View clinical trials related to High-intensity Interval Training.
Filter by:Diabetes has become a widespread epidemic, primarily because of the increasing prevalence and incidence of type 2 diabetes (T2D). T2D is a significant cause of premature mortality and morbidity related to cardiovascular disease, blindness, kidney and nerve disease, and amputation. Physical activity improves blood glucose control and can prevent or delay T2D, along with positively affecting lipids, blood pressure, cardiovascular events, mortality, and quality of life. At present, although physical activity is a key element in the prevention and management of T2D, the most effective exercise strategy (intensity, duration, and type of exercise) for improving glucose control and reducing cardiometabolic risk in type 2 diabetes has not been defined. Studies with Light-Emitting Diode (LED) therapy have demonstrated its ability to promote pain relief, improve muscle and cardiopulmonary performance, minimize muscle fatigue, and stimulate wound healing. In relation to patients with T2D, who have prolonged conditions of hyperglycemia, studies to investigate the impact of photobiomodulation associated with physical training have not been found so far. The objective of this study is to investigate the effects of different types of physical training associated with Light-Emitting Diode (LED) therapy on cardiometabolic status and quality of life in patients with T2D.
High intensity interval training (HIIT) has recently emerged as a time efficient alternative to conventional endurance exercise, conferring similar or superior benefits in terms of metabolic and performance adaptations in both athletic and non-athletic populations. Some of these physiological adaptations include augmented mitochondrial biogenesis and improved substrate metabolism in peripheral tissues such as skeletal muscle. However, nutritional strategies to optimise the adaptations to HIIT have yet to be established. Recent evidence suggests that acute nutritional status can affect the molecular regulation of genes mediating substrate metabolism and mitochondrial biogenesis. Moreover, preliminary evidence suggests that completion of exercise in fasted conditions augments some of these exercise-induced adaptations compared with the fed state. Given the fact that the transient molecular adaptations to acute exercise mediate long-term physiological adaptations, an investigation into the effects of different nutritional interventions on metabolic and performance responses to HIIT is warranted. The purpose of this study is to determine the effects of fasted vs. fed-state (Whey Protein) HIIT on metabolic and performance adaptations in the acute (single exercise session) and chronic (3 weeks, 9 exercise sessions) phases. The primary hypothesis is that different pre-exercise feeding conditions (e.g. fasted placebo vs. Whey protein fed) will result in divergent physiological adaptations in terms of skeletal muscle metabolism and performance, both in response to a single HIIT session and a chronic HIIT intervention.
The study started by the process of designing a structured exercise that will manage the T2DM with regards to the effectiveness in glycemic control, the benefit for physical fitness, and safe. Subjects consist of 18 - 65 years old T2DM patients are allocated into 2 groups; EXP group and KTR group. The EXP group follow the protocol of 12-week structured exercise, combination of 3 times per week high intensity interval training with 2 times per week resistance exercises. The pre- and post- measure are physical fitness consists of VO2max, grip strength, sit and reach, push ups, back extension, BMI and body fat percentage; HbA1c; plasma MDA and SOD. The KTR group follow the once a week continuous exercise program. The structured exercise is hypothesized to lower HbA1c, lower plasma MDA, increase SOD.
This study will aim to evaluate the efficacy of a short-term, home-based, high-intensity interval (HIT) programme in improving cardiovascular fitness in healthy volunteers aged 55 and above, with an age-comparison to younger individuals taking part in the same training regime. It will also explore the efficacy of time-matched 'static' interventions for improving cardiovascular parameters in middle-aged females and older adults.
BE@Work (Brief Exercise at Work) is a pilot controlled before and after trial of a workplace physical activity programme.
In this study the investigators wish to investigate whether a short duration High-intensity Interval Training(HIT) is superior to a moderate activity training modus with regards to improving weight-loss, Blood pressure and sleep quality in severely obese children and adolescents also receiving a multidisciplinary treatment regime.
10 patients with type 2 diabetes participated in a training-intervention consisting of 8 times of High-Intensity Training (HIT). Before and after the intervention the patients were tested regarding Oral Glucose Tolerance Test, blood pressure, weight and fat% and VO2max. A pilot study was conducted with 6 patients with type 2 diabetes using the same protocol but only 6 times of training.
Low-volume high-intensity interval exercise training may improve aspects of health and fitness in young people, but the effect of this type of exercise on quality of life has yet to be assessed. The investigators aim to examine the effect of a 4-week school-based low-volume high-intensity interval training programme (called the Fun Fast Interval Training [FFIT] activity project) on physical fitness and quality of life in adolescent school pupils. Approximately 145 English adolescents aged 11-12 years will be approached and invited to take part in the study. Participants will be healthy female volunteers, recruited from one school in Northeast England. Using a non-randomised design, one school year group will be assigned to take part in the intervention, and a second year group assigned to the control condition.Those in the intervention group will complete a 4-week school-based high-intensity interval exercise training programme. The intervention will take place twice per week, and comprise of 6-8 repetitions of 45 s maximal effort exercise (boxing, running, soccer and basketball drills), each interspersed with 90-s rest. Participants will be encouraged to work maximally during the 45-s repetitions. Control participants will be instructed not to change their lifestyle, dietary or physical activity habits during the intervention period, and maintain their normal school physical education routine. Study outcomes will be 20 m shuttle run test performance, health-related quality of life, standing broad jump performance, hand dynamometer performance, waist circumference and 10 m and 20 m sprint performance.
High-intensity interval training (HIT) has been demonstrated to be an effective strategy to improve markers of health and fitness across a wide range of healthy and clinical populations. Currently however, there is only limited evidence which has examined the effectiveness of HIT in older adults (>50 years). HIT is an appealing strategy in this group as it has the potential to impact both cardiorespiratory and muscular fitness, which both play an important role in maintaining functional fitness and quality of life in a time-efficient manner. Developing an understanding of novel strategies for delivering this type of exercise training may ultimately provide a viable alternative to traditional modes of exercise training for a broader range of participants. As such, the purpose of this study is to evaluate the effects of a novel, high-intensity interval training exercise protocol to improve physical fitness in adults aged over 50 years. This research also aims to evaluate if this type of training intervention is feasible in this population, through analysis of adherence and intervention fidelity.
Low-volume high-intensity interval exercise training may improve aspects of health and fitness in young people, but interventions must be practical and engaging. The investigators examined the effect of a novel school-based low-volume high-intensity interval training programme on health, fitness and physical activity outcomes in adolescent school pupils. 101 English adolescents aged 13-14 years took part in the study. Participants were healthy male and female volunteers, recruited from four schools in Northeast England. Using a non-randomised design, two schools took part in the intervention, and two were assigned to the control. Those in the intervention group completed a 10-week school-based high-intensity interval exercise training programme. The intervention took place three times per week, and comprised of 4-7 repetitions of 45 s maximal effort exercise (boxing, dance, soccer and basketball drills), each interspersed with 90-s rest. Participants were encouraged to work maximally during the 45-s repetitions. Control participants were instructed not to change their lifestyle, dietary or physical activity habits during the intervention period, and maintain their normal school physical education routine. Study outcomes were blood lipid and glucose levels, body composition, cardiorespiratory fitness, carotid intima-media thickness, physical activity levels, serum C-reactive protein levels and blood pressure.