There are about 173942 clinical studies being (or have been) conducted in United States. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
The purpose of this study is to assess in healthy adult male participants the effects of itraconazole on the pharmacokinetics of venglustat and to assess the safety and tolerability of venglustat with and without coadministration of itraconazole. The maximum duration for participants from screening is between 32 to 62 days.
This study will compare two methods of electrical stimulation (alternating current and direct current) as an adjunctive therapy to treating lumbosacral radiculopathy. Both types of electrical stimulation have been used in clinical practice for physical therapy, however direct current stimulation is much less common and there is less known about its impact on physical therapy outcomes. The aim of this project is to show the efficacy of a novel device, the Neubie direct current device, compared to traditional TENS unit in clinical physical therapy treatment of radiculopathy. Outcomes measured will include: pain intensity, functional status, neurological status, electrophysiological changes and patient satisfaction.
The proposed study will establish the feasibility, acceptability and credibility of a novel live video dyadic resiliency intervention, Resilient Together for Dementia (RT-D), aimed at preventing chronic emotional distress and preserving quality of life among dyads at risk for chronic emotional distress early after a diagnosis of Alzheimer's disease or a related dementia (ADRD).
The primary purpose of this study is to determine the differences in response to treatment of complex regional pain syndrome with a closed-loop spinal cord stimulator if applied in the early phases (acute or subacute) versus the chronic phase.
The goal of this study to better understand how the ellacor® Micro-Coring™ procedure works using an abdominoplasty, or tummy tuck surgery, model. The people participating in the study will have already decided that they want to have an abdominoplasty procedure. The main questions this study aims to answer are: 1. how does the ellacor® procedure change skin tissue? 2. is the ellacor® device safe to use at specific treatment depths? The ellacor® procedure will be performed on people who are going to have abdominoplasty surgery. The ellacor® treatment areas will be limited to the areas marked for removal of skin during the abdominoplasty. The treated tissue will be sent to a lab for microscopic study after the abdominoplasty procedure is complete. A minimum of 3 people will be treated in each of 2 groups for a total of 6 total participants. 3 participants in the first group will have the ellacor® procedure done 30 days before their abdominoplasty surgery. The ellacor® procedure will be done at different depths in designated locations: 4mm, 5mm and 7mm. The participants will be asked about any changes to their health or medications while on the study. 3 participants in the second group will have the ellacor® procedure done at 3 different timepoints, 30 days apart, all at the same depth of 4mm. They will also be asked about any changes to their health or medications while on the study. Researchers will study the abdominoplasty tissue under a microscope after it has been removed from the participants. They will compare the areas treated by the ellacor® device to an area left untreated. This will reveal any changes in the skin tissue between treated and untreated areas, if they occur.
The survival of children, adolescents and young adults (AYA) with acute leukemia has improved dramatically over the last two decades. This success is a result of using multiple chemotherapy drugs in combination, with the inclusion of drugs that enter the brain and prevent leukemia cells from growing there. Studies in these cancer survivors have shown that the exposure to these chemotherapy drugs can lead to risks for impaired brain function, also referred to as neurocognitive side effects of chemotherapy. There is an opportunity to identify participants at risk for these side effects and to prevent their development. The purpose of this study is to incorporate a brain imaging tool known as Magnetic Resonance Fingerprinting (MRF) to look for brain matter changes in acute leukemia participants receiving chemotherapy. The MRF scan will be performed at diagnosis and repeated at multiple times during the entire therapy duration as well as at defined intervals after therapy is complete. Investigators would also do an electronic test of memory and brain function (cognitive function), which would be administered in a gaming format on iPads or a similar device. The goal will be to correlate results of MRF imaging with the tests of cognitive function. The benefits of this imaging technique include that it can be done quickly (in minutes), it is non-invasive, it is resistant to motion-artifacts and it can be easily repeated for comparison purposes. The advantages of the cognitive test include its short duration of 20 minutes and its gaming format making it friendly for children to use.
A 50-patient study in which 400 microamps of direct current was applied 3 days per week. All tolerability, safety and efficacy endpoints were met.
Peripheral artery disease (PAD) leads to higher mortality rates and strains healthcare systems due to increased costs. It causes leg pain during walking due to reduced blood flow. Nitric oxide (NO) deficiency contributes to vascular issues in PAD, with few effective treatments available. Passive calf muscle stretching boosts NO levels, vascular health, and walking ability in PAD patients. However, the inflammatory processes underlying these improvements are unclear. This study aims to track inflammatory markers and cardiovascular changes during 12 weeks of passive stretching. Additionally, combining stretching with dietary nitrate could further enhance walking capacity by reducing reactive oxygen species. The study will monitor inflammation, vascular function, and oxidative capacity to understand the effects on functional ability in PAD patients. This research is crucial for improving physical function and addressing exercise intolerance in PAD.
skeletal muscle mass and function, is prevalent in up to 60% of colorectal cancer patients. This condition arises from a combination of factors such as aging, inactivity, treatment side effects, malnutrition, tumor burden, and inflammation. Given this complexity, singular interventions may not be sufficient to address sarcopenia in this group. Creatine monohydrate, a compound vital for energy during exercise, has been extensively researched and proven safe and effective across various demographics, including older adults and clinical populations. Studies show that creatine enhances benefits from resistance training, indicating potential to counter muscle mass and function decline post-cancer treatment. This study aims to assess the feasibilty of combining creatine supplementation with resistance training versus resistance training alone in sarcopenic colorectal cancer survivors. A randomized controlled pilot trial will compare a 10-week program of resistance exercise plus creatine (EXSUPP) with resistance exercise alone (EXPLA), each with 20 participants.
The purpose of this study is to construct a multi-site, prospective registry to evaluate the clinical outcomes of patients who have undergone combined gastric mucosal ablation with endoscopic sleeve gastroplasty at True You Weight Loss.