View clinical trials related to Strength Training.
Filter by:Physical exercise is an effective tool for the prevention of various chronic diseases. Fibromyalgia (FM) is a common chronic pain condition, in which patients may also experience a variety of other symptoms, including sleep disturbances, fatigue, stiffness, frequent episodes of pain and mental health problems, as well as possible gastrointestinal disorders. Furthermore, according to the American College of Rheumatology, such a generalised non-joint pain state occurs for at least three months in duration, predominantly in women over 50 years of age. In turn, chronic fatigue syndrome (CFS) presents as a disease characterised by persistent and debilitating fatigue lasting at least six months. The origin of FM and CFS is unknown, although alterations in the central nervous system (CNS), as well as abnormalities in muscle physiology and immune/inflammatory response are suggested as the main causes. In addition, most patients with FM are sedentary and in poor physical condition, exacerbated by pain, fatigue or depression, which can limit their daily activities and affect their quality of life and work opportunities. In this regard, physical exercise is considered the most important non-pharmacological strategy for the treatment of FM; however, many clinically relevant questions remain unanswered regarding the most effective approach to exercise therapy in FM patients. Therefore, the main objective of this project is to analyse the possible physical and mental benefits of a physical exercise programme in people diagnosed with fibromyalgia and/or chronic fatigue syndrome.
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.
The cognitive development in children involves fundamental changes in their thinking and understanding of the environment, enhancing skills such as attention, memory, and problem-solving. This development is linked to intelligence and mental processes, positively affecting academic performance. The prefrontal cortex, the seat of executive functions, undergoes maturation, crucial for planning and behavior regulation. Factors such as rest, language learning, and physical activity influence these functions. The study highlights the interconnection between executive functions and cognitive development in children, emphasizing the importance of early stimulation. Physical activity, especially strength training, emerges as a determinant in improving cognition and executive functions, with intensity playing a crucial role. Therefore, the aim is to investigate the effect of strength training, focusing on increased intentional execution speed compared to a constant low-speed approach.
The goal of this randomized controlled trial will be to determine the effectiveness of the dynamic strength index (DSI) in optimizing training programs to improve physical performance proxies (sprinting, jumping, and CoD) in basketball players. Subjects will be randomly allocated to one of two groups: the intervention group and the control group. Measurement and intervention will occur during a 7-week in-season period, right before the play off starts. Throughout this period, all participants will engage in an average of 10 hours of basketball training per week, which will comprise 5 basketball sessions and 2 strength training sessions. In addition, they are anticipated to play 2 games weekly. A pre-test will be performed one week before the first training session, and post-tests will be performed in the week after the training sessions have finished. Athletes will perform both testing sessions at the same time of the day (± 2 hours). Each athlete will perform a 20-m sprint test, with timing gates positioned at every 5 m distance, a 505 CoD test, countermovement jump (CMJ), and isometric mid-thigh pull (IMTP). Based on CMJ peak force and IMTP peak force data, we will calculate DSI. Based on the average DSI value, the participants in the intervention group will be divided into two groups - strength group and ballistic group.
Aging of the neuromuscular system may lead to an increased risk of falls in older adults. There are external and internal factors for falls, and lower limb muscle strength and balance are important internal factors for falls in the elderly. And can be improved through exercise. Therefore, an important interventional goal in interventional exercises to prevent falls in the elderly is to promote balance and increase lower extremity muscle strength. Flexi-bar is a device that provides vibration stimulation. Studies have shown that a 5Hz frequency can be generated when shaken and transmitted to the whole body. Flexi bar is now widely used in fitness centers or rehabilitation therapy to improve muscle strength and balance. Vibration activates the tonic reflex, enhances the excitability of alpha and gamma motor neurons and enhances motor unit synchronization, and this active vibration training helps increase muscle coordination as it induces the tonic reflex and stimulates the proprioception of the joint Feelings, these physiological changes can lead to more effective proprioceptive feedback that improves balance. And because the vibration causes the agonist and antagonist muscles to contract alternately to regulate the instability during the movement. In recreational athletes, the use of a flexi bar in a single-legged position can effectively induce lower extremity muscle activation. A 12-week combination of balance and strength training in older adults has been shown to be effective in reducing the risk of falls in older adults in previous studies. Since the effect of adding Flexi bar on the basis of balance and strength training is unknown, the purpose of this study was to investigate the experimental group and the control group with the same exercise posture and training time, Flexi bar + BST Is it better for the balance and muscle strength of the elderly than simple BST?
120 participants will be randomized into one of two groups that will perform resistance training at a gym three time per week for three months. One group will follow common resistance training guidelines, whereas the other will exercise according to their preferences and perception of effort. The groups will be compared on the following primary outcomes after six and 12 weeks: body composition, physiological and performance tests. The groups will be compared on the following secondary outcomes every two weeks: enjoyment and satisfaction levels. Adherence rates will be measured throughout the intervention.
The new training device, the eccentric arm-crank, will be examined for its training effect by this project. That the training device can be used in athletes and patients with paraplegia in the future, the so-called "testing of the applicability of this concept" will be carried out during this study. Fourteen volunteer, healthy and trained people are first tested for their upper body performance, followed by a training phase over 20 trainings and at the and the performance data is collected again. The training intensity and duration is continuously increased during the training phase.
A group of 50 age-schooled adolescents was randomized into one intervention and another control group of 25 subjects each. After estimating one maximum repetition for all the participants in a previous session, the intervention group performed a resistance training based on a resistance exercise of 3 sets of 3 to 5 repetitions (90% of an estimated 1 RM) whereas the control group performed both stretching and balance exercises. Measures of executive functions ( i.e. a cognitive function associated with academic performance) were taken for all the participants before and after the training. Both independent and paired t-test will serve to check differences between and within groups respectively.
A prospective multicentre randomised clinical trial of 250 selected patients with THA, who will be randomly assigned to intervention (IG) or control group (CG). Both will have standard physiotherapy during hospitalisation, IG will additionally learn strength and sensory-motor training exercises. Follow up will be performed with physical tests, maximal voluntary isometric contractions and outcome assessment questionnaires at baseline and 1, 3 and 12 months after surgery.
Introduction: Maximal strength increments are reported to result in improvements in sprint speed and jump height in elite male football players. Although similar effects are expected in females, this is yet to be elucidated. The aim of this study was to examine the effect of maximal strength training on sprint speed and jump height in high-level female football players. Methods: Two female football teams were team-cluster-randomized to a training group (TG) performing maximal strength training (MST) twice a week for five weeks, or control group (CG) doing their regular pre-season preparations. The MST consisted of 3-4 sets of 4-6 repetitions at ≥85% of 1 repetition maximum (1RM) in a squat exercise. Sprint speed and jump height were assessed in 5-, 10- and 15 meter sprints and a counter-movement jump (CMJ) test, respectively. 19 participants in TG (18.3 ± 2.7 years) and 14 in CG (18.3 ± 2.4 years) completed pre- and posttests and were carried forward for final analyses.