58 Clinical Trials for Various Conditions
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 purpose of the research is to develop a new medical device prototype to restore functional movement of an arm made weak due to a chronic stroke
This clinical trial is for subjects undergoing right upper extremity surgery. The aim of the study is to investigate the dose-response relationship between local anesthetic volume and ipsilateral hemidiaphragmatic paresis (HDP) in patients getting ultrasound-guided supraclavicular brachial plexus blocks in a blinded, prospective trial.
This is a protocol to govern the prospective trial of facial nerve monitoring in patients undergoing parotidectomy with an eye towards interpreting if the facial nerve monitor provides useful information to operating surgeons and if the information provided by the facial nerve monitor can predict degrees of postoperative facial nerve paresis. Additionally, the study will determine if performing daily facial rehabilitation exercises provides a benefit in reducing time to recovery of temporary post-parotidectomy paresis.
Stroke patients who have little or no voluntary movement in the hand on the more affected side of their body more than one year after stroke have few treatment options. This project proposes to test the efficacy of a form of Constraint-Induced Movement therapy designed for patients with such severe impairment in conjunction with an agent, fluoxetine, which has been shown in some studies to enhance brain neuroplasticity in response to training. Constraint-Induced Movement therapy, which is abbreviated CIMT, is a form of physical rehabilitation based on basic research in neuroscience and behavioral science. If the project is successful, an efficacious, evidence-based therapy will become available to stroke patients for what is now a largely untreated condition
Vagus nerve stimulation (VNS) is thought to activate neural pathways that release chemicals which promote plasticity and learning. Previous work has shown that the auricular branch of the vagus nerve innervates landmarks on the external ear. Work from the PI's laboratory has shown that electrical current applied to the external ear modulates physiological indexes of brain states implicated in the therapeutic effects of VNS. The broad objective of this project is to better understand physiological mechanisms modulated by auricular stimulation to support possible therapeutic effects in the form of motor learning.
To gather prospective safety and effectiveness data for the C-Brace System following the standard of care.
The primary study objective is to compare post-stroke upper extremity (UE) movement while wearing a brace called the MyoPro 2 Motion G versus UE movement while wearing a resting splint and no device in stroke survivors with moderate UE dysfunction. During the study, subjects will undergo general training in the operation of the EMG-controlled orthosis and the comparison orthosis, and then guided through a series of standard clinical outcome measures. These outcome measures will allow the researchers to directly compare the relative benefit of the MyoPro 2 Motion G with a resting hand splint and no device in reducing UE impairment and increasing UE dexterity and functional task performance.
Background: Outpatient continuous interscalene brachial plexus blocks are used to control pain after shoulder surgery, with infusions of 0.125% bupivacaine or 0.2% ropivacaine. There have been no studies comparing the effects of these two formulations. The major concern is hemidiaphragmatic paresis, and since ropivacaine preferentially blocks sensory fibers, it may cause less blockade of the phrenic nerve. This study was to evaluate the effects of continuous interscalene brachial plexus infusions, with the hypothesis that respiratory function is more affected by 0.125% bupivacaine than 0.2% ropivacaine, with equal effects on pain relief. Methods: All patients underwent baseline spirometry and ultrasound evaluation of diaphragmatic excursion, followed by interscalene catheter placement for their surgery, then randomized to receive a pump containing 0.2% ropivacaine or 0.125% bupivacaine. Patients returned to the hospital the following day for spirometry, ultrasound reevaluation, and evaluation of their pain level since discharge.
Stroke often leads to long-term disability including upper extremity (UE) dysfunction even with the provision of timely rehabilitation services. Brain injury stemming from stroke, affecting the corticospinal system results in weakness, alterations in muscle tone and incoordination during the performance of functional tasks. Recovery of functional task performance after injury to the corticospinal system involves a residual neural network that engages the premotor cortex, frontal cortex and supplementary motor cortex. In particular, the dorsal premotor cortex (PMd) is anatomically and physiologically poised to reorganize and support motor recovery after corticospinal damage. The goal of this study is to determine the feasibility and efficacy of stimulating the ipsilesional PMd in adults with chronic stroke using noninvasive anodal transcranial direct current stimulation (tDCS) during the training sessions of a 4-week circuit-based, UE, task-related training (TRT) program. Pilot data from six adults, using anodal tDCS over the injured PMd just before each session of TRT, led to significant improvements in UE function in 5 of the 6 adults after only 4 weeks of training. We will assess the motor function of both arms using clinical assessments immediately before and after the 4-week TRT program. In addition to effects of tDCS-primed UE-TRT on clinical outcomes, we will use functional magnetic resonance imaging (fMRI) to determine the changes in neural network reorganization. We hypothesize that the training program will reveal significant improvement in motor function based on clinical assessment as well as significant global network changes based on resting state functional MRI and hybrid diffusion MR imaging. The long-term goal of this research is to develop an effective intervention strategy to improve UE function in individuals with moderate impairment from chronic stroke.
Prospective, international, multi-center, open-labeled, randomized, controlled cross-over trial to evaluate effectiveness and benefits in patients with lower limb impairment in activities of daily living comparing the C-Brace microprocessor-controlled stance and swing orthosis to standard of care use of knee ankle foot orthosis/stance control orthoses
People with one arm that does not function well due to a stroke, head injury, or cerebral palsy, and a fully functional other arm, will be randomly assigned to receive one of the two interventions first, followed by the other intervention. The two interventions include a task-based intervention and a virtual reality intervention that provides a reflected image of the involved arm. The task-based intervention will consist of setting up activities of interest to be done using the involved arm and structuring practice and meaningful feedback to assist learning. The virtual reality intervention will consist of the person wearing the virtual reality device and practicing virtual tasks using the intact arm while seeing the involved arm. Intervention sessions will last approximately 30 minutes and will be held 3 times/week for 3 weeks each for a total of 9 sessions for each intervention. Testing of the involved arm's function will be done before the interventions, after receiving 9 sessions of each intervention, and one month after completing the second intervention received.
The purpose of this study is to find out what are the best settings for applying electrical nerve stimulation over the skin for the short-term improvement of hand dysfunction after a stroke. The ultimate goal is to some day design an effective long-term training program to help someone recovery their ability to use their hands and function independently at home and in society. In order to know how to apply electrical nerve stimulation to produce a good long-term effect on hand dysfunction, the investigators first need to know how to make it work best in the short-term, and improve our understanding of for whom it works and how it works. The investigators will use a commercially available transcutaneous electrical nerve stimulation (TENS) unit to gently apply electrical nerve stimulation over the skin of the affected arm. This is a portable, safe and easy to use device designed for patients to operate in their homes.
This project is a first attempt to assess cough airflow dynamics and true vocal fold (TVF) adduction and abduction angles during voluntary cough to examine the effects of changes in glottal closure due to reduced mobility of one true vocal fold. The hypothesis of this study is that the incomplete glottal closure due to reduced vocal fold mobility will result in changes in true vocal fold adductory and abductory angles during cough and will result in changes to voluntary cough airflow parameters. This study results will contribute to the existing knowledge of the laryngeal contribution to cough airflow dynamics.
Vagus nerve stimulation (VNS) activates neural pathways leading to the release of chemicals that promote plasticity and learning. Previous work has shown that the auricular branch of the vagus nerve innervates landmarks on the external ear. Work from the PI's laboratory has shown that electrical current applied to the external ear activates neural pathways implicated in the therapeutic effects of VNS. The broad objective of this project is to better understand physiological mechanisms that are modulated by auricular stimulation and its potential to enhance motor learning.
Is a unique tele-rehabilitation service directed at treating upper limb weakness due to stroke feasible to provide at Mayo Clinic and are the individuals with stroke and the clinicians providing the care satisfied with the process?
About two-thirds of adults in the United States are overweight or obese with likely adverse health consequences. A Moderate weight loss by dieting and exercise is recommended to improve health. We are interested to know whether eating dietary protein at different times of the day influences changes in body composition, muscle and indices of health. The purpose of this study is to examine the effects of within-day patterning of dietary protein intake (even vs. skewed) on energy-restriction and resistance training-induced changes in body composition, muscle size, appetite, and clinical health (including blood glucose and blood pressure).
The purpose of this study is to determine if individuals who had a stroke more than one year before entering the study and who remain unable to open their affected hand are better able to sense and move their affected arm after 10-15 weeks of treatment with a new robotic therapy device (the AMES device) and EMG biofeedback.
The purpose of this study is to determine if tetraplegic individuals with incomplete spinal cord injury (SCI) who remain unable to move their arms normally 1 year after their SCIs are able to sense and move the affected arm(s) better after 10-13 weeks of treatment with a new robotic therapy device. The hypothesis is that using the AMES device on the arm(s) of chronic tetraplegic subjects with incomplete SCI will result in improved strength, sensation, and functional movement in treated limb(s).
The purpose of this study is to compare standard occupational therapy to a combination of conventional (standard) and robotic therapy. The Reo Go device will provide robotic therapy that gives therapists a tool that could make stroke treatment faster and better by helping patients practice more accurate arm movements with help from the device.
This study will compare the effectiveness of unilateral versus bilateral exercise training for recovering movement abilities in chronic stroke patients. After a stroke, some people have improved their movement ability by exercising the arm affected by the stroke. Others have improved by exercising both arms together. This study will compare these two kinds of exercise to see which might work best. Healthy volunteers and people who have had a stroke more than 6 months ago may be eligible for this study. Stroke patients must have some weakness in their stroke-affected arm. All participants must be 18 years of age or older. Candidates are screened with a clinical and neurological examination. Women who can become pregnant have a pregnancy test. Stroke patients have a magnetic resonance imaging (MRI) study of the brain if they have not had one in the last year. Participants undergo the following tests and procedures: MRI: This procedure uses a magnetic field and radio waves to produce images of body tissues and organs. The subject lies on a table that slides into the scanner (a narrow cylinder), wearing earplugs to muffle loud knocking sounds that occur during the scanning process. The procedure lasts about 45 minutes, during which time the subject must lie still for up to 30 minutes. Testing sessions: There are six test sessions - two to familiarize the subject with the reaching test, two to do the reaching test plus transcranial magnetic stimulation (TMS) before and after an exercise session, and two to do the reaching test plus TMS one day after the exercise session. The sessions are on consecutive days, with a 1-week break after session 3. The procedures involved are: * Reaching test: The subject responds as quickly as possible to a "GO" signal presented on a computer monitor by performing a reaching movement with his or her arm. The activity from the arm muscles is recorded using surface electrodes. During this test, a questionnaire is used to determine the subject's attention, fatigue, and mood. * TMS: For this test, a wire coil is held on the scalp, and a brief electrical current is passed through the coil, creating a magnetic pulse that stimulates the brain. During the stimulation, the subject may be asked to tense certain muscles slightly or perform other simple actions. The stimulation may cause a twitch in muscles of the face, arm, or leg, and the subject may hear a click and feel a pulling sensation on the skin under the coil. The effect of TMS on the muscles is detected with small metal disk electrodes taped onto the skin of the arms. The subject performs the reaching test while TMS is delivered at various times after getting the "GO" signal. * Arm exercises: The subject is seated in front of an exercise device that has two handles that slide forward and backward along a set of tracks. The subject is asked to slide either one or both handles back and forth repeatedly, alternating 5 minutes of arm exercise with 5 minutes of rest for 30 minutes.
Investigators will assess the usefulness of using ultrasound in office procedures for laryngology interventions. Participants who qualify will be adults who are undergoing superior laryngeal nerve block, injection laryngoplasty, swallowing evaluation, voice evaluation and voice therapy.
The goal of this prospective, observational study is to evaluate for the presence of vocal fold motion impairment (VFMI) in the children admitted to the pediatric intensive care unit on noninvasive positive pressure ventilation (NIV PPV). Participants will have two ultrasounds of their vocal folds performed, once while on NIV PPV and once after weaned off of the NIV PPV. This results of these scans will be reviewed against one another and against the gold standard, fiberoptic nasolaryngoscopy (FNL). The main question this study aims to answer is: Can POCUS be used to reliably detect VFMI while pediatric patients on supported with NIV PPV?
This is a single-center, pilot study of up to 25 subjects with residual upper extremity deficits at least six months after an ischemic stroke. The purpose of the study is to evaluate the initial clinical safety, device functionality, and treatment effect of non-invasive electrical stimulation of the trigeminal and/or vagus nerves (nTVNS) using the NeuraStasis Stimulator System adjunctive to rehabilitation. Subjects will either receive the intervention or control-sham stimulation. The study will inform the design and implementation of a pivotal study.
After a stroke, it is very common to lose the ability to open the affected hand. Occupational and physical rehabilitation therapy (OT and PT) combined with non-invasive brain stimulation may help a person recover hand movement. The purpose of this study is to compare 3 non-invasive brain stimulation protocols combined with therapy to see if they result in different amounts of recovery of hand movement after a stroke.
The RESTORE Stroke Study will evaluate the safety and effectiveness of DBS+Rehab for treating arm weakness and reduced function after a stroke.
This study aims to examine the acceptability of patients and occupational therapists in following a mental practice protocol and examine the effects of mental practice with individuals with severe upper extremity hemiparesis (weakness) following a stroke. Mental practice is an adjunctive rehabilitation therapy that involves thinking about a motor task without actually moving. Research has shown that mental practice is a safe and feasible intervention that is effective in improving arm movements after a stroke. Patients in the study will participate in audio-guided mental practice, five days a week for two weeks, completing the following tasks: wiping a table and picking up a cup. The patients' ability to move their affected arm will be measured before and after the study to determine the effect of mental practice. Patients and occupational therapists will complete a survey to determine their feelings about performing or facilitating mental practice. The authors hypothesize that the majority of patients and occupational therapists will find mental practice to be feasible/acceptable for the recovery of the affected arm. Furthermore, we anticipate the majority of patients that complete the mental practice protocol will demonstrate improvements in their arm movements.
Constraint-Induced Movement Therapy or CI Therapy is a form of treatment that systematically employs the application of selected behavioral techniques delivered in intensive treatment over consecutive day with the following strategies utilized: behavioral strategies are implemented to improve the use of the more- affected limb in life situation called a Transfer Package (TP), motor training using a technique called shaping to make progress in successive approximations, repetitive, task oriented training, and strategies to encourage or constrain participants to use the more-affected extremity including restraint of the less-affected arm in the upper extremity (UE) protocol. Numerous studies examining the application of CI therapy with UE rehabilitation after stroke have demonstrated strong evidence for improving the amount of use and the quality of the more-affected UE functional use in the participant's daily life situation. CI Therapy studies with adults, to date, have explored intensive treatment for participants with a range from mild-to-severe motor impairment following stroke with noted motor deficits and limited use of the more-affected arm and hand in everyday activities. Each CI Therapy protocol was designed for the level of impairment demonstrated by participants recruited for the study. However, often following stroke, patients not only have motor deficits but somatosensory impairments as well. The somatosensory issues have not, as yet, been systematically measured and trained in CI Therapy protocols with adults and represent an understudied area of stroke recovery. We hypothesize that participants with mild-to-severe motor impairment and UE functional use deficits can benefit from CI therapy protocols that include somatosensory measurement and training components substituted for portions of motor training without loss in outcome measure gains. Further, we hypothesize that adults can improve somatosensory outcomes as a result of a combined CI therapy plus somatosensory component protocol.
Constraint-Induced Therapy (CI Therapy) is a behavioral approach to neurorehabilitation and consists of multi-components that have been applied in a systematic method to improve the use of the limb or function addressed in the intensive treatment. CI Therapy for the more-affected upper extremity (UE) post-stroke is administered in daily treatment sessions over consecutive weekdays. Sessions include motor training with repeated, timed trials using a technique called shaping, a set of behavioral strategies known as the Transfer Package (TP) to improve the use of the more-affected hand in the life situation, and strategies to remind participants to use the more-affected UE including restraint. Robust improvements in the amount and qualify of use have been realized with stroke participants from mild-to-severe UE impairment.
CI therapy is a family of techniques that has systematically applied intensive treatment daily over consecutive days, supervised motor training using a technique called shaping, behavioral strategies to improve the use of the more- affected limb in real life situations called a Transfer Package (TP), and strategies to remind participants to use the more-affected extremity; including restraint of the less-affected arm in the upper extremity (UE) protocol. Numerous studies examining use of CI therapy with UE rehabilitation have demonstrated robust evidence for increasing the amount and the quality of the paretic UE functional use in daily situations of individuals recovering from stroke. Previous studies have explored the barriers for clinical implementation of the approach, including the amount of time needed by therapists, other resources required and lack of payment for the services. With regards to therapists' time/resources, in the signature CI therapy protocol, therapists supervised movement training for 3 hours daily (except for weekends) for a 12 consecutive-day period. This level of supervision in highly unusual for traditional rehabilitation clinical settings. The treatment schedule is also incompatible with most insurance reimbursement policies in the US. As such, most CI therapy clinics require patients to pay privately with little or no insurance reimbursement. Such practices severely limit the number of patients who can afford to receive CI therapy. Two lines of evidence have suggested that an alternative CI therapy protocol may allow for the essential (or "Key") CI therapy elements to be delivered in a schedule that better utilizes therapist time/resources and is compatible with payment policies of many US insurance companies. One line of evidence comes from findings that indicate that the original 6-hour supervised training schedule could be shortened to as little as 2-hours/daily without a reduction in outcomes. Additional evidence comes from a study exploring the systematic addition and deletion of the signature CI therapy protocol elements indicated that when the transfer package was omitted, outcomes related to functional use were reduced by 50%. These findings were also verified by brain imaging studies conducted concurrently that revealed a much-reduced level of brain remodeling in those not receiving the transfer package. These findings highlight the potential effectiveness of the transfer package and continued movement training by the patient while away from clinical supervision. The hypothesis of this study is that the amount of supervised training could be reduced further and delivered in a distributed schedule (1 to 4 times/ week over an 8-week period) instead of consecutively over a 12-day treatment period. This modification could be possible by adapting and strengthening the transfer package component of the protocol. In order to investigate if all of the Keys intervention protocol is necessary for producing optimal outcomes, the delivery of specific protocol elements will be also explored. Additionally, another round of testing at the 4-week point of the 8-week intervention will be administered to investigate the need for the final 4 weeks of the intervention.