View clinical trials related to Exercise.
Filter by:To assess the effect of wearing a custom-fitted, FDA-registered, Class I device, compression garment (Obesinov, S.A.R.L.) by an individual with a BMI ≥ 35 on his/her day-to-day quality of life over a period of one year. Various measures of quality of life will be taken, including assessing an individual's level of pain, mood, self-stigma and comfort with the use of a compression garment. Additionally, to assess the impact of the compression garment on activity, strength, posture and movement of an individual with a BMI ≥35 over the period of one year.
This study will be looking at the effects that instability resistance training and aerobic training, individually, have on the improvement of various motor and cognitive impairments present in individuals with Parkinson' disease. There will be 25-30 participants in this study (all of whom have Parkinson's disease). Once passing the eligibility criteria, participants will complete as series of baseline/pre-tests and then be randomly assigned to either the aerobic training group or the instability training group, where they will participate in every training session that occurs in the next 8 consecutive weeks. There will be 3 training sessions a week occurring on non-consecutive days (ex. Monday, Wednesday, Friday) for both training groups (3 aerobic training sessions, 3 instability resistance training sessions). Once the 8 week training intervention has been completed, a series of post-tests will occur exactly once week after (same tests used as in the pre-tests)
Acromegaly is chronic, systemic and highly disabling disease. People with Acromegaly show a significant reduction in peripheral muscle strength associated with a loss resistance and lethargy. They tend the fatigue more easily when compared to individuals without the disease, which involves exercise intolerance and disability resulting in a quality of life impaired. Acromegaly have important functional limitations that adversely affect the performance in the activities of day-to-day and contribute to the worsening of the disease. Based on previous studies, the investigators believe that acromegaly participants with would have benefit from a treatment protocol facing physical performance and improved quality of life. Main Objective: To evaluate the effect of home rehabilitation on quality of life of participants with acromegaly. Methods: In this study of longitudinal intervention, they will undergo a rehabilitation program lasting three months, three times a week lasting 60 minutes each session. The protocol will be the assessment of Acromegaly Quality of Life Questionnaire (AcroQol) questionnaire, functional assessment by the walk test of six minutes (6MWT), peripheral muscle strength and assessment of joint integrity, fatigue will be measured by the Functional Assessment of Chronic Illness Therapy-Fatigue (FACIT-F) questionnaire that evaluates the fatigue in the chronic participants. The assessment will be in 3 different moment (month 0, month 2 month 3). The treatment protocol will consist of warm-up and cool-down, strengthening exercise and muscular endurance, aerobic training, and balance training and proprioception. Prospects: The participants with acromegaly will benefited significantly after undergoing a physical therapy rehabilitation protocol the following parameters: Resistance and muscle strength, pain conditions and disorders skeletal muscle, improvement in activities of daily living and consequent better quality of life.
Today's children have become increasingly inactive and unfit, with >50% of children not meeting the recommended 60 min of moderate-to-vigorous physical activity. Previous research has suggested that acute aerobic exercise of moderate intensity was associated with improved cognition manifested by improved performance and increased P3 amplitude, a neuroelectric indicator that reflects the amount of attentional allocation, in tasks requiring cognitive control. While minimal evidence exists to support potential mechanisms underlying the transient effects of exercise on brain and cognition, research suggests that phasic changes in the locus coeruleus-norepinephrine (LC-NE) (as measured by salivary alpha amylase (sAA)) system are a potential mechanism for explaining the acute effect of exercise on brain and cognition. Accordingly, the aim of this study is to examine the mechanisms linking acute aerobic exercise to improved cognitive control as well as the underlying neuroelectrical activities in children, using electroencephalography (EEG) and event-related potentials (ERPs). We hope to gain a better understanding of the role of acute exercise and cognitive and brain health. The results from this study will help identify mechanisms linking acute exercise to enhanced cognitive performance in children. Our hypothesis is that exercise-induced phasic increases in sympathetic nervous system activity will mediate the effect of a single bout of exercise on brain function, cognition, and standardized achievement test performance.
A 12 weeks technology enhanced home exercise (TEHE) program using mobile technologies that provide immediate feedback and send reminder messages to improve exercise motivation is developed. Investigators combine this TEHE program with techniques including auricular point pressure (APA) and brief mindfulness body scan (MBI). This study will examine the feasibility of the TEHE program and combined programs, and ascertain the effect of TEHE program alone, the combined programs on fatigue and biological markers among cancer survivors. Main Research Variable(s): The independent variables are the 12-week program of TEHE alone, APA alone, combined APA and TEHE (TEHEplus) and combined MBI and TEHE (TEHE-MBI). Outcome variables are fatigue, physical activity, contributing factors of fatigue and biomarkers. Design: Repeated measures randomized controlled trial. Setting: Participants will be recruited through the Comprehensive Cancer Center, Johns Hopkins University. Sample: Participants diagnosed with non-metastatic solid tumor cancer; who had completed all primary cancer treatment (surgery, chemotherapy, and radiation therapy )within at least 3 months OR non-metastatic prostate cancer completed all primary cancer treatment and have hormone therapy for at least 6 month, OR participants diagnosed with solid tumor cancer; who are receiving immunotherapy for at least 3 months before enrollment, aged 21 years or older, experiencing fatigue in the past 7 days on average of ≥ 3/10, able to participate in a moderate-intensity exercise training program, self-report ability to complete the 6 min walk test with a perceived exertion of 3 or below, and can communicate in English. Methods: Participants who meet the inclusion criteria will be randomly assigned to the TEHE only, APA only or TEHEplus or TEHE-MBI or control group. All exercise groups (TEHE) will be offered a 12-week exercise program through an online communication. In additional to the TEHE, the TEHEplus group will receive an instruction on how to apply the pressure on the ear points through online meeting/communication. The TEHE-MBI group will perform 5 min mindfulness body scan daily. The control (usual care) group will report participant's fatigue level daily. At the end of week 12, participants will answer open-ended questions about participant's opinions on the programs. Fatigue will be assessed and blood will be drawn before and after the program.
The purpose of this study will be to determine if personalized moderate intensity exercise training combined with high intensity interval training is more effective at improving training responsiveness than moderate intensity exercise training alone? This question will be addressed holistically be creating a composite score to assess training responsiveness. Additionally, individualized biological variability will be calculated in order to quantify training responsiveness using a personalized criterion. It is hypothesized that personalized moderate intensity exercise training combined with high intensity interval training will be more effective at improving comprehensive training responsiveness when compared to moderate intensity exercise training alone?
This controlled clinical trial aims to compare the effects of a multicomponent program that includes structured personalized exercise prescription in children with obesity with a control group that will be enrolled in a multicomponent program without structured personalized exercise prescription. All children will be followed for a period of 6 months. The parameters that will be evaluated between groups are physical fitness, anthropometry, metabolic (glucose oral tolerance curve, lipids, HOMA-IR, ISI-MATSUDA), early cardiovascular damage, inflammatory biomarkers, anxiety and depression scores, and allelic variants related to physical fitness.
The purpose of this study is to evaluate the changes of lung function before and after the exercise in patients with chronic obstructive pulmonary disease.The assessment of quality of life is also carried out through questionnaires.
The PERFORM-TAVR trial (Protein and Exercise to Reverse Frailty in OldeR Men and women undergoing Transcatheter Aortic Valve Replacement) is a multicenter randomized clinical trial with a parallel-group design. The investigators will screen consecutive patients ≥70 years of age before TAVR and enrol those that have evidence of physical frailty defined by an SPPB score ≤8 or an SF36-PF score ≤55. The investigators will randomly allocate 200 patients to receive a multi-faceted intervention consisting of a home-based exercise program and a protein-rich oral nutritional supplement or usual lifestyle counselling. The primary endpoint will be the change in SF36-PF score at 12 weeks.
The main objective is to test the non-inferiority of supervised exercise versus antidepressant treatment in reducing depressive symptoms in patients with clinical criteria for depression (according to ICD 10) over a period of 6 months follow-up.