View clinical trials related to Physical Fitness.
Filter by:The aim of the study is to investigate the effects of video game-based exercises applied in addition to the cardiac rehabilitation program applied after open heart surgery, on pulmonary function and functional independence in the acute state. After ethics committee approval is received; Patients who volunteer to participate in the study will be divided into two groups by simple random method. The first group will be given a 12-week cardiac rehabilitation program after bypass surgery, and the second group will be given video game-based exercise training together with the cardiac rehabilitation program for 12 weeks. It is planned to apply the cardiac rehabilitation program to both groups twice a day during the postoperative period until hospital discharge. The patient's cardiac rehabilitation program after hospital discharge will be carried out in the cardiac rehabilitation unit three days a week. Cardiac r in the video game-based exercise group In addition to rehabilitation; "Breathing Labs Breathing Games" exercises will continue during the hospital stay, and Xbox games will continue after discharge. Evaluations will be made in the preoperative period (within one week before surgery) and at the end of the 12th postoperative week.
The phenomenon that high-intensity warm-up activities help improve muscle strength and explosive performance is called post-activation potentiation (PAP), which is a warm-up method that uses high-intensity stimulation to induce the activation of more type II muscle fibers. However, the results of studies exploring the enhancing effect of PAP on lower limb explosive strength are still controversial. In studies with no significant difference, it is believed that there are many factors that affect PAP, such as activation method, activation intensity, recovery time and individual factors, etc., and it is difficult to control during implementation. In addition, traditional warm-up methods such as jogging and stretching have been shown to have limited effectiveness in improving athletes' performance. In the past, there have been many studies on the combination of PAP and lower limb explosive strength, but there are almost no studies on the long-term effects of PAP on the lower limb explosive strength of basketball players. Therefore, this study studies the characteristics of PAP in order to find the best activation scheme for PAP, and then combines the enhancement effect of PAP with the explosive power of the lower limbs to improve the explosive power of the lower limbs of basketball players, and verifies the long-term effect of combining PAP with explosive power training. In order to provide new changes and breakthroughs in the design of physical training for basketball players and improve the sports performance of college male basketball players.
While the association of physical and/or motor and/or cognitive components with training can generate synergistic effects and thus create an efficient cognitive enrichment program, very few studies have focused on finding an optimal combined program for older adults. According to the model of Herold and his colleagues, there are two modalities of simultaneous combined training: Thinking While Moving (TwM), when the additional cognitive task is not linked to the motor task, and Moving While Thinking (MwT), when the cognitive task is integrated into the motor task. They assume the latter approach is the most promising for improving cognitive reserve. Nevertheless, to the investigators' knowledge, only one study has compared these two modalities in older adults and none has broadened the question by comparing several MwT trainings. The goal of this interventional study will be to compare the cognitive, dual-task, and physical effects of 6 physical and/or cognitive programs in healthy but inactive older adults. The main questions it will aims to answer are: - Will the Moving While Thinking and Thinking While Moving programs have the same effects? - If they have different effects, which will be the best way to improve cognitive, dual-task, and physical functions? The study is being set up between 2023 and 2025 to compare the cognitive, dual- ask and physical effects of 6 programs (3 months, 2 sessions of 1 hour per week). Three experimental MwT programs will be studied: Immersive and interactive wall exergames (I2WE), Complex Cognitive and Motor Activities (2CMA), and exergames with Switch (EXER). They will be compared to an experimental TwM program of stationary bike simultaneous to the Switch (Video games + bike) and 2 control programs: inactive video games (VG) and stationary bike (BIKE). A control group (CON) will be also created. Cognitive, dual-task, and physical pre-tests (before the program), post-tests (after the program), and retention tests (3 months after the end of the program) will be realized to evaluate the effects of the programs.
Metabolic syndrome (MetS) or syndrome X, which is increasingly prevalent in the world and in our country, is a disease that includes abdominal obesity, dyslipidemia, impaired glycemic control and hypertension components. It causes cardiovascular events such as myocardial hypertrophy, left ventricular diastolic dysfunction, atrial dilatation and atrial fibrillation. Low levels of physical activity can be caused by a wide variety of factors including environmental and genetic factors, age, race, sarcopenia, poor eating habits, postmenopausal period and smoking history. Factors such as genetic differences, diet, physical activity, age, gender and eating habits are reported to affect the prevalence of (MetS) and its components. Frailty is also emerging as a major issue for the elderly due to its debilitating effects on health outcomes. Frailty is a geriatric syndrome characterized by a gradual decrease in homeostatic tolerance and physiological reserve following exposure to stressors. Frailty predisposes older people to falls, delirium, hospitalizations and even death and is therefore considered a crucial transition between healthy ageing and disability. As a result of aging, degenerative changes in the central and peripheral vestibular system have been found. With age, the ability to regulate movement is impaired as a result of insufficient information in any of the sensory receptors or any disorder affecting the processing of these messages. This directly affects balance and postural control, leading to an increased risk of falls. In the light of the results of the studies in the literature, degenerative changes are observed in many systems in geriatric individuals and while the incidence of metabolic syndrome in these individuals is high, the number of studies evaluating their effects is not sufficient. Based on these deficiencies, it is aimed to examine metabolic syndrome, frailty, locomotive syndrome, balance and physical fitness in elderly individuals.
Evaluation of healthy young adults regarding balance, core strength/core stability and physical fitness. Correlation of primary outcome parameters and selected secondary parameters.
Majority of the existing studies on the high intensity training of referees are heart rate-based prescription. It is probably the most commonly measured physiological marker used to control or measure exercise intensity in the field.Indeed, speed-based intensity training is more acute than heart rate-based training on the intensity of physical work performed above v/pVO2max. This study the setting of exercise intensity reference the ending velocity of the 30-15 intermittent fitness test.
The aims of this study are: 1. To determine the correlation between pulmonary functions and physical fitness in children with β-thalassemia. 2. To differentiate between different types of B-thalassemia in both pulmonary functions and physical fitness
Generation Victoria (GenV) is a longitudinal, population-based study of Victorian children and their parents that will bring together data on a wide range of conditions, exposures and outcomes. GenV blends study-collected, study-enhanced and linked data. It will be multi-purpose, supporting observational, interventional, health services and policy research within the same cohort. It is designed to address physical, mental and social issues experienced during childhood, as well as the antecedents of a wide range of diseases of ageing. It seeks to generate translatable evidence (prediction, prevention, treatments, services) to improve future wellbeing and reduce the future disease burden of children and adults. The GenV Cohort 2020s is open to all babies born over a two-year period, and their parents, residing in the state of Victoria Australia. The GenV Cohort 2020s is preceded by an Advance Cohort of babies born between 5 Dec 2020 and 3 October 2021, and their parents. This comprises all families recruited at GenV's Vanguard hospital (Joan Kirner Women's and Children's) and at birthing hospitals throughout Victoria as GenV scaled up to commence recruiting for the GenV Cohort 2020s. The Advance Cohort have ongoing and full participation in GenV for their lifetime unless they withdraw but may have less complete data and biosamples.
Physical activity triggers complex molecular responses, including changes in immune-, stress-, and metabolic pathways. For example, autophagy is essential for energy and cellular homeostasis through protein catabolism, and dysregulation results in compromised proteostasis, reduced exercise performance, and excessive secretion of signaling molecules and inflammatory proteins. However, previous research has been limited by the extend of molecules measured and biological processes covered. A better understanding of these processes through multi-omic analysis can improve knowledge of molecular changes in response to exercise. The main purpose of the investigators study is to analyze the effects of acute exercise in correlation to autophagy and other signaling cascades. Specifically, the investigators plan to perform multi-level molecular profiling in a cohort of healthy male elite cyclists and male and female recreational athletes, before, during, and after a bicycle ergometer test. The results will be compared to a control cohort without intervention.
Regular exercise during pregnancy and postpartum leads to health benefits for mother and child. Inactivity during pregnancy and after delivery is now treated as risky behavior. Physically active pregnant women significantly less often suffer from, among others, gestational diabetes, excessive weight gain, lipids disorders, hypertension, preeclampsia, depressive symptoms, functional and structural disorders, including stress urinary incontinence, back pain or diastasis recti abdominis (DRA). Prenatal physical activity reduces the risk of premature delivery and miscarriage, fetal macrosomia, complications in labor or the risk of metabolic disorders in children. High-intensity interval training (HIIT) has become one of the most popular trends in the fitness sector. The effectiveness of HIIT on a number of health indicators has been proven in various populations but limited data are available on HIIT during pregnancy. The first hypothesis is that the HIIT, implemented during pregnancy and after childbirth, as a stronger exercise stimulus, will have a better impact on selected biological and psychological parameters of mothers, as well as on selected health parameters of their children, compared to the MICT (moderate intensity continuous training). Therefore, it promises better preventive effects on pregnancy complications and ailments as well as non-communicable diseases occurring in these populations. In the second hypothesis, it was assumed that HIIT and MICT implemented during pregnancy and after childbirth, tailored to the specific needs of the perinatal period, will not differ in the effectiveness of maintaining normal functional parameters in women, including prevention of urinary incontinence, back pain, DRA, etc. Pregnant women who apply for the study will be divided into three groups: those attending the HIIT, MICT or educational programs. During the study, the participants will be under standard obstetric care. As comparative groups, non-pregnant women will be also recruited. The investigators will collect data on selected biological, functional and psychological parameters in the study women at each trimester of pregnancy, during the puerperium and one year after childbirth. The data from the medical documentation on the course of childbirth and the assessment of the new-born, as well as the results of preventive examinations in the study women's children aged one, two, four and six years will be also analyzed.