564 Clinical Trials for Various Conditions
Neuralis is an innovative assistive technology designed for individuals with severe neuromuscular conditions, enabling wheelchair control through EEG signals. This study aims to assess the safety, feasibility, and efficacy of Neuralis in restoring mobility and independence. The device is a discreet EEG headset which specializes in decoding signals from visual cortex, allowing users to initiate precise wheelchair movements through focused attention. This research seeks to demonstrate Neuralis' potential in revolutionizing assistive technology by offering a non-invasive, user-friendly solution for individuals facing motor impairments, ultimately enhancing their quality of life.
The Synchron motor neuroprosthesis (MNP) is intended to be used in subjects with severe motor impairment, unresponsive to medical or rehabilitative therapy and a persistent functioning motor cortex. The purpose of this research is to evaluate safety and feasibility. The MNP is a type of implantable brain computer interface which bypasses dysfunctional motor neurons. The device is designed to restore the transmission of neural signal from the cerebral cortex utilized for neuromuscular control of digital devices, resulting in a successful execution of non-mechanical digital commands.
This is an early feasibility trial to determine whether transcutaneous neuromuscular electrical stimulation, with or without transcutaneous spinal cord stimulation, using an investigational neurostimulation device improves functional arm/hand movements in individuals with paralysis or paresis due to a spinal cord injury or stroke and improves functional arm/hand or leg/foot movements in individuals with paralysis or paresis due to other brain or nerve injuries. In this study, eligible individuals that agree to participate will be asked to attend up to 5 study sessions a week for 1 year (depending on participant availability), with each session lasting up to 4 hours. At the first study session, participants will have their demographic information collected, vital signs assessed, and have measurements performed of their limbs and torso, as appropriate. They will also undergo clinical evaluations and tests to assess their current functional movement and sensation capabilities. During subsequent study sessions, participants will undergo many tasks designed to improve functional movements in paralyzed limbs. Specifically, participants will receive neuromuscular electrical stimulation to the limb(s) and/or electrical stimulation to the spinal cord to evoke specified movements. The stimulation parameters and locations on the spinal column and/or limb(s) that evoke specific movements will be noted. The movements will be assessed with visual inspection, electromyography, and/or sensors. The clinical evaluations and tests to assess functional movement and sensation capabilities will be repeated throughout the study and at the last study session to assess for functional improvements compared to the first study session. Upon completion of these study sessions, the individual's participation in the study is considered complete.
The main goal of the project is to develop multiple noninvasive neuromodulatory strategies to facilitate full weight bearing stepping overground in people with paralysis. We will determine the effectiveness of combining noninvasive spinal cord stimulation and the administration of buspirone (a monoaminergic agonist) in facilitating locomotor activity in a gravity-neutral apparatus, during body weight supported stepping on a treadmill, when stepping overground in an assistive robotic exoskeleton, or during full weight bearing stepping overground in a rolling walker. Our objective is to identify the experimental variables that define the efficacy of these novel neuromodulatory techniques over a 5 year period in 15 participants with severe spinal cord injury who are at least one year post-injury.
This is an Individual Patient Expanded Access Protocol of Autologous HB-adMSCs for the Treatment of Cerebral Palsy (CP) with the primary goal of treating 1 individual with CP who has exhausted all treatment options, his condition has not improved, his quality of life is severely affected by the condition and he has previously banked his mesenchymal stem cells. There are no FDA approved, fully restorative treatments for CP. The subject will receive 8 autologous HB-adMSC infusions of 50 million (50 x 10\^6 cells) total cells. A protocol amendment to administer additional HB-adMSC infusions may be submitted for IRB/FDA for approval depending on the patient's response, AE/SAEs, and cell expansion characteristics.
The investigators objective is to run human clinical trials in which brain activity recorded through a "brain-chip" implanted in the human brain can be used to provide novel communication capabilities to severely paralyzed individuals by allowing direct brain-control of a computer interface. A prospective, longitudinal, single-arm early feasibility study will be used to examine the safety and effectiveness of using a neural communication system to control a simple computer interface and a tablet computer. Initial brain control training will occur in simplified computer environments, however, the ultimate objective of the clinical trial is to allow the human patient autonomous control over the Google Android tablet operating system. Tablet computers offer a balance of ease of use and functionality that should facilitate fusion with the BMI. The tablet interface could potentially allow the patient population to make a phone call, manage personal finances, watch movies, paint pictures, play videogames, program applications, and interact with a variety of "smart" devices such as televisions, kitchen appliances, and perhaps in time, devices such as robotic limbs and smart cars. Brain control of tablet computers has the potential to greatly improve the quality of life of severely paralyzed individuals. Five subjects will be enrolled, each implanted with the NCS for a period of at least 53 weeks and up to 313 weeks. The study is expected to take at least one year and up to six years in total.
This study was intended to evaluate a new assistive neuro-technology, known as the Tongue Drive System (TDS), by its potential end-users, i.e. individuals with severe disabilities, who are the best experts for indicating the benefits and possible shortcomings of any new ANT. Our goal is to assess the acceptability and usability of the TDS for various tasks that are important in daily lives of these individuals, such as computer access, wheeled mobility, and environmental control.
About 60% of children with cerebral palsy (CP) have impaired arm function. Improving arm function requires hundreds of repetitions per day, which is impossible in a single clinical visit. Thus, therapeutic exercises should be sustained in the home environment; however, the compliance in performing home exercise is low due to poor motivation, boredom, and forgetfulness. A better home program is needed. The objective of this project is to examine the effect of our developed "THRIVE" system (Therapeutic Humanoid Robot In Virtual Environment: the combination of robot with virtual reality games), which can provide a motivating and tailored upper-extremity intervention program with instant feedback, to improve arm function in children with CP at their home. The investigators believe the newly developed "THRIVE" system can increase children's engagement and motivation in home exercises as the robot is their playmate to demonstrate and correct their movements. The investigators will also interview parents and children with CP to understand their impression of using technology at home to shape the intervention. The expected outcome is that children with CP receiving "THRIVE" will improve their arm function more and have better engagement than those who receive VR alone immediately after intervention and at follow-up. The long-term goal is to have the "THRIVE" system be the optimal home exercise platform as it can provide challenging but motivating exercises to improve children's arm function while assisting parents in supervising their children with CP to complete home exercises.
Individuals with cerebral palsy are known to have a reduced amount of physical activity; yet, there are no known intervention strategies for improving the number of steps they take each day. This study will use wearable physical activity monitors to assess if behavioral coaching is a viable strategy for combating the reduced physical activity seen in this patient population.
The goal of this study is to see if gentle electrical stimulation can help children with cerebral palsy (CP) walk more easily. This stimulation, called neuromuscular electrical stimulation (NMES), sends small pulses to the muscles to help them activate. Researchers will test different ways of using NMES to find out which method works best. Participants will walk on a treadmill at a comfortable speed while NMES is applied to leg muscles. The study will compare different stimulation settings to see which one helps the most.
Children with cerebral palsy have increased muscle tone which often results in decreased active and passive movement at the ankle. While many management strategies exist (including passive stretching, WBV, serial casting, Botox, and surgical tendon lengthening), the utilization of WBV in combination with active exercises and serial casting has not been previously explored. Serial casting is the repeated application of a fiberglass cast (such as that applied to manage stable fractures) on a scheduled (usually weekly basis) to gradually increase the range of motion at a specific joint. It is theorized that combining previously established standard of care practices may result in more rapid clinical change, and hence reduce the need for prolonged intervention; ultimately reducing healthcare costs.
The goal of this research study is to measure changes in patients' quality of life after surgeries that affect the facial nerve, including nerve transfer as treatment for facial paralysis.
BabyG is a soft harness attached to a robotic system mounted overhead. While wearing the harness, the infant is free to move around a 10-by-10-foot play area with a padded floor. The harness helps support the infant s weight; it also slows any falls and catches the body before it hits the floor. BabyG can be adjusted to support 5% to 50% of the infant s weight. Participants will be in the study for 24 weeks, including 12 weeks with BabyG training and 12 weeks without. Training will be 90 minutes per week: either two 45-minute sessions or three 30-minute sessions. All participants will undergo tests during the 24 weeks such as: A test to measure an infant s ability to perform tasks such as rolling, sitting, crawling, and walking. A test to assess nerve function, movements, reflexes, posture, and muscle tone. A test of brain activity while moving. The infant will be fitted with a snug cap with 64 electrodes. Then the infant will be placed in the BabyG harness and encouraged to take steps on a motorized treadmill. Their movements will be filmed.
Our aim is to study the effect of art therapy for people with PSP, with a focus on alleviating the symptoms associated with PSP, enhancing the overall quality of life for patients, and reducing caregiver stress. Overall, through our collaborative efforts on this study, we hope to unlock the benefits of art therapy for this vulnerable patient population, ultimately improving their overall well-being and enhancing their quality of life.
This study looks at how a medicine called trihexyphenidyl works in children with dystonic cerebral palsy. The study aims to understand how trihexyphenidyl is broken down and used in the body of pediatric patients and whether this is impacted by a person's genetics. Information from this study will also be used to design future clinical trials.
Prospective, single-arm, multicenter, single-masked, pivotal study to Evaluate the Safety and Effectiveness of the Blinker system in Participants with Facial Nerve Palsy.
The goal of this feasibility trial is to learn if hippotherapy and physical therapy in the equine environment can be used to improve upper extremity function in children with cerebral palsy or autism spectrum disorder who present with motor delay or impairment in the upper extremities. The main questions it aims to answer are: Can the upper extremity-focused treatment using hippotherapy and the equine environment be delivered to fidelity? Is the treatment acceptable to participants and therapists? Is the randomized-controlled trial protocol feasible to scale to a larger study, including recruitment and retention rates and suitability of selected outcome measures? If there is a comparison group: Researchers will compare participants receiving treatment to a waitlist control to see if participants are retained in the control group and if differences are detected between the control and treatment groups on selected outcome measures.
The purpose of this study is to compare the Pediatric Quality of Life Inventory Gastrointestinal Symptoms Scale Gastrointestinal Symptoms Scale (GI-PedsQL) differences , to assess the differences in stool microbiome and stool metabolomics , to assess differences in salivary cytokine profile , to assess differences in weight change , to compare the use of antacid medications and to compare the use of laxative medications in patients on commercial formulas (CF) versus commercial blenderized tube feed (CBTF).
The goal of this interventional study is to learn about the biomechanical factors underlying the beneficial changes in children with cerebral palsy after using individually-adapted stand-on ride-on power mobility devices (PMD). The main questions we aim to answer are: * How does the use of stand-on PMDs affect static balance in children with cerebral palsy? * How does the use of stand-on PMDs affect dynamic balance and mobility function in children with cerebral palsy? Children ages 4-6 years old with cerebral palsy (GMFCS levels II and III) will: * Use individually-adapted stand-on PMDs for three months. * Undergo tests to measure static balance, dynamic balance, and mobility function before and after the intervention. * Receive a full biomechanical assessment (kinematics, kinetics, muscle activity, gait spatiotemporal characteristics). Researchers will compare pre-intervention and post-intervention measurements to quantify improvements in balance, muscle activation, and mobility.
This study is investigating whether eye exercises for abducens palsy and internuclear ophthalmoplegia increase ocular range of motion in the paretic direction when performed in virtual reality under head-cancelled compared to head-active conditions.
PROSPER trial is a trial to assess the efficacy of FNP-223 in slowing disease progression in participants with PSP as measured by the PSP Rating Scale (PSPRS) over 52 weeks and to assess the safety and tolerability of FNP-223 for 52 weeks in participants with PSP.
The purpose of this study is to investigate the impact of an intensive activities-based locomotor training program as compared to traditional physical therapy on activity, participation, and central and peripheral neurophysiological adaptation in children with cerebral palsy.
For children with severe cerebral palsy, a powered wheelchair (PWC) may provide their only option for functional mobility and independence. PWC use is often restricted to a small percentage of children who can quickly demonstrate proficient PWC skills within a single 30-minute PWC trial. This 2-arm, parallel group, single blinded, pre-test-post-test randomized controlled trial will test our hypothesis that an 8-week PWC skills training intervention will produce greater improvements in children's PWC skills capacity immediately after the intervention and at an 8-week follow-up assessment.
The purpose of this study is to understand if cognitive behavioral therapy can feasibly be provided to groups of adults with cerebral palsy and chronic pain via virtual group therapy sessions.
This study seeks to determine how an adjustable stiffness ankle braces affects walking performance and biomechanics in cerebral palsy.
A retrospective chart review to evaluate the safety and efficacy of phrenic nerve reconstruction for diaphragmatic paralysis.
This study utilizes a grounded theory methodology to explore patient experiences of phrenic nerve reconstructive surgery as a treatment for diaphragmatic paralysis.
This study aims to test if transcranial direct current stimulation (tDCS) can be applied to boost the efficacy of constraint-induced movement therapy (CIMT) in children with HCP and examine brain mechanisms related to individual outcomes.
Pain management in pediatric patients presents a difficult challenge. Unlike adults, pediatric patients often cannot communicate their pain management needs clearly. This is especially true in patients with cerebral palsy (CP), who often have concomitant developmental delay, intellectual disability and verbal limitations. Current literature indicates pain as a common experience for children with CP but has been understudied in this population. Moreover, inadequate post-operative pain control can result in negative physiologic and psychological complications and lead to poor surgical outcomes. Currently, perioperative pain management following orthopaedic procedures in pediatric patients follows traditional protocols that rely on the administration of opioid medications despite their known adverse side effects including nausea, vomiting, itching, constipation, urinary retention, confusion, and respiratory depression. Epidural anesthesia is a key modality in traditional pain management for pediatric patients with CP given its proven efficacy in decreasing pain and managing spasticity. Yet, administering epidural anesthesia in this patient population poses several risks including damage to preexisting intrathecal baclofen pumps, iatrogenic infection, and technically demanding insertion given high rates of concomitant neuromuscular scoliosis. Alternatively, multimodal analgesic injections theoretically offer an efficacious adjunct to traditional pain management protocols with a lower risk profile. Preliminary data from our study group's pilot randomized control trial comparing the safety and efficacy of a multimodal surgical site injection to placebo showed decreased pain scores and narcotic consumption postoperatively in this patient population. Based on these promising results, the objective of this randomized control trial is to evaluate the efficacy of a multimodal surgical site injection compared to epidural anesthesia for postoperative pain control following operative management of hip dysplasia in pediatric patients with CP.
This is a single-arm longitudinal study for children with cerebral palsy with gait impairments that involves robot-assisted gait training (RGT) and includes pre and post-data collection visits. The study aims to evaluate changes in muscle synergies in children with Cerebral Palsy (CP) in response to RGT. Additionally, the study aims to investigate the relationship between muscle synergies and the clinical outcomes of RGT.