112 Clinical Trials for Various Conditions
Oral Melatonin is a commercially available product available alone and as a constituent in a number of supplements. Previous research suggests that short-term supplementation with oral melatonin may amplify the recovery response to damaging resistance exercise via modulation of subsequent immune and inflammatory responses. However the effects of oral melatonin on neutrophil and monocyte invasion/migration, a critical step in the resolution of skeletal muscle tissue homeostasis, has not been examined. An oral melatonin supplement (5mg) will be provided three times daily beginning 24-hours before and ending 48-hours after an acute bout of damaging resistance exercise (total 15mg/day for 3 days). Goals: 1. To investigate the effect of melatonin on systemic and cellular responses following an acute bout of damaging resistance exercise. 2. To investigate the effect of melatonin on measures of functional performance before and during recovery from an acute bout of damaging resistance exercise.
The goal of this quantitative experimental study is to compare two occupational therapy interventions intended to improve functional skills. The main questions it aims to answer are: Question 1: Do preschool children who participate in occupational therapy intervention designed to promote integration of the TLR reflex in conjunction with fine and gross motor intervention demonstrate improved integration of the TLR reflex in clinical assessment, compared to children who participate in fine and gross motor intervention only for an equal amount of time? Question 2: Do preschool children who participate in occupational therapy intervention designed to promote integration of the TLR reflex in conjunction with fine and gross motor intervention demonstrate improved integration of the TLR reflex in clinical assessment, compared to children who participate in fine and gross motor intervention only for an equal amount of time? Participants will participate in either a therapy program consisting of either fine and gross motor treatment in conjunction with reflex integration treatment, or fine and gross motor treatment only. If there is a comparison group: Researchers will compare the group recieving reflex integration in conjunction with fine and gross motor treatment and the fine and gross motor only group to see if one is more effective at integrating the reflex and/or improving functional skills.
The overall objective of this proposed randomized, crossover study is to determine the effect of 12 weeks of almond consumption, ingested as a snack twice daily, on energy expenditure, performance and functional related outcomes, in active, overweight, older adults, in comparison to 12 weeks of an isocaloric matched control snack. The central hypothesis of this study is, due to the nutritionally beneficial composition of almonds, that daily consumption of an almond snack for 12 weeks will contribute to improvements in energy expenditure, physical and functional performance, vascular function, inflammation/oxidative stress, sleep quality, mood status, and body composition in active, overweight and obese older adults compared to an isocaloric commercially available snack.
Adults with intellectual disabilities (ID) have significantly lower levels of fitness compared to the general population. The health benefits of enhanced muscular strength in the general population are well established. In adults with ID, increased muscular strength levels are positively associated with improved aerobic capacity and performance of functional tasks. A concerted effort has been made to design and evaluate resistance training (RT) interventions aimed at increasing muscular strength in adults with ID. While the findings are encouraging, the small number of published studies, missing or poorly described theoretical frameworks or familiarization protocols that guided the RT interventions, and compromised methodological quality raise questions about the actual effects of these interventions and warrant further investigation. The primary purpose of this study is to design and pilot test the effects of an innovative community-based multi-component RT program, Resistance Training for Empowerment (RT-POWER). The primary aim of RT-POWER is to improve muscular strength and independent functional performance in adults with ID. The trial is guided by the SCT theoretical framework. Adults with ID will be randomly allocated to either an experimental group (EG) or a control group (CG). The EG will receive the RT-POWER intervention and the CG will receive an RT intervention traditionally used with the general population. Stage 1 will consist of six familiarization sessions (2 per week for 3 weeks) and Stage 2 will consist of 20 RT sessions (2 per week for 10 weeks). Five hypotheses will be tested: (a) The EG will demonstrate significantly greater increases on the chest-press and leg-press one-repetition maximum (1-RM) tests from baseline to Week 15 compared with the CG; (b) The EG will demonstrate significantly greater increases on the plank test from baseline to Week 15 compared with the CG; (c) The EG will demonstrate significantly greater increases on the six-minute walk test (6MWT) from baseline to Week 15 compared with the CG; (d) The EG will demonstrate significantly greater decreases on the stair climb functional test (SCFT) from baseline to Week 15 compared with the CG; and (e) The EG will demonstrate significantly greater increases in the percentage of steps performed correctly and independently of four RT exercise tasks from baseline to Week 15 compared with the CG.
Multi-center, prospective, randomized controlled study comparing PCI guided by angiography versus iFR Co-Registration using commercially available Philips pressure guidewires and the SyncVision co-registration system, employing an adaptive design study for interim sample size re-estimation.
Non-invasive brain stimulation has been shown to alter performance in both clinical and healthy populations on cognitive tasks. While the performance alterations have generally been shown to result in enhancement, mixed results remain in the literature. Much of the mixed results within the literature have been attributed to the use of different stimulation parameters, targeting of different brain areas, and using a variety of performance measures or assessing different constructs. However, non-invasive brain stimulation is a desirable method for enhancing Soldier performance given the ease of administration and minimal side effects as compared to other forms of performance enhancement (e.g., pharmaceuticals, caffeine). The objective of the current study is to evaluate the effects of non-invasive brain stimulation to the left dorsolateral prefrontal cortex in enhancing Soldier cognitive skills and performance on military tasks. A double blind within-subjects design will be used with healthy, rested Soldiers who will receive non-invasive brain stimulation and perform basic cognitive and operationally relevant tasks.
The investigators would like to know which one of two exercise programs will have a greater effect on balance, functional performance, daily function, and pain on individuals with low back pain (LBP) after 2, 4 and 8 weeks. Specifically, the differences in dynamic balance, functional performance, pain intensity, and disability level will be compared between participants who receive spinal stabilization exercises program (SSE) and those who receive a general exercise program (GE) which includes range-of-motion (ROM) and flexibility exercises. The research hypotheses are: 1. The SSE program will significantly improve dynamic balance and functional performance in adult participants with sub-acute and chronic LBP at two and four weeks as well as after an eight-week follow-up after initiating intervention. 2. The SSE program will significantly improve pain intensity and disability level in adult participants with sub-acute and chronic LBP at two and four weeks as well as after an eight-week follow-up after initiating intervention. 3. In adult participants with sub-acute and chronic LBP, the group receiving the SSE program will demonstrate significantly improved dynamic balance, functional performance, pain intensity and disability levels compared to the placebo group receiving the GE program at two and four weeks as well as after an eight-week follow-up after initiating intervention.
The purpose of this study is to investigate the effects of Astym® treatment, The Stick® treatment and massage treatment on performance among healthy college athletes and to investigate any relationship between functional movement and functional performance. Participants will be recruited from Division II, National Association of Intercollegiate Athletics (NAIA) basketball and volleyball teams. The participants will be randomized into one of three groups: Astym treatment (AT), The Stick treatment (ST) or massage treatment (MT). The participant will have baseline measures of vertical jump (VJ), Y-Balance Lower Quarter Screen (YBLQ), and a rating of current perceived lower extremity function using a visual analog scale (PLEF-VAS). The participants will be treated using either the AT, ST, or MT following baseline measures. Immediately following the intervention, a second measurement of VJ, YBLQ, and PLEF-VAS will take place. The data will be analyzed using mixed ANOVA tests which will be conducted for each dependent variable. In addition, functional movement is thought to be related to functional performance. A Pearson Product Correlation analysis will be used to understand any relationship between YBLQ and VJ. It is hypothesized that those in the AT group will have different percent change in their YBLQ, VJ, and PLEF-VAS compared to those in ST and MT groups. It is hypothesized that a correlation between YBLQ and VJ will exist. As a result, clinicians could use AT among basketball and volleyball athletes without hindering acute performance. Any risks the participants could encounter are minimal. Participants may withdraw themselves and their data at any time. The intervention and testing are similar to what an athlete would be exposed to during their collegiate career. Any participant injured during this study will be referred to their university sports medicine staff, health center, or the Indiana Wesleyan University health center.
The overall objective of this study is to provide a more comfortable and functional prosthetic socket for persons with transfemoral amputation that will ultimately improve their quality of life.
The purpose of this study is to see if exercise fitness testing is feasible and safe in persons over 21 years of age who have been diagnosed with a hematological malignancy and are scheduled to undergo a hematopoietic stem cell transplant (HCT). Assessments in this study will look at the capacity of the body before transplantation to see if these measures can help predict how patients do after transplant.
This study will compare the functional performance of voluntary opening (VO) and voluntary closing (VC) body powered prostheses. We hypothesize that the ability to sense cable tension and produce progressively higher pinch from shoulder force will result in advantages for the VC terminal device (TRS, Grip 3) in terms of proprioception and overall function. The specific aims of this clinical trial are to: 1. Determine if accommodation with a VC Grip 3 prehensor will result in reduced compensatory motion during activity. 2. Determine if accommodation with a VC Grip 3 prehensor will result in improved function in activities of daily living.
This post-marketing investigation will evaluate the functional knee performance of Subjects who have undergone primary total knee arthroplasty (TKA). Data from Subjects who receive one of four contemporary knee configurations will be pooled to establish a contemporary dataset. The primary objective of this study is to evaluate the pre-operative (approximately -90 to -1 day before surgery) to minimum one year (approximately 304 to 668 days) postoperative functional performance improvement for the Attune™ primary, cemented TKA system as measured by the activities of daily living (ADL)subscore of the Knee Osteoarthritis Outcomes Score (KOOS)questionnaire (KOOS-ADL sub-score). This will be carried out for all four implant configurations: cruciate retaining fixed bearing (Attune™ CR FB), cruciate retaining rotating platform (Attune™ CR RP), posterior stabilized fixed bearing (Attune™ PS FB), and posterior stabilized rotating platform (Attune™ PS RP).
The objectives of this study are to assess the safety and effectiveness of the Journey Deuce Bicompartmental Knee System at 4-6 weeks, 4 months, 1 year, and 2 years when compared to total knee replacement using the Genesis II Total Knee System. The hypothesis is that the Journey Deuce Bicompartmental Knee System is as safe and effective as the Genesis II Total Knee System at the 2-year. The null hypothesis is that there is no difference between the groups.
For hemiplegic, stroke patients wheelchair transfers is a critical, safety-related area of physical function. This project will develop a personalized training and clinical assessment instrument based on the Video-Based F-PAT (Functional Performance Assessment and Training.) The objectives of the study are: (1) Enhance the pilot F-PAT web site to allow clinicians password-protected access to the digitized video and assessment information; and (2) train an Occupational Therapist collaborator to create the personalized videotapes for patients to take home with them. This study has the dual goal of evaluating the effectiveness of the personalized training videotapes and the effectiveness of the video-based assessment methodology.
The objective of this project is to pilot test an ADL (activities of daily living)-enhanced program as an adjuvant therapy to usual home health rehabilitation to improve patient outcomes. The project will compare the ADL-enhanced program plus usual care with usual care using an RCT design in home health patients.
The goal of this observational study is to learn if simple tests for frailty and muscle strength can help predict which older adults (age 65 and older) are at higher risk for problems after major abdominal surgery. The main questions it aims to answer are: * Do measures of frailty and muscle strength, taken before surgery, predict complications after surgery? * Can these tests be easily done during a routine pre-surgical visit? Participants will: * Complete brief tests measuring muscle strength, breathing strength, physical function, nutrition status, body composition, and memory during a regular pre-surgical clinic appointment. * Allow researchers to review their medical records 30 and 90 days after surgery to identify any complications or health problems.
Spinal cord injuries (SCI) are among the most debilitating conditions an individual can sustain with the estimates of SCI incidence in the United States at 12,000 new cases per year. The loss of innervation to the tissues muscle below the level of the lesion results in reduced physical activity which leads to an array of secondary complications including muscle atrophy, cardiovascular and metabolic disease, obesity and vascular dysfunction. This further leads to exercise intolerance, reduced quality of life and depression. Although current rehabilitative programs focus on improving muscle strength in this population, the efficacy of these programs is challenged by the injury related motor impairment, which limits the exercise intensity and subsequent positive muscular adaptations. Therefore, development of an exercise program that promotes maximal muscular adaptations to light intensity exercise could greatly improve the efficacy of rehabilitation in the SCI population and help restore functional capacity and quality of life for these individuals. Blood flow restriction (BFR) exercise has shown tremendous promise for improving muscle size and strength in a variety of healthy and clinical populations, however the benefits of BFR exercise for those with SCI has not been established. Thus, the purpose of this Merit proposal is to conduct a comprehensive study that explores the benefits and risks of BFR exercise in the incomplete SCI population. In general individuals with chronic incomplete SCI will be recruited to partake in two 8-week training periods (20 sessions) that involve traditional knee extension/flexion exercise or knee extension/flexion exercise with blood flow restriction. There will be a series of measurements before and after the 8-week intervention to look at changes in muscle and vascular function. Specific Aim 1 will determine how the 8-weeks of BFR exercise influenced muscle strength (Biodex isokinetic dynamometer), muscle cross sectional area and volume (CTscan) and fatigue resistance. Specific Aim 2 will determine how this novel 8-week training intervention impacts peripheral vascular function. Specifically, changes in nitric oxide mediated endothelial function will be determined through tests of flow mediated dilation, changes in endothelial function of the microvascular network will be determined through assessments of reactive hyperemia and changes in arterial stiffness will be determined through measurements of pulse wave velocity. Specific Aim 3 will focus on the safety of BFR exercise for the SCI population. Those with SCI are at greater risk for thrombosis and DVT compared to able bodied individuals. Although unlikely, the introduction of temporary blood stasis during BFR exercise might augment this risk. Thus, the third aim of this study will be to determine changes in innate immune activation and thrombosis risk. Specifically, blood will be collected at multiple timepoints throughout the training intervention and analyzed for hypoxia-inducible factor 1-alpha, neutrophil extra cellular traps (which act as prothrombotic scaffolds), neutrophil-platelet aggregates and inflammatory cytokines. Ultimately, if the improvements in muscle and vascular function following BFR resistance exercise is greater than the traditional resistance exercise often performed in rehabilitation settings, without increasing risk for DVT, it should be incorporated into the long-term rehabilitation programs for Veterans with SCI.
The aim of this study is to investigate the feasibility (safety, adherence) and initial efficacy (physical function and patient reported outcomes) of a multicomponent tele-rehabilitation program during COVID-19 recovery of patients who have been hospitalized due to COVID-19.
The investigator's purpose is to compare the effects of talocrural joint mobilization with movement versus thrust mobilization on functional performance in subjects reporting chronic ankle instability (CAI).
NICE is a randomized clinical trial that will examine the effects of nicotinamide riboside (NR) both with and without resveratrol to test whether, among people with PAD, NR significantly improves walking performance more than placebo and whether NR combined with resveratrol significantly improves walking performance more than placebo. If findings support the hypotheses, results will be used to design a large, definitive randomized clinical. The study will randomize 90 participants with PAD to one of the following three groups: NR + resveratrol, NR + placebo, or placebo + placebo.
Our purpose is to examine the combined effects of thrust mobilization of the ankle joints in conjunction with a six-week rehabilitation program on functional performance in subjects reporting chronic ankle instability (CAI).
The purpose of the IM ABLE(Injuries Managed with Advanced Bracing for Lower Extremities) study is to determine if advanced (ADV) ankle foot orthoses (AFOs) will enable users to achieve greater levels of physical and self-reported function compared with conventional (CONV) AFOs for those ambulating at or above the independent community level of ambulation.
The investigators aim to conduct a randomized placebo controlled pilot study to determine whether resveratrol, a dietary ingredient, supplementation is safe and improves memory and physical performance in older adults. Loss in memory and physical performance is a frequent complaint in older adults and a growing public health issue. Additionally, later adulthood is associated with a normative decline in both working and primary memory as well as domains including attention, speed of processing and executive function. Resveratrol is safely tolerated in pre-clinical models and in dose-escalation human studies. It also has demonstrated beneficial effects on memory and performance in pre-clinical models. Therefore, this study will take the next step in understanding the longer-term safety (3 months) and efficacy of resveratrol supplementation on age-related health conditions.
The purpose of this trial was to examine the effectiveness of a short-term leg strengthening exercise program compared to attention control on improving leg strength, walking speed and endurance, physical performance, and physical function one year after hip fracture.
The purpose of this study is to evaluate two types of exercise therapy designed to improve muscle power and mobility: weighted vest exercise vs. progressive resistance training.
Thirty active male and female athletes will be recruited for the study. Subjects will be examined at baseline for VO2max performance. Subjects will then be stratified and randomly divided equally (50% - 50%) into an Oceanix (supplemental) or placebo condition such that baseline VO2max match. Once randomization, subjects will be baseline tested for multiple measures of muscle force capacity, muscle soreness, immune function, and endocrine function. Upon completion of baseline testing, subjects will all complete a one-day, cross-training course in Tampa, Florida. The training course is known to be extremely vigorous and causes significant muscle damage. Subjects will then be retested for muscle function at 24, and 48 hours following the course. At 24- and 48-hours subjects will be asked to repeat a simulated time trial race. In this way, we will measure repeated race performance, recovery from intense exercise, muscle damage from exercise, and immune function during multiple races.
To assess the carryover effect of an innovative new gait training program on physiological and functional gait performance in persons with a traumatic lower extremity amputation. A second objective is to clarify the relationship between gait biomechanics (joint and sgment kinematics and energy cost.
This study will examine how the areas in the brain are connected when they are controlling two finger movements at the same time. It will look at how people use what they see to help guide two different movements. This ability, which is important in everyday life, can be a problem for patients with neurological problems. Healthy right-handed volunteers 18 years of age and older may be eligible for this study. Candidates are screened with a medical history, physical examination and magnetic resonance imaging (MRI) of the brain. MRI uses a strong magnetic field and radio waves to obtain images of body organs and tissues. The MRI scanner is a metal cylinder surrounded by a strong magnetic field. The subject lies on a table that can slide in and out of the scanner, wearing earplugs to muffle loud noises that occur during the scanning. Participants undergo functional MRI (fMRI). This is a standard MRI that is done while the subject performs skilled finger tasks in response to instructions they see on a screen. Researchers localize brain areas which show activity changes while the tasks are performed. Before the test session begins, subjects complete a questionnaire and have an opportunity to practice the task. Subjects control the position of one or two cursors on a screen using one or two fingers. They perform tracking or pointing tasks according to what they see on the screen. During the single-task experiment only one task is presented on the screen. During the dual-task experiment, two tasks are presented on the screen. Subjects perform either the single-task or dual-task experiment, but not both. The fMRI lasts about 90 minutes, with subjects asked to lie still during the scan for up to 9 minutes at a time. After completing the fMRI, subjects are scheduled for a research electroencephalogram (EEG) and magnetoencephalogram (MEG). The test is done while the subject performs tasks so that researchers can learn about the timing of changes in activity in certain brain regions during performance of the same tasks done for the fMRI.
The goal of this clinical trial was to learn if Wild Ginseng extract (WG) influences exercise performance, cognitive function, and fatigue recovery from the exercise. The main questions to answer were: * Does WG improve exercise performance? * Does WG improve cognitive function? * Does WG facilitate recovery from the exercise? The investigators will compare WG to a Placebo (a look-alike substance that contains no substance) to see if WG works. Participants will: * Take WG or a Placebo every day for 7 days with a 2-week wash-out (It is a specific time frame. During this time, certain substances are removed from the body). * Visit the laboratory a total of five times for the tests, including one pre-familiarization (to be familiar with the exercise and other procedures)
The goal of this randomized placebo controlled crossover trial is to determine effects of oral nicotine and caffeine pouches on anaerobic performance, autonomic function, cognition, and behavior in adult non-obese adult male volunteers between ages 21 and 40. Accordingly, the primary aims of the study are to determine the effects of acute oral nicotine pouches, oral caffeine pouches, or both, on measures of * anaerobic performance * cognition * cardiovascular and autonomic function * appetite and food intake. Researchers will compare oral nicotine pouches, oral caffeine pouches, both oral nicotine and caffeine pouches, and a flavor and color matched placebo to see if how they differentially affect measurements of * physical performance, * cognition, * cardiovascular and autonomic function * appetite and food intake. On four separate occasions, participants will be asked to place the oral pouches in their mouth and complete several anerobic cycling, cognitive, and balance tests while blood and salivary biomarkers, subjective appetite ratings, and cardiovascular and autonomic function measurements are collected. After each trial, participants will complete a 24-hr food record.