133 Clinical Trials for Various Conditions
The purpose of this study is to find out whether the fat ALT flap procedure is a safe and practical option for reducing neck morbidity in HNSCC patients following cancer treatment of the neck. Neck morbidity after radiation therapy and surgery includes difficulty swallowing, neck or shoulder pain, stiffness, swelling, or changes to the appearance of the treated area. In addition, the researchers will find out whether the study procedure is effective at reducing neck morbidity and improving quality of life after cancer treatment. The researchers will measure quality of life by having participants answer questionnaires.
This is a retrospective registry dataset of all adults who presented with cervical and/or skull base fractures or a subdural hematoma at Methodist Dallas Medical Center (MDMC) and had consults to the neurological surgery department beginning in January of 2016, and continuing until a statistically significant number of cases are obtained.
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.
This study is an extension of a planned quality improvement project that aims to promote standard of care by increasing the use of evidence-based clinical decision rules amongst emergency medicine providers in the University of Utah Emergency Department. Patient-specific information from the EHR will be used to recommend the use of relevant clinical decision rules to emergency medicine providers at the point-of-care. These recommendations will be in the form of non-interruptive alerts with one-click access to the suggested decision rules through the MDCalc Connect EHR add-on application. Specific aims of the study are to determine if 1) patient-specific non-interruptive alerts increase the use of clinical decision rules amongst emergency medicine providers and 2) an increase in the use of clinical decision rules affects provider ordering habits.
This is a safety study of human spinal cord-derived neural stem cell (HSSC) transplantation for the treatment of chronic spinal cord injury.
Cervical spine injuries (CSI) are serious, but rare events in children. Spinal precautions (rigid cervical collar and immobilization on a longboard) in the prehospital setting may be beneficial for children with CSI, but are poorly studied. In contrast, spinal precautions for pediatric trauma patients without CSI are common and may be associated with harm. Spinal precautions result in well-documented adverse physical and physiological sequelae. Of substantial concern is that the mere presence of prehospital spinal precautions may lead to a cascade of events that results in the increased use of inappropriate radiographic testing in the emergency department (ED) to evaluate children for CSI and thus an unnecessary, increased exposure to ionizing radiation and lifetime risk of cancer. Most children who receive spinal precautions and/or are imaged for potential CSI, and particularly those imaged with computed tomography (CT), are exposed to potential harm with no demonstrable benefit. Therefore, there is an urgent need to develop a Pediatric CSI Risk Assessment Tool that can be used in the prehospital and ED settings to reduce the number of children who receive prehospital spinal precautions inappropriately and are imaged unnecessarily while identifying all children who are truly at risk for CSI.
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 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 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 purpose of this study is to evaluate a new method of restoring hand function to people with spinal cord injury. Current methods to restore hand function include tendon transfers and nerve transfers. This study will evaluate the grasp strength that can be achieved with a small, implantable stimulator. KeyGrip is an investigational device that works by activating paralyzed muscles with low levels of electrical current. The word "investigational" means the study device is still being tested in research studies and is not approved by the U.S. Food and Drug Administration (FDA) for the use being studied. Hypothesis. The study is designed to explore the feasibility of this approach; no hypothesis is planned at this stage
The goal of this study is to understand the effects of combined task practice with transcutaneous cervical spinal cord stimulation. The study will explore the effect of higher stimulation frequencies on spasticity. Transcutaneous stimulation has been shown to improve motor function in some individuals with chronic spinal cord injury. The study intends to explore scientifically the association between higher stimulation frequencies and spasticity/hypertonicity.
The Phase I SBIR objective is to design, develop \& demonstrate feasibility of Access-H2OTM, a sensor driven smart faucet to enable and empower independent drinking and grooming for individuals impacted by spinal cord injury (SCI). SCI severely impacts functional independence \& ability to perform activities of daily living (ADLs). Greater function is typically lost with higher, more complete injuries. More specifically, those impacted above C5-C7 have impaired upper extremities, which limits the use of arms and hands for activities such as eating, drinking, and grooming. Functional access to water for these individuals becomes a key to increased independence and successful completion of ADLs. Therefore, commercialization of smart fountain faucets, which can automatically deliver water in target temperature, force, \& nozzle setting for a specific ADL, has the potential to empower individuals with SCI for greater independence \& and improved quality of life. Subjects with SCI and controls were recruited to test the functionality of the faucet which includes eye gaze, voice, and motion sensors to control the water stream for drinking, rinsing, and grooming.
This is a prospective quality improvement study to assess the effect of using an audit-and-feedback process for emergency providers on utilization of computed tomography of the cervical spine. The objective of this study is to determine whether providing repeated individualized feedback on CT C-spine utilization to emergency providers alters their practice pattern and reduces overutilization. The investigators hypothesize that emergency providers who receive individualized feedback regarding their CT C-spine utilization on a regular basis will alter their practice pattern to reduce overutilization of this imaging study.
Penetrating trauma to the neck can result in severe morbidity and mortality. Location of the injury dictates the appropriate clinical management. Challenging traumatic injuries require resourceful treatment options
It is not known if bystanders equipped with point-of-care (POC) instruction are as effective as bystanders with in-person training for c-spine immobilization. Therefore, POC instructional interventions were developed during this study in response to the scalability challenges associated with in-person training to measure the comparative effectiveness and skill retention of POC instructions vs in-person training using a randomized clinical trial design.
People with spinal cord injury (SCI), stroke and other neurodegenerative disorders can follow two pathways for regaining independence and quality of life. One is through clinical interventions, including therapeutic exercises. The other is provided by assistive technologies, such as wheelchairs or robotic systems. In this study, we combine these two paths within a single framework by developing a new generation of body-machine interfaces (BoMI) supporting both assistive and rehabilitative goals. In particular, we focus on the recovery of muscle control by including a combination of motion and muscle activity signals in the operation of the BoMI.
This study compared pre-fabricated and custom resting hand splints among people who were in inpatient rehabilitation after a cervical spinal cord injury.
A common therapeutic intervention after spinal cord injury (SCI) is prolonged standing in a standing frame. For people with SCI, standing for 40 minutes or more, three to four times weekly improves several health-related issues including well-being, circulation, skin integrity, reflex activity, bowel and bladder function, digestion, sleep, pain, and fatigue. However, a person who experiences orthostatic hypotension (OH)-defined as a decrease of 20mm hg in systolic blood pressure or a decrease of 10mm hg in diastolic pressure within 3 minutes of standing from a sitting or supine position-secondary to SCI may not tolerate positioning in a standing frame, thus resulting in a loss of access to these health benefits. OH is common for people with SCI. It results from central nervous system dysregulation causing pooling of blood in the lower extremities that can lead to dizziness, light-headedness, blurred vision, weakness, fatigue, nausea, palpitations, headache, and/or syncope. Although an array of physical and pharmacologic interventions are available to people in the general population for managing OH, few such interventions have been evaluated for use by people with SCI, especially when the level of injury is C5 or above. One possible intervention that may be effective for people with OH secondary to SCI is functional electrical stimulation (FES) because its application results in a dose-dependent increase in blood pressure. An unanswered question is whether the placement of FES electrodes on various parts of the body has differential effects. Therefore, the purpose of this study is to evaluate blood pressure responses among people with OH secondary to cervical SCI when receiving FES intervention involving the placement of electrodes in three different positions as well as when receiving no FES intervention during tilt table sessions. The selected positions for electrode placement are: (a) the calves, (b) the quads and abdominals, and (c) the quads, abdominals, and calves. The researchers hypothesize that FES intervention, regardless of placement, will result in better control of OH than no FES intervention and that no significant blood pressure difference will occur across the three FES placements.
Stimulation of the spinal cord may induce the growth and reorganization of neural pathways leading to the re-animation of paralyzed limbs. Growing evidence indicates that electrical spinal cord stimulation improves motor functions immediately via modulating the excitability of spinal circuitry in patients with spinal cord injury. Recently, a novel, non-invasive, well-tolerated and painless transcutaneous electrical stimulation strategy was demonstrated to be effective for improving lower limb motor function in healthy individuals and in patients with spinal cord injury. The investigators hypothesize that transcutaneous cervical electrical stimulation can enhance conscious motor control and functions of hand and arm via neuromodulation of spinal network. This study is a prospective efficacy trial of transcutaneous cervical electrical stimulation for improving upper limb function in patients with traumatic or degenerative cervical spinal cord injury. Transcutaneous electrical spinal stimulation device is not regulated by the United States Food and Drug Administration for treatment of spinal cord injury. The interventions include either transcutaneous cervical spinal electrical stimulation combined with physical therapy or physical therapy only. The order of the interventions will be randomized for each subject in a delayed cross-over design. Total duration of the study is 6 months, including 4 weeks baseline measurements, 8 weeks intervention and 12 weeks follow-up. Both immediate and lasting improvements in hand motor and sensory function via transcutaneous cervical spinal stimulation will be evaluated.
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 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 CONVOY Study is a clinical trial designed to explore the feasibility of participants from the PRIME Study (NCT06429735) using the N1 Implant to control various assistive devices. The main goal is to determine whether participants can successfully modulate their brain activity to control devices, such as an Assistive Robotic Arm (ARA). This study will assess the effectiveness, consistency, and safety of neural control using the ARA and other assistive devices.
People with spinal cord injuries may experience muscle tightness or uncontrollable spasms. This study is being conducted to investigate whether transcutaneous spinal stimulation can improve these symptoms. Transcutaneous spinal stimulation is a non-surgical intervention by applying electrical currents using skin electrodes over the lower back and belly. The investigators want to see how well the intervention of transcutaneous spinal stimulation performs by testing different levels of stimulation pulse rates. Also, transcutaneous spinal stimulation is compared to muscle relaxants such as baclofen and tizanidine, commonly given to people with spinal cord injuries, to reduce muscle stiffness and spasms. By doing this, the investigators hope to discover if transcutaneous spinal stimulation similarly reduces muscle spasms and stiffness or if combining both methods works best. This could help improve treatment options for people with spinal cord injuries in the future.
The overall objective of this trial is to characterize the safety and effectiveness of the Networked Neuroprosthesis Device - Upper Extremity (NP-UE) in individuals living with cervical SCI.
This is a single-cohort early feasibility trial to determine whether an investigational device called the Bidirectional Neural Bypass System can lead to the restoration of movement and sensation in the hand and wrist of up to three individuals with tetraplegia.
The specific aim of this study is to evoke functional movement in the hand of both healthy individuals and individuals diagnosed with a stable cervical spinal cord injury with non-functional movement of the fingers. The primary purpose of this study is to determine the feasibility of achieving refined hand movements through electrical stimulation of the muscles within the forearm. It is believed that this study will be able to identify specific stimulation parameters and electrode spatial configurations responsible for various refined hand movements. After an eligible individual agrees to participate in this study, s/he will receive transcutaneous electrical stimulation on the forearm in order to evoke different hand and finger movements. The precision, specificity, and extent of these movements will be visually assessed. In order to better evaluate these movements, participants may also be asked to perform various functional tasks with their hand. The grip strength and evoked forces at the fingertips will also be measured using sensors. There will be up to 4 study sessions each week for up to 8 weeks, with each session lasting up to 4 hours. Upon completion of these study sessions, the individual's participation in the study is considered complete.
The purpose of this study is to evaluate if intubation with video laryngoscopy (VL) will result in less head motion and therefore less cervical motion when compared with direct laryngoscopy (DL). The aim of the study is to determine the amount of head motion (extension, flexion and rotation) when using Storz C-Mac® video laryngoscopes and direct laryngoscopes. Secondarily, the study will also measure the number of attempts to properly intubate and the time required for intubation with either technique.
This study is to evaluate the use of a fully implanted device for providing hand function, reach, and trunk function to individuals with cervical spinal cord injury. Funding Sources: FDA OOPD NIH NINDS
This study will evaluate the safety and efficacy of human central nervous system stem cell transplantation into patients with traumatic injury in the cervical region of the spinal cord.
The purpose of this study is to evaluate the safety of cross sequential escalating doses of AST-OPC1 administered among 5 cohorts at a single time-point between 21 and 42 days post injury, inclusively, to subjects with subacute cervical spinal cord injuries (SCI).