882 Clinical Trials for Various Conditions
A randomized, double-blind, placebo-controlled study assessing the impact of health and wellness products on fatigue and related health outcomes
The long-term goal of this project is to improve the implementation of tailored resistance exercise interventions for Appalachian breast cancer survivors. To achieve this goal, the primary objective is to enhance the understanding of how biological, psychological, and social factors interact to influence readiness for behavior change around resistance exercise in this unique population. The primary aim is to evaluate the feasibility of delivering the Strength After Breast Cancer (SABC) program, focusing on how socioeconomic status (SES) and allostatic load (AL) scores influence adherence and dropout rates. The Investigators will also further examine how self-efficacy, outcome expectations, and social support influence behavior change related to resistance exercise participation. The central hypothesis is that participants with lower SES will report geographic or financial constraints, receive reduced support from family or peers, have low confidence in their ability to exercise, and demonstrate lower adherence rates. Participants will: * Use a clear, step-by-step guide for safe, progressive strength training using a resistance exercise program tailored specifically for breast cancer survivors for a duration of 3 months * Keep an exercise log and complete questionnaires
The purpose of this study is to find out if taking a Fisetin supplement can decrease fatigue among older cancer survivors.
This randomized controlled factorial trial will examine whether and how relaxation training, behavioral activation, and cognitive therapy improve fatigue and functioning in fatigued adults living with multiple sclerosis.
In this pilot trial, investigators will pilot test a cognitive behavioral intervention for acceptability and proof of concept for a larger future trial to be submitted for federal funding. This is a one-group design with qualitative and quantitative data collection integrated into the intervention.
The purpose of this study it to test the efficacy of a wearable device to improve symptom management and maximize qualify of life in systemic Sclerosis (SSc) patients in a randomized trial. Specifically, we will evaluate if the Apollo Neuro device may improve the two specific symptoms highest ranked by patients as affecting qualify of life (fatigue, Raynaud phenomenon) as co-primary outcomes.
The purpose of this research study is to better understand how cancer-related fatigue affects patients and how it's discussed with providers. This information will be used to develop an educational resource (visual aid poster) that could help individuals and their providers talk about cancer-related fatigue and which may help individuals better manage this symptom.
Fatigue is the most common symptom reported by end-stage kidney disease patients on maintenance hemodialysis. Unfortunately, there currently is no medical management for this overwhelming feeling of tiredness. As a result, patients continue to suffer with poor quality of life and impaired daily activities. The purpose of this pilot trial is to find out if bupropion (a medicine commonly prescribed for stopping smoking, seasonal mood disorder, and depression) may help lessen fatigue in hemodialysis patients. In this study, hemodialysis participants will receive bupropion tablet orally three times a week during routine dialysis procedure for consecutive 8 weeks. Study participants will complete a battery of questionnaires to self-report fatigue, cognition, and quality of life. The study team will collect biological specimens. All these procedures will be performed at the dialysis clinic during routine dialysis procedure.
The primary purpose of this phase 2a study is to compare the efficacy of abrocitinib to placebo in improving severe fatigue in non-hospitalized adults with symptomatic Post-COVID Condition (PCC) (also called Long COVID). We are also interested in learning if abrocitinib is effective in improving overall health status in people suffering from severe fatigue from PCC. Eligible participants with a confirmed history of COVID19 infection who also have PCC according to the World Health Organization definition, will be randomized to receive abrocitinib at a dose of 50 mg, 100 mg, or placebo by mouth daily for 12 weeks (84 days).
The goal of this observational study is to compare the impact of eccentric resistance training to traditional resistance training on fatigue in persons with multiple sclerosis (MS). The primary question this study is asking is the following: is eccentric resistance training more fatiguing than traditional resistance training in persons with MS?. Participants will be asked to come for two sessions for two weeks. In the first week, subjects will undergo a bout of either traditional or eccentric resistance training. The next day they will return to assess their level of fatigue. The following week the subject will return and undergo whatever type of training they did not experience the first week, and it's effects on fatigue will again be assessed. The difference between the subjects level of fatigue for either condition will be compared.
Cancer-related fatigue affects at least 30-90% of patients with cancer, depending on the type of cancer and their treatment(s) (e.g., chemotherapy, radiation). It is not relieved by sleep or rest, and it sometimes can persist for years after a person's cancer was treated. The fatigue can be so bad that people cannot return to work, hobbies, family roles, or other daily activities, thereby greatly reducing quality of life. The causes of this fatigue are unknown, and we currently do not have anything that can reliably prevent or cure the fatigue. However, there are recent data suggesting that circadian rhythm, or a person's internal body clock, may be disrupted by the cancer experience and contribute to fatigue. Food intake is an external cue that can entrain circadian rhythm. We recently showed that cancer survivors are willing and able to eat all their food within a 10-hour eating window-a practice called time-restricted eating. Herein, we are testing time-restricted eating against a control group (matched for time-, attention, and expectancy) to see if time-restricted eating can indeed alleviate cancer-related fatigue. All participants will be asked to use the myCircadianClock smartphone app to log their food intake and weekly body weight measurements. The participants assigned to the time-restricted eating group will be asked to eat all their food in a 10-hour window during the day. People can choose their start time based on their schedule and preferences, but we ask that the window is the same for the whole study (e.g., 7am-5pm,9:30am-7:30pm). Black coffee and unsweetened tea are allowed before the eating window, and water and medicines are allowed at all times. The participants in the control group will meet with a nutritionist to discuss the American Cancer Society nutrition guidelines in cancer survivorship; they will not be restricted to when they can eat. Participants in both groups will give us valuable information regarding how diet is related to the experience of fatigue. The purpose of this study is to test the effects of a 12-week TRE intervention vs. an unrestricted eating pattern on fatigue, the sustainability of the program at 24 weeks, and the effects of TRE on circadian rhythm and sugar metabolism.
CAFE-MS will assess the effectiveness of two online programs for fatigue in multiple sclerosis (MS). Although they differ, both of these online programs contain information about MS and fatigue intended to help people with MS understand and manage their fatigue. This large-scale, decentralized clinical trial is projected to enroll 2,000 people with MS. The collaboration between iConquerMS and 5 Veterans Affairs (VA) sites in the MS Centers of Excellence is designed to ensure sufficient representation of people with MS from populations traditionally under-represented in MS clinical trials. The study is a 3-arm, randomized controlled clinical trial with study participation lasting 1 year. Two of the trial arms will include one of two online programs for managing fatigue in MS added to the trial participants' usual MS treatment, and the third arm will include usual MS treatment alone. The online program phase of the trial lasts for 6 months after randomization followed by a final study visit at 12 months. Participants in the usual MS treatment alone arm for the first 6 months will have an opportunity to choose one of the online programs for the final 6 months of the trial.
The goal of this clinical trial is to learn if transcranial direct current stimulation (tDCS) of the dorsolateral prefrontal cortex (DLPFC) can impact muscle fatigue. The main questions it aims to answer are: 1. Does tDCS of the left DLPFC increase the time that a fatiguing contraction can be maintained? 2. Does tDCS of the left DLPFC decrease the rate of increase of muscle activity, force error, and standard deviation of force during a fatiguing contraction. Researchers will compare tDCS of the left DLPFC to a SHAM stimulation (a type of stimulation that feels like real tDCS but does not elicit physiological effects) to see if tDCS of the left DLPFC works to reduce the progression of muscle fatigue. Participants will: Performing two experimental sessions held 3-10 days apart (usually 7 days) Perform a 9 hole pegboard test, maximum voluntary contractions, and a fatiguing contraction.
The purpose of this study is to evaluate the feasibility of using a commercial WATD (Wearable Activity Tracker Device) to collect HRV (Heart Rate Variability) data from pancreatic and breast cancer patients.
This is a single-center, proof-of-concept pilot study which uses a cross-over design to compare two dietary interventions/treatments: Western Diet (WD) vs Mediterranean (MD) and impact on quality-of-life parameters in AIH. Participants will receive both treatments through two phases and will be divided into two groups.
The goal of this clinical trial is to study the impact of Dyanavel on co-occuring fatigue in adults with Attention Deficit/Hyperactivity Disorder. The main question it aims to answer is whether Dyanavel XR leads to a statistically significant reduction in fatigue compared to placebo, as measured by the Fatigue Symptom Inventory.
The primary aims of the proposed trial are centered around examining the feasibility of conducting a prospective, chiropractic intervention study on a population of cancer survivors living in and around Atlanta, Georgia. This includes evaluating various implementation outcomes including recruitment, adherence, tolerability, retention, acceptability, and data fidelity. The results of this trial will inform the design of a future randomized controlled trial (RCT) that has an increased focus on the efficacy/effectiveness of chiropractic care on chronic cancer-related fatigue (CCRF) and other cancer-related sequelae in cancer survivors.
A randomized, double-blind, placebo-controlled study assessing the impact of health and wellness products on fatigue and related health outcomes
Fatigue is a prevalent and disabling symptom in Multiple Sclerosis (MS), affecting up to 90% of patients. Current treatments, including off-label prescriptions of wake-promoting agents, have shown limited effectiveness. Previous research indicates that these agents may be beneficial specifically for MS patients with concomitant excessive daytime sleepiness. This study uses a randomized, double-blind, placebo-controlled crossover design. Participants will undergo a 10-day lead-in with he medication/placebo, followed by two four-week treatment periods separated by a one-week washout. Outcomes will be measured primarily using the Modified Fatigue Impact Scale (MFIS), with additional exploratory measures collected via a smartphone app that assesses fatigue through keystroke dynamics. This novel approach to fatigue measurement aims to capture real-time variations and provide more granular data than traditional self-report questionnaires.
The goal of this experimental study is to compare 2 different seat cushions in B52 cockpit seats to see if they affect pilot fatigue and comfort. The main questions it aims to answer are: 1. Does the Kalogon AF Prototype seat cushion improve pilot comfort compared to the standard seat cushion? 2. Does the Kalogon AF Prototype seat cushion reduce pilot fatigue compared to the standard cushion? Participants will spend 8 hours in a simulated cockpit playing a flight simulator. They will fill out multiple questionnaires and take 2 attention/reaction time tests throughout the 8-hours.
The U.S. registered nurse (RN) workforce is the largest in the Healthcare and Social Assistance Sector and is at high risk for injuries and errors due to poor sleep and fatigue. Shift work (i.e., nights, evenings, rotating shifts) can contribute to RNs not obtaining adequate, restful sleep. Work intensity, including heavy physical and emotional workloads of caring for critically ill patients, can contribute to job stress, resulting in spill-over effects at home when RNs experience difficulties falling and staying asleep. To address work and home sleep barriers, this project proposes the development and pilot testing of RN-SLEEP, a skill-building mobile application designed to improve sleep. RN-SLEEP will provide a convenient, flexible space to learn sleep-enhancing evidence-based shift work-specific strategies, and cognitive-behavioral methods, (e.g., goal setting, relaxation training). Using NIOSH's Research 2 Practice (R2P) approach, the study team will collaborate with participants (N=18-24) from an RN union to refine RN-SLEEP content, integrating current sleep literature (including National Institute for Occupational Safety and Health \[NIOSH\] material) with cognitive-behavioral based training. RN-SLEEP will be pilot-tested using a two-group pretest-posttest study design, comparing sleep outcome measures (duration, quality) of RN-SLEEP participant users (n=38) with participants from an education control group (n=38). Data trends on fatigue, what drives behavior change (beliefs and self-efficacy), and other sleep outcome measures (timing, regularity, efficiency, daytime sleepiness) will be explored. RN-SLEEP goals align with Healthy People 2030, NIOSH's strategic goal to promote safe and healthy work design and well-being through two NIOSH Healthcare and Social Assistance Sector/Healthy Work Design Cross-Sector (HCSA/HWD) intermediate goals. HWD goal 7.2A is to conduct intervention research addressing fatigue (poor sleep sequela) due to suboptimal work designs (shift work) in the healthcare industry. HCSA/HWD goal 7.12A prioritizes interventions designed to impact work and non-work contributors to safety and health. This RN-SLEEP intervention aims to improve sleep by building skills that help RNs overcome obstacles to sleep from work and home, thus improving health and safety. Immediate outputs include a mobile app, designed and tested in collaboration with RNs, to improve sleep. Study results will be disseminated through our union collaborators, nursing conferences and journal publications, and our University's NIOSH-sponsored Education and Research Center social media outlets. Intermediate outcomes include enhancing RN sleep through training rarely available in nursing schools and traditional hospital health and safety training programs. Improving sleep can reduce fatigue and may decrease occupational injuries and errors. RN-SLEEP is adaptable, where future versions could be modified to meet the needs of other HCSA workers (i.e., nursing aides) and workers in other industries (e.g., oil and gas) scheduled to work non-standard work hours. End outcomes include integrating RN-SLEEP into a broader hospital organization intervention to mitigate fatigue risks.
Emergency Medicine (EM) requires 24/7 staff coverage resulting in healthcare workers' circadian rhythm disruptions that impair clinical and cognitive performance, physical recovery, and contribute to burnout. Multiple well-being surveys continue to highlight EM's challenges with sleep impairment due to the nature of the specialty. Despite evidence that lifestyle strategies effectively optimize performance and recovery, EM residents have variable lifestyle choices to prepare for overnight shifts. This prospective randomized controlled trial will examine whether a pre-shift personalized fatigue-mitigation lifestyle coaching (PFMLC) for EM residents on overnight shifts minimizes the effects of circadian rhythm disruptions on performance and recovery compared to those who receive one-time passive information on lifestyle practices. All participants will receive lifestyle strategy materials on fatigue mitigation to improve performance. Residents' self-reported and biometric data will inform PFMLC in the active arm. Performance and recovery from night shifts will be assessed by changes in sleep, heart rate variability, readiness/recovery, alertness, cognitive performance, and mental health using Fitbit and validated measures.
The goal of this phase I/II clinical trial is to determine the behavioral and neural effects of 5-daily transcranial direct current stimulation on post-stroke fatigue. The three aims are: Aim 1: Investigate the behavioral effect of 5 daily sessions of anodal tDCS over the ipsilesional M1 on PSF. Aim 2: Investigate the neurophysiological effect of 5 daily sessions of anodal tDCS over the ipsilesional M1. Aim 3: Determine the relationship between changes in M1 excitability, brain connectivity and changes in PSF. Participants will receive either a real or sham stimulation for 5 consecutive days and fatigue will be assessed before, immediately after and 1-month after the intervention. Fatigue will be assessed using clinical, behavioral, and neurophysiological outcomes.
To find out if combining psychoeducational interventions (such as education, counseling, and self-managed therapies) with an open-label placebo can help to improve your quality of life better than either the psychoeducational interventions or the placebo alone.
A randomized, blinded, placebo-controlled study assessing the impact of health and wellness products on fatigue and other health outcomes
This study is investigating changes to the proteins in skeletal muscle that contribute to reduced muscle size and muscle function that occurs with aging.
This prospective case series will use mixed methods to examine the feasibility, acceptability, and initial effects of three telehealth cognitive behavioral therapy components (relaxation training, behavioral activation, cognitive therapy) for fatigue in people with multiple sclerosis.
Following acute COVID-19, some patients develop a group of debilitating symptoms that include fatigue, orthostatic intolerance, difficulty with attention and concentration (often called "brain fog"), myalgias and disrupted sleep. The term Long COVID is used to describe these symptoms after the initial viral infection has passed. These symptoms are the same as those that define myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS). A "Proof of Concept" trial showed significant fatigue benefit in Long COVID patients. This randomized, placebo controlled follow-on trial will determine whether oxaloacetate can reduce fatigue and improve other symptoms in patients with Long COVID who meet diagnostic criteria for ME/CFS.
The investigators hypothesize that delivery of anodal tDCS to the left frontal head region will reduce fatigue severity following stroke.
This is a phase II 2-arm randomized controlled trial comparing yoga (Yoga for Cancer Survivors, YOCAS©®) to standard care in reducing cancer-related fatigue in Hispanic cancer survivors. Survivors randomized to Arm 1 will receive Standard Care and Arm 2 will receive standard care plus a four-week YOCAS©® intervention where Hispanic survivors attend yoga sessions together. Investigators will acquire preliminary data on cancer-related fatigue, as well as, secondary data on other common side effects.