower extremity exercise at home.
The Researchers are trying to determine if there is a difference in blood flow around a wound site when comparing three different types of wound closure techniques.
This project aims to evaluate an implementable screening tool and nutritional interventions that will lead to improved quality and patient safety. The aims of this pilot study are twofold: Purpose 1: assess the prognostic value of malnutrition and sarcopenia for identifying patients at increased risk of adverse postoperative outcomes following elective or semi-elective orthopedic procedures. Purpose 2: assess the clinical benefit of postoperative oral supplementation with a commercially-available nutritional supplement that includes conditionally-essential branched chain amino acids.
This study is designed to evaluate the efficacy of topical tranexamic acid to reduce perioperative blood loss, reduction in postoperative drain output and allogenic transfusion requirements. The proposed study will be a prospective, randomized, double-blind (subject, surgeons, investigators, research coordinators) placebo-controlled study. Patients requiring posterior spinal fusion will be enrolled for this study. Furthermore, patients undergoing elective complex deformity surgery will also be enrolled. Both populations of patients will be randomized into two groups. Group I will receive standard of care operative fixation with topical tranexamic acid intervention (test); Group II will receive standard of care operative fixation with normal saline (placebo) intervention. This study will have a 2-year follow-up and will consist of three periods: screening/enrollment phase up to 21 days from the day of injury to the day of randomization and operative intervention, an inpatient data collection period for 4 days postoperative, and then a follow-up period for 2-years postoperative (visits occurring at 16 weeks, 1 year, and 2 year) time points.
The study objective is to acquire composite images generated by the Carestream Long Length Imaging (LLI) software and demonstrate that the images stitched using the Carestream LLI software and the images stitched using a approved predicate device are acceptable for clinical use.
To evaluate the safety and effectiveness of DuraGen Plus® Adhesion Barrier Matrix as an adhesion barrier in spinal surgery to reduce the extent of peridural fibrosis formation and radicular pain in comparison to a control group receiving standard care.
The Viper Prime/Expedium spine systems are intended to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of acute and chronic instabilities or deformities of the thoracolumbar and sacral spine. The Fibergraft Bioactive Glass (BG) is engineered to mimic the body's natural bone healing process. While previous studies have compared the use of Viper prime/Expedium spine system in minimally invasive and open surgeries, these studies did not specifically study the clinical and radiographic outcomes of patients who have received these implants in addition to Fibergraft. We aim to recruit patients with degenerative disc disease, spondylolisthesis, trauma, and/or pseudarthrosis who require spine surgery under standard of care and use these implants. We will then follow these patients for a duration of two years to report their clinical and radiographic outcomes to determine fusion, complication rate, and revision surgeries if any.
The purpose of this clinical study is to collect performance and safety data for post-market Medtronic devices indicated for cranial and/or spinal indication(s). Subjects are enrolled and followed postoperatively to 24 months. The Ailliance clinical study is intended to collect data congruous with routine clinical care practices.
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 study is to develop algorithms that will help predict future injury and/or re-injury after being returned to duty from a musculoskeletal injury. After completion of an episode of care with a physical therapist, the subjects will undergo a battery of physical performance tests and fill out associated surveys. The subjects will then be followed for a year to identify the occurrence/re-occurence of any injuries. Based on the performance on the physical evaluation tests, algorithms will be derived using regression analysis to predict injury. Subjects will be recruited from the pool of patients that have recently completed physical rehabilitation in physical therapy clinics for their lower extremity or lumbar/thoracic spine injury.
The study team hypothesizes that at-home cleansing of the surgical site with chlorhexidine wipes provide no added benefit to decreasing microbial activity or preventing surgical site infections. Patients will be randomized to the chlorhexidine or no additional intervention groups. Patients will be randomized to use 4% chlorhexidine cloths, while the other half receive no additional intervention. Those randomized into the chlorhexidine gluconate (CHG) home-application group will be asked to shower the night before surgery, and to use a standardized pre-packaged CHG wipe (that the patients would receive at their pre-surgical consultation) on their surgical site after thoroughly drying those areas. The patients will be asked to use a second wipe in each area the morning of surgery. The surgical sites will be analyzed in two groups: anterior cervical and posterior spine. Each of these two groups will be randomized separately. All patients will undergo a standardized preoperative cleansing regimen. Once positioned, they will be cleansed with an alcohol solution. Then, the surgical site (either the anterior portion of the neck or the posterior area of the spine) will be scrubbed with chlorhexidine soaked brushes and then painted with chlorhexidine solution. Perioperative antibiotics will be given per attending surgeon preference. Cutaneous samples will be taken from the surgical site of each patient at each time point.
The Spine TRACK Spinal Surgery Registry is a prospective multi-center observational data collection initiative, to capture clinical and radiographic outcomes in candidates for spine surgery with degenerative, deformity, and traumatic pathologies. As an observational database, there are no initial driving hypotheses, but rather data will be mined to answer unforeseen questions, but which may include broad topics such as comparative effectiveness between and among various surgical treatment options, and/or outcomes in various subgroups of patients such as defined by demographics, comorbidities, indications and symptoms, treatment variables, and/or outcome variables.
The purpose of this study is to compare the safety and effectiveness of surgical versus conservative management of type II odontoid fractures among patients \> 64 years of age. Of secondary interest is to determine if there are differences in outcomes between anterior screw fixation and posterior fusion of these fractures.
Spinal cord injury (SCI) disrupts neural pathways to respiratory motor neurons, diminishing breathing capacity and airway defense (e.g., cough). Indeed, respiratory impairment is a leading cause of infection, re-hospitalization and death after SCI. There is a critical need for new strategies to restore breathing ability and airway defense in people with SCI. Acute intermittent hypoxia (AIH) - repetitive exposure to brief episodes of low inspired oxygen - is a promising strategy to restore breathing capacity by promoting spinal neuroplasticity. Exciting outcomes in \>12 SCI trials completed to date demonstrate that AIH improves human respiratory and limb function. Unfortunately, \~40% of individuals exhibit minimal response to AIH, making it essential to 1) optimize AIH protocols to maximize functional benefits; and 2) identify genetic biomarkers distinguishing those most/least likely to benefit from AIH-based treatments. The purpose of the pilot study, to be conducted in a small sample of participants with sub-acute SCI (1 to 6 months post injury), is to preliminarily compare the immediate effects of two intermittent hypoxia protocols. Since AIH-induced plasticity may be induced via serotonin or adenosine-driven mechanisms and these pathways compete and inhibit each other, each protocol favors a distinct mechanistic pathway. The long-term objective is to test the hypothesis that a longer duration (i.e., augmented) hypoxia protocol, favoring adenosine mechanisms, enhances respiratory motor plasticity more than an AIH protocol targeting serotonin mechanisms (low O2 + CO2) in people with sub-acute SCI. Since an individual's genetics can influence the response to rehabilitation, investigators are also preliminarily investigating how certain genes are related to breathing changes after these treatments. Data acquired through this pilot study will be used to inform a larger, more definitive clinical trial and will contribute to estimations of the magnitude and direction of effects.
The goal of this observational study is to learn about the effects of a 9-week dietician-guided program modified from the National Diabetic Prevention Program (modified DPP-diet) in people with spinal cord injury on body composition and insulin sensitivity. The main question it aims to answer is: Does 9 week modified DPP-diet reduce body fat percentage and insulin resistance? Participants will: Have 9 weeks of Telehealth visit with dietician certified in providing DPP. Visit the laboratory before, immediately and 9 weeks after completion of the modified DPP-diet. Share with the researcher on the perceived benefit and obstacles in implementing the modified DPP-diet as part of their daily activities.
Recovery of arm and hand motor control is critical for independence and quality of life following incomplete spinal cord injury (iSCI). Blood flow-restricted resistance exercise (BFRE) has emerged as a potential treatment addressing this need, but treatment guidelines and research reporting effectiveness are sparse. The purpose of this work is to provide case reports of people with cervical iSCI who use BFRE supplemented by electrical stimulation (ES) to increase the strength and functional use of selected upper extremity muscles.
The purpose of this study is to evaluate the efficacy of a 6-week app-guided MM intervention compared to a 6-week app-guided health education AC condition on pain intensity, pain interference, depression, and anxiety.
Stimulation of the spinal cord and brain represents a new experimental therapy that may have potential to restore movement after spinal cord injury. While some scientists have begun to study the effect of electrical stimulation on patient's ability to walk and move their legs after lower spinal cord injury, the use of stimulation of the upper (cervical) spine to restore arm and hand function after cervical spinal cord injury remains less well explored. The investigators are doing this research study to improve understanding of whether cervical spinal cord stimulation and brain stimulation can be used to improve arm and hand function. To do this, the investigators will combine spine stimulation (in the form of electrical stimulation from electrical stimulation wires temporarily implanted next to the cervical spinal cord) and brain stimulation (in the form of transcranial magnetic stimulation). The investigators will perform a series of experiments over 29 days to study whether these forms of stimulation can be applied and combined to provide improvement in arm and hand function.
The purpose of this study is to test a strategy to potentiate functional recovery of lower limb motor function in individuals with spinal cord injury (SCI). The FDA approved drug, Dalfampridine (4-AP). 4-AP will be used twice-daily in combination of Spike-timing-dependent plasticity (STDP) stimulation and STDP stimulation with limb training.
The DOSED clinical study evaluates the safety and utility of a novel delivery device to deliver LCTOPC1, a cell therapy, to the spinal cord of patients with a spinal cord injury (SCI). LCTOPC1 is designed to replace or support cells that are absent or dysfunctional due to traumatic injury, with a goal to help improve the quality of life and restore or augment functional activity in persons suffering from a traumatic cervical or thoracic injuries.
The study aims to explore how cardiovascular function changes in the first year after a spinal cord injury, and to see how different treatments, like spinal stimulation through the skin (transcutaneous spinal stimulation), affect blood pressure. The main questions are: How does stimulation affect blood pressure over the year? What is the level of cardiovascular activation throughout the year? The study will start during the inpatient stay at the Kessler Institute for Rehabilitation and continue after discharge as an outpatient, totaling about 20-29 sessions over the year.
The goal of this feasibility study is to learn whether Cannabidiol (CBD) can improve urinary incontinence and other symptoms in people with recent spinal cord injury (SCI). Participants will take Epidiolex (purified CBD) for 90 days
The University at Buffalo (UB) Department of Rehabilitation Sciences is looking for adult volunteers with and without spinal cord injuries for a study on hand movement. The goal of the study is to learn about how the brain, nerves, and muscles of the body are connected and perform everyday tasks. This may help us to develop ways to improve the hand functions of people with spinal cord injuries.
The purpose of this study is to deepen our understanding of children who have a cervical spinal cord injury obtained in utero or at birth and examine the effects of tailored activity-based recovery training (ABRT) in combination with transcutaneous spinal cord stimulation (scTS). This is a within subjects, pre-post design study. Neurophysiological, sensorimotor, and autonomic assessments will occur pre, interim, and post 40 sessions of ABRT in conjunction with scTs.
The investigators would like to improve our understanding of how early intervention with the use of bladder chemodenervation can preserve bladder function in those with a new SCI. Although detrimental cystometric and tissue changes are known to occur, often within 3 months after SCI, the investigators seek to document the time course of these changes and the range of severity of those changes in both those participants that receive prophylactic treatment and those who do not.
The purpose of this clinical trial is to understand the safety and practicality of using spinal cord transcutaneous (through the skin) stimulation in an inpatient setting as well as how the combination of activity-based training (ABT) and spinal cord transcutaneous stimulation (scTS) can improve participants' ability to use their hands, arms, and trunk in an inpatient rehabilitation program. The main questions it aims to answer are: * Is the combination of spinal cord transcutaneous stimulation and ABT is safe and practical when applied to individuals with acute to subacute cervical SCI during inpatient rehabilitation? * How the combined intervention can improve hand and arm function when applied to those individuals? The investigators will assess the safety, feasibility, and preliminary efficacy of the combined intervention and compare to a sham control (sham stimulation combined with ABT) and a ABT only group to see if the combined intervention can lead to greater function recovery. Participants will: * Receive one type of the three intervention (scTS+ABT, sham scTS+ABT, or ABT only) for 10 sessions with 30 mins/session over 2 weeks. * Receive assessment before, during, and immediately after the intervention, and at 1-month, 2-month, and 3-month follow-up visits.
The goal of this pilot clinical trial is to find out how well low dose naltrexone works for people with pain due to spinal cord injury. The main questions it aims to answer are: will low dose naltrexone reduce pain, and increase the quality of life for people with central neuropathic pain due to spinal cord injury. Hypothesis 1: LDN will decrease the severity of CNP in adult patients with SCI as measured by the Neuropathic Pain Scale (NPS) Hypothesis 2: LDN will improve quality of life of patients with SCI as measured by various validated clinical tools There is no comparison group. This study is being completed to give investigators more information for how to best run a larger clinical trial. Participants will be asked to take an oral dose of 4.5mg of naltrexone, daily, for 12 weeks.
It is not known whether a new diabetes drug, semaglutide, is an effective treatment for type 2 diabetes for persons with spinal cord injury (SCI), a population at higher risk for this condition. Therefore, this study looks at the effect of semaglutide on glucose levels in the body and other information about type 2 diabetes and obesity.