74 Clinical Trials for Various Conditions
The purpose of this study is to assess and optimize the Avation electric stimulation system output and electromyography (EMG) processing to stimulate the tibial nerve in people with chronic Spinal Cord Injury (SCI) who have foot muscle atrophy and edema, both of which may affect proper device operations, to evaluate the safety, feasibility, and effectiveness of Avation Electric Stimulation System for bladder neuromodulation in people with SCI and identify barriers to implementation of the existing Avation Electric Stimulation System to help with developing it towards a new indication for routine care of SCI NB.
This study will assess the impact of traveling wave transcranial alternating current stimulation (tACS) on working memory performance in adults.
Older ICU survivors with ICU acquired weakness (ICUAW) are malnourished, sarcopenic, and functionally debilitated as a consequence of the high burden of comorbidities common in the elderly. To address the sequalae of critical illnesses, the investigators will perform a trial incorporating an intervention that combines mobility-based physical rehabilitation (MRP), high protein supplementation (HPRO), and neuromuscular electric stimulation (NMES). The investigators will then assess both clinical and functional outcomes and determine the relationship of disability with systemic inflammation.
The purpose of this study is to investigate whether transcranial direct-current stimulation (tDCS) will engage reward-related brain circuitry, more specifically the uncinate fasciculus (UF) tract, which connects the orbitofrontal cortex (OFC) and nucleus accumbens (NAcc) regions. Also to evaluate whether the changes in the fractional anisotropy (FA) of the UF tract are associated with changes of clinical symptoms of anhedonia and finally to investigate the moderation role of simulated electric fields (EFs) in an association between FA of the UF and symptoms of anhedonia.
Background: People with TRD are often helped by electroconvulsive therapy (ECT). But ECT can affect memory and thinking. Researchers want to study a treatment called TEST that uses less electricity. Objective: To study the safety and feasibility of TEST and assess its antidepressant effects. Eligibility: Adults aged 25-64 with major depression that has not been relieved by current treatments. Design: Participants will be admitted to the NIH Clinical Center for 5 18 weeks over 2 3 treatment phases. Their medications may be adjusted. Participants will be interviewed about their depression, side effects, and other treatments they are receiving. They will complete questionnaires. They will give blood and urine samples. Their brain waves and heart rhythm will be recorded. They will take tests of memory, attention, mental functioning, and thinking. Participants will have magnetic resonance imaging (MRI) scans of the head and brain. They will lie on a table that slides in and out of the scanner. Pictures of brain chemicals will also be taken. They may complete tasks during the MRI. Participants will receive TEST and/or sham treatments. They may receive optional ECT. An intravenous catheter will be placed in an arm vein to receive general anesthesia. Two electrodes will be placed on the front of their head. An electric current will be passed from the ECT machine through the electrodes. For sham treatments, they will not receive the electric current. Their breathing, heart rate, brain function, blood pressure, and body movements will be measured. Participants will have 7 follow-up visits over 6 months. Visits can be done via telehealth. Participation will last for up to 42 weeks.
The goal in this study is to investigate TEST (Transcranial Electric Stimulation Therapy) for chronic pain. It requires an inpatient stay on our research unit of about a month. The study is designed to address the cognitive and emotional aspects of chronic pain and other conditions that often accompany this disorder, such as major depression or drug use.
This pilot study aims to investigate whether a treatment called cranial electric stimulation or CES can decrease risk factors for suicide. The specific CES device we will use is called Alpha-Stim®. CES will be used in addition to usual treatment (medication and group therapy).
Elderly patients who experience a prolonged ICU stay are at high risk for developing post intensive care unit syndrome (PICS), a serious medical condition manifested by loss of muscle mass, weakness, malnutrition and neurocognitive decline. PICS often leads to chronic disability, prolonged mechanical ventilation and the need for costly extended stays in long term care facilities (LTCs). The investigators' preliminary study shows attempts at rehabilitating patients who have already developed PICS are minimally effective, resulting in only modest improvements in functionality. This project will determine the effects of mobility-based physical rehabilitation (MPR) combined with neuromuscular electric stimulation (NMES) and high protein supplementation (HPRO) early in a patients ICU stay on preventing PICS related musculoskeletal and functional deficits, and improving clinical outcomes.
Transcorneal Electrical Stimulation (TES) using the "OkuStim®" device delivers electrical impulses to damaged and/or diseased photoreceptor cells. This electric stimulation of the retina may help to preserve visual acuity and/or the visual field.
The primary objective of this study is to determine whether neuromuscular electrical stimulation applied to the abdominal wall muscles in synchrony with exhalation can increase the strength of the respiratory muscles in prolonged mechanical ventilation patients.
This study will determine whether electrical stimulation of an area of the brain called the dorsolateral prefrontal cortex, which is important in determining the feeling of fullness after eating, affects how much food a person eats and weight loss over 4 weeks. It will also compare weight changes in people who attend weight loss counseling sessions and those who do not over this period of time. Obese, non-diabetic people between 18 and 60 years of age who are in good health and who live in the Phoenix, AZ, metropolitan area are eligible for this study. Candidates must have a body mass index of 35 kg/m(2) or more and weigh less than 350 pounds. Participants are admitted to the NIH inpatient unit in Phoenix for the first 9 days of the study for tests, which include meal tests to determine eating behaviors and caloric intake, blood and urine tests, glucose tolerance test, weight measurement, psychological assessments and DEXA scan to measure body fat. For 3 of the days, they will be asked to eat all of their food from automated vending machines. Some subjects receive transcranial direct current stimulation (TDCS). For this procedure, electrodes that conduct electricity are placed on the head and arm and the current is turned on for 40 minutes. Some tingling may be felt under the electrodes. Other subjects receive sham TDCS, with the current turned on only very briefly. After the evaluations, subjects are discharged home from the NIH unit and instructed to eat 25 percent fewer calories than they consumed while on a weight maintenance diet the first 3 days of their inpatient stay. They maintain the lower calorie diet at home for 4 weeks. During this period they come to the NIH unit 3 days a week to receive either real or sham TDCS.
The study will be a non-randomized, non-blinded pilot study to analyze the safety and feasibility of a non-significant risk device, transcutaneous spinal cord stimulation. The aim is to include 30 total patients, 10 patients in each of 3 groups: 1. Non-traumatic spinal cord injury (ntSCI) with diagnosis of degenerative cervical myelopathy and offered surgical intervention. 2. Early tSCI screened during the hospital admission when cervical/thoracic spinal injury was diagnosed. 3. Delayed tSCI (control) screened 6-24 months after acute cervical/thoracic spinal injury.
The purpose of this study is to develop the safety, feasibility, and tolerability of a personalized transcranial alternating current stimulation (tACS) approach in antenatal depression.
The objective of this study is to determine the effects of a 6-month, home-based personalized transcranial direct current stimulation (tDCS) intervention targeting the left dorsolateral prefrontal cortex on cognitive function, dual task standing and walking, and other metrics of mobility in older adults with motoric cognitive risk syndrome (MCR).
The goal of this clinical trial is to examine the effects of 12 weeks of post-operative use of a novel wearable electrical stimulation knee sleeve device (KneeStim) on post-operative biomechanical function (gait). Participants will be United States Military Academy cadets aged 17-27 years. The main questions it aims to answer are: * Examine the effects of KneeStim wear on cadets' post-operative gait * Examine changes in site-specific skeletal muscle mass * Examine the changes in patient-reported outcomes * Assess time to return to full duty * Compare Bioelectrical Impedance Analysis (BIA) measurements to Magnetic Resonance Imaging (MRI) measurements (total thigh volume) * Determine the concurrent criterion validity of the KneeStim device compared to gold- standard metrics (3D Motion Capture) Participants will undergo body composition analysis, MRI, strength testing, standard of care rehabilitation, gait analysis, and complete surveys. Participants will wear the KneeStim during their standard of care rehabilitation visits for the first 5 weeks post-operative, and throughout daily tasks from 6-12 weeks. Researchers will compare a control group (standard of care + KneeStim controlled low intensity) to an experimental group (standard of care + KneeStim flexible intensity) to assess the aims previously mentioned..
Incontinence associates with military service and post-traumatic stress disorder in both male and female Veterans. Neurogenic detrusor overactivity (NDO) is caused by spinal cord injury or disorder, or peripheral neurodegenerative conditions, and causes urine leakage at low volumes. NDO is disproportionately experienced by Veterans and treatment effectiveness varies greatly between individuals. This project will demonstrate the feasibility of a new type of nerve stimulation-triggered sacral neuromodulation-to treat NDO in Veterans. A wireless bladder sensor will be inserted into the bladder to transmit a feedback signal enabling stimulation from a percutaneous lead. The wireless sensor will also measure NDO symptoms during simulated activities of daily living without catheters. Catheter-free detection of bladder activity will improve the outcomes of neuromodulation evaluations for Veterans with NDO. Future work could use the triggered neuromodulation system to study other methods of nerve stimulation to treat bladder, bowel, or sexual dysfunction.
A clinical study at the Dallas Veterans Affairs, is being proposed to test the efficacy of a novel electrical stimulation platform named the Pro-Sport Ultra® device by AVAZZIA to reduce pain and increase activity level in patients with knee osteoarthritis.
The purpose of this study is to determine if electric stimulation to the leg, called transcutaneous tibial nerve stimulation (TTNS), can improve bladder outcomes in acute spinal cord injury.
A clinical study at Activated Family Chiropractic \& Wellness, is being proposed to test the efficacy of a novel electrical stimulation platform named the Pro-Sport Ultra® designed by AVAZZIA to relieve pain and improve mobility in patients with Carpal Tunnel Syndrome (CTS).
The purpose of this study is to explore the tolerability and effectiveness of transcranial direct current stimulation (tDCS) as a potential treatment for non-suicidal self-injury (NSSI). Individuals who engage in frequent NSSI will be randomized to 12 administrations of an active vs. inactive form of tDCS, paired with an Attention Training Technique task, over a two-week period. Functional MRI may be performed before and after this two week period. NSSI urges and behaviors will be monitored before, during, and after the period of tDCS administrations.
The purpose of this study is to determine the efficacy of home transcutaneous tibial nerve stimulation (TTNS) in spinal cord injury(SCI) and to determine the impact on quality of life using TTNS at home
This study is for people who have a paralyzed arm and hand from a spinal cord injury, who have also received a recording electrode array in the brain as part of the BrainGate study. The study will look at the ability of these participants to control different grasping patterns of the hand, both in virtual reality and in his/her actual hand. Movement of the participant's hand is controlled by a functional electrical stimulation (FES) system, which involves small electrodes implanted in the arm, shoulder and hand that use small electrical currents to activate the appropriate muscles.
Determine the safety, feasibility, compliance, and efficacy of a daily home TTNS protocol in chronic SCI provided by self or caregiver for 4 weeks.
Denervation following spinal cord injury (SCI) limits beneficial application of neuromuscular electrical stimulation (NMES). SCI with denervation results in extensive muscle atrophy that is accompanied with several cardio-metabolic health risks. The current proposal provides a novel intervention by examining the effects of long pulse width stimulation (LPWS) and testosterone replacement therapy (TRT) on restoring muscle size and leg lean mass after denervation in persons with SCI. This intervention will be rewarding for Veterans and Civilians with SCI who do not benefit from exercising their lower extremity muscles because denervation has limited the response to standard surface NMES. The investigators will study the biochemical mechanisms that contribute to changes in muscle size following this novel training. Combing both pharmaceutical and physical-therapeutic interventions will optimize restoration of muscle size after SCI.
The purpose of this study is to test the effects of tDCS (Transcranial Direct Current Stimulation) on stroke patients with working memory problems.
The purpose of this study is to test the efficacy and safety of tDCS (Transcranial Direct Current Stimulation) on apathy in stroke patients.
The purpose of this study is to determine if patients undergoing a total knee arthroplasty (TKA) experience a clinically significant reduction in healing time when treated post operatively with a specific form of micro and nano-ampere current. The results of this trial will provide a basis for generalizing its outcomes to apply to other joint replacements and revisions by reducing edema and inflammation and therefore will result in a shorter time to heal. The study will compare electrically treated and non electrically treated patients by using digitally based measurements to determine objective reductions of lower extremity edema including intra and inter cellular shifts in fluid distribution, increased range of motion (ROM) and muscle strength, and improved functional tests of ambulation.
The purpose of this research study is to evaluate the effects upon the bladder of electric stimulation of the leg's tibial nerve in people with acute spinal cord injury with an intervention called transcutaneous tibial nerve stimulation (TTNS).
Background: Over one million patients in the US are estimated to undergo mechanical ventilation every year, and approximately 300,000 of them fail attempts at weaning. The morbidity and mortality of these patients is greater than in patients who are successfully weaned. It follows that treatments aimed at reducing the duration of mechanical ventilation have the potential to benefit society both in terms of human suffering and cost. Patients who fail attempts at weaning assist their inspiratory muscles during inhalation by recruiting their expiratory muscles during exhalation. Unfortunately, this recruitment occurs relatively late during a weaning trial. The knowledge that (a) expiratory muscle recruitment can assist inspiration, (b) the recruitment of the expiratory muscles is delayed during weaning, and (c) that the respiratory muscles in patients requiring mechanical ventilation are in a catabolic state raises the possibility that strategies designed to produce an early recruitment, and improve the strength, of the expiratory muscles could improve weaning outcomes in difficult to wean patients. The current investigation, which will be conducted in healthy subjects and in ambulatory patients with chronic obstructive pulmonary disease (COPD) at Edward Hines Jr. VAH (Aims 1 and 2), and in patients who are difficult to wean from mechanical ventilation at RML Specialty Hospital, Hinsdale, IL (Aim 3), has been designed to develop and assess a novel triggering algorithm (VentFree), that controls the delivery of non-invasive neuro muscular electrical stimulation (NMES) to the abdominal-wall muscles during exhalation, and to study the physiological (respiratory) responses to such stimulation in assisting respiration in healthy subjects, in ambulatory patients with COPD and in patients requiring pronged mechanical ventilation.
Transcranial Direct Current Stimulation (tDCS) is a safe, non-invasive brain stimulation technology that has demonstrated the ability to temporarily increase or decrease activity in specific regions of the brain. The researchers are investigating the effect of this technology on sleep propensity by applying two different types of stimulation as well as sham (Placebo) stimulation during three different afternoon naps. The researchers are subsequently hoping to recruit healthy volunteers without medical, or sleep problems who have a regular sleep schedule to participate in the study