151 Clinical Trials for Various Conditions
The study aims to determine the efficacy of a controlled short-term trial of CBD ingestion for reducing symptomatic response and facilitating recovery following induced muscle injury. A double-blind, randomized, three-arm study design will be used and participants will be randomly assigned to either a high dose (n=15), low dose (n=15), or vehicle control group (n=15). The clinical outcomes include measures of muscular pain and disability along with measures of pain-related fear and anxiety.
The objectives of this study are to assess the efficacy, safety, and tolerability of PLX-PAD intramuscular administration for the treatment of muscle injury following arthroplasty for HF.
Back injuries are the most common reason people seeking for effective treatment. One of the most common treatments in sports medicine for muscular injuries is therapeutic ultrasound, which is designed to heat the injured tissue and increase the flow of blood to promote healing.
The overall goal of this study is to establish a new pre-rehabilitation program in the prevention of muscle injury in the legs of healthy people serving in the military and injured individuals with muscle wasting following leg injuries. The specific goals include: 1) the amount of exercise that causes injury to healthy muscle in the lower leg of healthy people; 2) what is the effect of an intervention (pre-rehabilitation program) on decreasing how easily the muscle of the lower leg can be injured in healthy people; 3a) what amount of exercise causes injury to muscle that has recently been injured and is recovering and 3b) the effect of the new pre-rehabilitation program on the muscles of the lower leg when the muscle has recently been injured and is still recovering. For the first goal, the investigators will determine how easily the muscle can get injured from a specific exercise in 6 healthy, conditioned men and women. Participants will perform different amounts of exercise with the lower leg muscles to see how easily the muscle can be damaged. Magnetic resonance imaging (MRI) will be used to estimate how much damage occurs with the different levels of exercise. For the second goal, the investigators will examine the effect of a new pre-rehabilitation program on decreasing how easily muscle gets damaged from the exercise we did in the first goal. The investigators will invite healthy people to participate in this goal. The investigators will use MRI, blood markers, and pain as ways of assessing muscle damage in 10 people who do the pre-rehabilitation program before exercising and 10 who do not do the new program. The third goal will focus on a) determining how easily muscle gets injured that has recently recovered from some trauma (5 people will participate in this part of the third goal), and b) determining how a pre-rehabilitation program decreases how easily a muscle that has just recovered from trauma gets injured from exercise (10 people will participate in this part of the third goal).
The purpose of this study is to assess the effects of tart cherry juice to reduce serum biomarkers of inflammation and reduce muscle soreness in healthy adults who undergo a bout of controlled eccentric exercise.
The purpose of this study is to determine if 2-weeks supplementation with blueberries (1 cup/day) compared to placebo can mitigate muscle soreness and damage, and improve inflammation resolution and metabolic recovery during a 5-day period after engaging in an acute, 90-minute bout of eccentric exercise. The primary outcome will be plasma oxylipin levels, extending previously collected data showing that blueberry ingestion decreases post-exercise oxylipins generated from cytochrome P450 enzymes.
The PURPOSE of this study is to see if eating almonds for four weeks will reduce muscle damage, soreness, and inflammation during several days of recovery from eccentric exercise.
The purpose of this study is to measure the effect of using a turmeric-based supplement for 2-weeks on muscle damage and soreness that occur in the body after 90-minutes of exercise. Participants will first come to the human performance lab (HPL) for orientation and pre-study fitness tests including muscular fitness and body composition. Participants will be randomized to turmeric or placebo groups, and take 2 tablets of the supplements each day for the first two weeks. Participants will report back to the HPL on a Monday to engage in weight lifting and calisthenics for 90 minutes. Fitness tests (vertical jump, bench press, leg-back lift for strength, 30-second cycling sprint test) and blood samples will be given and collected before and after this exercise session. Participants will then come back to the HPL each morning, Tuesday through Friday, in the early morning to provide blood samples and retake the fitness tests. This study will entail seven HPL visits over a 3-week period.
The purpose of this study is to determine if supplementation with NUTRALYS pea protein isolate compared to whey protein and apple juice (carbohydrate, non-protein control) before, during, and after a 90-minute bout of eccentric exercise can attenuate exercise-induced muscle damage, inflammation, and delayed onset of muscle soreness (DOMS), and speed recovery of muscle function.
Vigorous exercise bouts result in significant inflammation and muscle soreness. Our research group has published several papers showing that ingestion of various types of fruits enhances inflammation resolution after exercise. Mangoes have a unique nutrient profile (carotenoids, polyphenols, sugars, vitamins) that we hypothesize will mitigate post-exercise inflammation and muscle soreness. This study will examine the effect of 2 cups/day frozen mango ingestion (2 weeks, 330 g/day) in moderating exercise-induced (2.25 h cycling) inflammation and muscle soreness in a randomized crossover trial. Participants will include 20 male and female young adult cyclists (ages 18-60 years) who are capable of cycling 2.25 h in the laboratory on trainers. In random order, the cyclists will supplement their diets with 2 cups/day mangoes with 1 cup water or 1 cup water alone for two weeks, followed by the 2.25-h exercise challenge. Blood and urine samples will be collected pre- and post-2 weeks supplementation. Additional blood samples will be collected immediately post-exercise, and then 1.5-h, 3-h, and 24-h post-exercise. Urine samples will be analyzed for mango-related metabolites to confirm compliance to the supplementation regimen and to establish statistical relationships with inflammation-related outcomes. The blood samples will be analyzed for novel, cutting-edge outcomes related to inflammation including 70 oxylipins, inflammasome activation, and pro-inflammatory cytokines that we have previously shown are sensitive to exercise and nutrition-based interventions. If the data support our hypothesis, mango ingestion will be viewed as a nutritional strategy to counter exercise-induced inflammation by fitness enthusiasts and athletes who exercise vigorously on a regular basis.
The purpose of this study is to evaluate continuous ultrasound treatment with diclofenac coupling patch during routine care of musculoskeletal injuries which failed conservative treatment to better understand clinical utilization of the treatment on types of injuries, how the treatment helps patients (pain, function and quality of life), and information on healthcare provider ordering the therapy and general workflow. Low-intensity continuous ultrasound (LICUS) is a bio regenerative technology used when normal rehabilitation is insufficient, applied with a wearable device (SAM, Zetroz Systems LLC) for daily use. The treatment provides long-duration ultrasound for approximately four hours. The objective of this study is to examine the real-world outcome data on symptoms improvement and return to function using SAM during routine care.
Determine if volume imaging can diagnose bone, ligament, muscle injuries.
The objective of the study is to assess mechanical strength and function in subjects undergoing Musculotendinous Tissue Unit Repair and Reinforcement (MTURR) with the use of biologic scaffolds for the restoration of both mechanical strength and function in these subjects. This study will formally evaluate healing and return of function after an extracellular matrix device implantation in 40 male and female subjects participating at 4-5 military sites who suffer from injury with loss of skeletal muscle tissue. The University of Pittsburgh under the Department of Plastic and Reconstructive Surgery is the Coordinating Center for this multi-site study.
The objective of the study is to assess mechanical strength and function in subjects undergoing Musculotendinous Tissue Unit Repair and Reinforcement (MTURR) with the use of biologic scaffolds for the restoration of both mechanical strength and function in these subjects. This study formally evaluated healing and return of function after an extracellular matrix device implantation in 17 male and female subjects participating at the University of Pittsburgh under the Department of Plastic and Reconstructive Surgery who suffer from injury with loss of skeletal muscle tissue.
This study is designed to evaluate the safety and effectiveness of the Materna Prep Device in reducing pelvic muscle injuries during vaginal delivery. Subjects are randomized to Materna Prep Device or Standard of Care without use of the Materna Prep Device Intervention with the Materna Prep Device is expected to be a one-time use of approximately 30-90 minutes during the 1st stage of labor. Subject participation in the study is targeted to be 3 months from the time of the use of the device during delivery with optional long-term follow-up.
This study is designed to evaluate the safety and effectiveness of the Materna Prep Device in reducing pelvic muscle injuries during vaginal delivery. Subjects are randomized to Materna Prep Device or Standard of Care without use of the Materna Prep Device Intervention with the Materna Prep Device is expected to be a one-time use of approximately 30-90 minutes during the 1st stage of labor. Subject participation in the study is targeted to be 12 months from the time of the use of the device during delivery.
The purpose of this study is to determine whether preoperative mobility device training is beneficial in reducing incidence of postoperative falls in patients undergoing elective foot and ankle surgery requiring a postoperative period of no weight-bearing.
Quadriceps muscle weakness is a common consequence following anterior cruciate ligament (ACL) injury and reconstruction. Maximizing quadriceps strength following ACL injury is significant as diminished quadriceps strength has been linked to the osteoarthritis that affects over 50% of surgically reconstructed limbs. Given that knee joint health following ACL injury is predicated on restoring quadriceps strength, identifying treatment approaches capable of improving strength is paramount. Blood flow restriction training (BFRT) is a method where oxygen to the muscle is intentionally reduced during exercise/rehabilitation and may lead to more timely and substantial strength gains. In the proposed project, we will examine the efficacy of BFRT in patients who have undergone ACL reconstruction and suffer from substantial quadriceps weakness.
Most neurological injuries such as spinal cord injuries (SCI) and amyotrophic lateral sclerosis (ALS) spare a portion of nerve circuitry. Strengthening spared nerve circuits may be an important method to improve functional recovery. In this study, the investigators aim to use non-invasive magnetic and electrical stimulation to strengthen motor circuits between the brain and hands. Magnetic stimulation will be used over the motor cortex (scalp). Two methods of electrical stimulation will be compared: stimulation of the median nerve at the wrist; or direct stimulation of the cervical spinal cord across the skin on the back of the neck. Several different combinations of magnetic and electrical stimulation will be compared to find the conditions that best strengthen nerve circuits between the brain and hands - "Fire Together, Wire Together". PLEASE NOTE, THIS IS A PRELIMINARY STUDY. This study is testing for temporary changes in nerve transmission and hand function. THERE IS NO EXPECTATION OF LONG-TERM BENEFIT FROM THIS STUDY. If we see temporary changes in this study, then future studies would focus on how to prolong that effect.
The purpose of this study is to examine important and significant problems, that of insulin resistance and muscle wasting after burn injury.
Intensive care unit (ICU) hospitalization saves lives but often does so at a high personal cost to ICU survivors who frequently experience significant cognitive impairment and an array of physical and functional disabilities that limit their recovery and quality of life. While the problems experienced by these patients are likely amenable to rehabilitation, few ICU survivors receive focused rehabilitation following hospital discharge. The purpose of this study is to initiate and test the feasibility of a complex intervention incorporating a cognitive, physical, and functional rehabilitation program at the time of hospital discharge and implement this 12 week program using in-home visits and tele-technology. We hypothesize that this interdisciplinary rehabilitation program, initiated at hospital discharge and implemented using in-home visits and tele-technology, will result in improved recovery of neuropsychological and physical performance and overall functional status.
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.
This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
This study uses closed-loop control of tendon vibration to implement clinically meaningful management of muscle spasms after spinal cord injury (SCI), and to understand the mechanisms responsible for spasm generation change in response to vibration.
Traumatic knee injury is common and highly debilitating. Surgical reconstruction/repair improves knee biomechanics and function, but neuromuscular dysfunction persist for years despite rehabilitation, hindering resumption of normal activities, increasing risk of further injury and, in a majority of patients, hastening the development of knee osteoarthritis (OA). Our goal in this research study is to evaluate the utility of neuromuscular electrical stimulation (NMES), initiated following injury and maintained through the early post-surgical period, to prevent muscle atrophy and intrinsic contractile dysfunction compared to active control intervention of micro-electrical stimulation.
The purpose of this research is to evaluate the ability of a Nitric Oxide (NO) Sensor to collect NO measurement data from an open wound. Previous research suggests that NO levels may indicate the stage of healing the wound is in. This study is being done to determine if the NO Sensor can measure how much NO is in a participant's wound. The researcher will place the NO Sensor into a participant's wound to collect NO measurements for 30-60 minutes. The participant will then have 2 follow-up appointments to see how the wound heals over time.
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 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..
The purpose of our study is to evaluate vibrotactile Coordinated Reset (vCR) and its effects on spasticity symptoms in incomplete spinal cord injured patients. vCR will be administered with a device called the Stanford CR Glove. vCR is expected to provide patients with a non-invasive alternative to the most widely used treatments such as oral baclofen and or deep brain stimulation. Patients will be followed for three months and will be asked to come to the lab for clinical testing 4 times during this period. A total of 30 patients will be included in the study.
Atrophy and weakness of the shoulder are a common problem following treatment of a number of shoulder and elbow pathologies. Even with relatively short periods of reduced activity, the magnitude of muscle loss can be quite substantial.