View clinical trials related to Aerobic Exercise.
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The incidence of gynecological cancer and the related death rates in the world are increasing every year. Unfortunately, pelvic floor disorders (PFDs) such as pelvic pain, dyspareunia, vaginal stenosis, and urinary incontinence can result from specific cancer treatments. Our aim in our study is to examine the effects of aerobic exercise training in addition to pelvic floor muscle training on pelvic floor dysfunction symptoms, pelvic floor muscle strength and endurance, quality of life, functional capacity and fatigue in women surviving gynecological cancer with pelvic floor dysfunction. Patients diagnosed with gynecological cancer and undergoing treatment will be invited to our research. Patients who meet the inclusion criteria and agree to participate will be divided into two groups as Pelvic Floor Muscle Training (PFMT) and PFMT+Aerobic Exercise by block randomization method. For evaluation,We will use the Pelvic Floor Distress Inventory (PTDE-20), Pelvic Floor Impact Scale with digital palpation, EORTC QLQ-C30, 6 Minute Walk Test and Piper Fatigue Scale.
This study aims to compare the effectiveness of Square Stepping Exercise and aerobic exercise on cognitive function and physical fitness in young adults. Participants aged 18-30 with low physical activity levels will be randomly assigned to either the Square Stepping Exercise Group or Aerobic Exercise Group. Both interventions will be supervised by a physiotherapist, performed twice a week for 40 minutes over 4 weeks. Cognitive function will be assessed using various tests, including attention, short-term memory, and executive function evaluations. Physical fitness will be evaluated through jump tests and balance assessments. Blinded assessors will conduct evaluations at baseline and post-intervention in both groups to determine the impact of square stepping exercise and aerobic exercise on cognitive and physical health in young adults.
Our aim in this study is to evaluate the effects of lymphedema on exercise capacity, body composition, functional level and quality of life in lymphedema patients with primary lower extremity involvement.
Background: Obesity and type 2 diabetes mellitus (T2DM) are considered two of the most prevalent metabolic diseases linked to the onset of knee pain caused by osteoarthritis. Regular exercise has been documented as a principal component of a prevention, management, and treatment strategy for knee osteoarthritis (KOA) patients. However, evidence-based exercise protocols for individuals with comorbidities such as obesity, T2DM, and KOA are scarce. Thus, the present pragmatic randomized controlled trial aimed to investigate the effectiveness of a 12-week home-based circuit training (HBCT) protocol on various indicators related to KOA and cardiometabolic health among overweight/obese older adult patients with KOA and T2DM during the COVID-19 lockdown. Methods: Seventy overweight or obese patients with KOA and T2DM (62.2 ± 6.1 years; 56% female) were randomly assigned to the intervention group (n = 35, HBCT) or the no-exercise control group (n = 35, CON). HBCT performed a progressive protocol (seven exercises; 15-30 repetitions per exercise, 1 min passive rest between exercises; 2-4 rounds per session; 20-60 min total session duration). The knee injury and osteoarthritis symptoms, cardiovascular and metabolic risk factors, cardiorespiratory fitness, and renal function were assessed at baseline and following the 12-week intervention. Results: HBCT significantly improved HBCT improved the vast majority of outcomes related to cardiometabolic health and knee osteoarthritis symptoms compared to CON (p<0.05). No significant differences were detected in total bilirubin, sodium, urea, resting heart rate, or KOOS-sport between HBCT and CON. Conclusion: These findings suggest that an injury-free HBCT program may improve several cardiometabolic health- and KOA-related indices in overweight/obese patients with T2DM and KOA. Such results may encourage clinicians and practitioners to adopt real-world exercise training approaches when prescribing physical exercise to patients characterized by impaired metabolic and musculoskeletal health.
Fitness is one of the best predictors for heart and brain disease. To increase ones fitness, the American Heart Association (AHA) says to exercise at least 150 minutes per week or 75 minutes per week if really hard. These exercise guides are pretty effective, however not everyone will get the same results. What individuals do outside of the exercise bout can influence the effectiveness of exercise. One of these factors is our time sitting, which has caused the phrase "sitting is the new smoking". Other studies have said that the metabolic benefits of exercise are decreased when you exercise after a few days of low activity (less than 5,000 steps per day). This is important in that exercise may not be able to fully offset these times of inactivity. However, these studies were only looking at different fats in the blood. As exercise increases fat burn up to 10 times in the muscle, more research is needed to understand how inactivity affects the muscle during exercise and after exercise. This study will help answer two questions: 1) How does a day of sitting a lot affect the muscle's ability to respond to exercise? and 2) How does a day of sitting a lot affect carbohydrate and fat burn during and after a bout of exercise? The investigators will answer these questions by having people complete one day of inactivity (less than 5,000 steps) or normal activity (more than 8,500 steps). Subjects will then come in the next day to bike somewhat hard for 1 hour. The investigators will take blood samples before, during, and after exercise to measure energy sources. The investigators will also collect pieces of skeletal muscle before and after exercise to see how the muscle responded to exercise. This study is significant for the publication of exercise guidelines to minimize risk of heart and metabolic diseases.
A prospective study of cancer survivor patients enrolling in a pilot aerobic exercise program. The total enrollment will be fifteen patients. The study timeline includes a screening period of 4 weeks, baseline period of 2 weeks, and active study intervention for 12 weeks. Study enrollment will continue until all 15 subjects are enrolled or up to 12 months, whichever comes first.
The purpose of this study is to understand how college students' biomarkers change with a relatively short bout of moderate-intensity physical activity. The investigators are comparing biomarkers in between self-reported physically active and sedentary students in terms of their percent difference and change. The investigators are also studying physically active versus sedentary college students' mental health. This is a mentored student research project in the investigator's lab (not part of a thesis, dissertation, or other coursework requirements), where multiple students have developed research questions using the same study design.
The goal of this randomized controlled trial is to determine the impact of Mediterranean-Dash Intervention for Neurodegenerative Delay (MIND) diet and aerobic training on cognition in Black adults with high systolic blood pressure. Researchers will compare Food Delivery and Cooking PLUS Aerobic Training (FoRKS+) versus Enhanced Usual Care (EUC) to evaluate the effects on cognition. Participants will complete cognitive and cardiovascular assessments, 24-hr blood pressure monitoring, standard blood pressure measurements, weight, fingerstick for HbA1c point-of-care testing, and questionnaires. Participants may also choose to participate in an optional blood draw for DNA Repair Capacity testing as a modifiable risk factor for aging-associated diseases.
The aim is to evaluate the effects of aerobic blood flow restriction on academy football players. Randomized clinical trial, with two intervention groups: Experimental group I will carry out training based on running on the treadmill using blood flow restriction (BFR) on match days 4 and 3 pre-competition (MD-4, MD-3). On the other hand, the Experimental II group will perform the same training without the use of BFR for 6 weeks. The study will be carried out during the 2023-2024 season in the National and Youth Honor Divisions of Spanish soccer, with soccer teams from Mallorca Island. Before and after 6 weeks of intervention, the countermovement jump (CMJ), maximum aerobic speed (MAS), VO2max, and repeat sprint ability will be evaluated. The levels of muscle soreness (DOMS) will be evaluated at MD-4, MD-3, and MD-2. The same procedure will be carried out to evaluate muscle fatigue, sleep quality, and stress through a questionnaire. Sociodemographic and anthropometric data will be collected before starting the study. In addition, the rate of exertion perceived will be evaluated at MD-4, MD-3, and MD-2.