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Injury Prevention clinical trials

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NCT ID: NCT06049628 Completed - Injury Prevention Clinical Trials

The Impact of FIFA 11+ on Isokinetic Muscle Strength and Balance

Start date: April 1, 2019
Phase: N/A
Study type: Interventional

FIFA 11+ program; It consists of simple, easily remembered, and time-consuming, sport-specific exercises underlying fair play. Although the FIFA 11+ program is a well-established warm-up protocol for injury prevention among football players, the performance improvement aspect of the program is not often discussed in the literature. The study's objective is to investigate the efficacy of the FIFA 11+ program on sports performance parameters such as dynamic balance, isokinetic muscle strength performance in adolescent amateur male football players.

NCT ID: NCT05989815 Completed - Clinical trials for Musculoskeletal Pain

Effect of Whole-body Photobiomodulation on Muscular Performance Enhancement.

WBPME
Start date: July 10, 2023
Phase: N/A
Study type: Interventional

Introduction: Photobiomodulation therapy (PBMT) is based on the emission of light ranging from red to near-infrared spectra by different devices based on diode lasers or light-emitting diodes. These devices emitting different wavelengths can increase mitochondrial activity and energy synthesis (ATP - adenosine triphosphate) that in turn can help to prevent muscle damage, decrease muscle fatigue and enhance muscle performance. Thus, PBMT can be a promising therapeutic resource in the sports field. Objectives: The aim of this study is to verify the effect of PBMT on the muscle performance and prevention of muscle damage and delayed onset muscle soreness (DOMS) in professional soccer players submitted to a muscle damage protocol. Methodology: The present study is a randomized sham-controlled clinical trial following the SPIRIT guidelines.

NCT ID: NCT05695482 Completed - Injury Prevention Clinical Trials

Progressive Resistance Training Compared to Neuromuscular Exercises on Knee Kinematics

Start date: February 7, 2023
Phase: N/A
Study type: Interventional

The primary aim of this randomized controlled trial is to investigate the effectiveness of 6 weeks of progressive resistance training (PRT) compared to neuromuscular training (NMT) on functional performance in healthy female participants as measured by the Single-Leg Landing (SLL) and Single-Leg Squat (SLS) tests. The secondary aims are to investigate the, - change in abduction hip muscle strength, which will be measured with a Biodex System 3 Isokinetic Dynamometer. Outcomes will be measured at baseline and after 6 weeks of intervention. - adherence to the 6-week initial intervention (High adherence is defined as ≥ 80% attendance to the supervised interventions.)

NCT ID: NCT05606835 Completed - Injury Prevention Clinical Trials

The Effect Subtalar Joint Pronation on Postural Stability and Lower Extremity Alignment

Start date: November 1, 2022
Phase: N/A
Study type: Interventional

The lower extremity consists of sequent columns. The deviation of one segment from its normal alignment in the lower extremity also affects the alignment of the other segments. The alignment of the parts of the foot during weight bearing is called foot posture. Foot posture is divided into neutral, pronation, and supination. Foot posture varies significantly from person to person, and deviations from normal foot posture are associated with lower extremity injuries. Increased or prolonged pronation has been identified as both a risk factor and etiologic factor for increased navicular drop, a lower extremity malalignment pattern. In pronation posture, the foot may not adequately adapt to the ground, and there is increased movement of the lower extremity in the frontal plane. As a result, the person's postural stability is compromised. The fact that the foot is the most distal segment of the lower extremity chain indicates that even small biomechanical changes in the bearing surface can significantly affect postural control strategies. There are studies in the literature that examine the effect of foot pronation on dynamic balance and postural stability in individuals with different foot postures. However, to our knowledge, there is no study that examines differences in postural stabilization and lower extremity alignment by classifying individuals with varying degrees of subtalar joint pronation into pronation and hyper pronation groups.

NCT ID: NCT05317104 Completed - Executive Function Clinical Trials

The Effect of Aerobic Exercise Training on Collegiate eSport Team Players

Start date: April 10, 2022
Phase: N/A
Study type: Interventional

E-sports, which is called video games that are played in a competitive and organized way in a virtual environment, individually or in like teams, continues to increase its popularity by reaching individuals of all ages with the acceleration it has gained to worldwide. The major keys to performance in e-sports, which include games in many different categories; tactical and cognitive abilities that depend on executive functions such as attention, perception, memory, and multitasking. It also requires play skills that include fluent and coordinated movements, such as hand-eye coordination. Therefore, the reaction time among the players plays a decisive role in the performance. The sedentary life-induced physical, mental and spiritual health of the e-sports player who is in front of the screen for a long time is negatively affected, and it is seen that the accuracy in the executive functions of the athlete decreases and results in impulsivity. Physical activity can be considered as a good opportunity for performance, as physical, cognitive and spiritual improvements will contribute positively to the performance of the athlete. Aerobic exercise, which is widely performed today for physical activity, has positive effects on both physical, cognitive and psychosocial aspects. This study was designed as a randomized controlled, single-blind, prospective study to examine the effect of aerobic exercise training on reaction time, neuropsychological parameters and mood in e-sports players playing in university e-sports team.

NCT ID: NCT05220215 Completed - Intervention Clinical Trials

Resistance Band Training Versus Nordic Hamstring Exercise on Hamstring Strength Among Football Players

Start date: June 29, 2021
Phase: N/A
Study type: Interventional

The major aim of this project to compare the effects of Resistance band training and Nordic hamstring exercise on hamstring strength among football players.

NCT ID: NCT05216146 Completed - Physical Fitness Clinical Trials

Enhancement of Physical and Combat Preparedness of SAF Members

EPCPSAF-2021
Start date: November 17, 2022
Phase: N/A
Study type: Interventional

Regular and optimal fitness training has a positive effect on reducing risk or injury in addition to enhancing psychophysical and combat skills. On the other hand, excessive fitness training is one of the risk factors for injuries in soldiers. For this reason, it is necessary to establish a new system of the training process and regular monitoring of physical and combat readiness of the SAF with the help of scientific and professional methodology. The proposed research project will run for two years. The main goal of the project is to enhance physical and combat readiness and determine the epidemiology of injuries of members of the Slovenian Armed Forces (SAF). Within this aim, we will also run a validation study aimed to improve existing testing batteries for armed forces.

NCT ID: NCT05137015 Completed - Injury Prevention Clinical Trials

Preventing Injuries in Young Football Players

Start date: September 4, 2021
Phase: N/A
Study type: Interventional

Football is the most popular sport in the world, with 260 million male and female active participants, including ~113,000 FIFA registered professional players. Playing football is fun and can provide many health benefits, however, it also presents a high injury risk. Studies on elite and non-elite footballers have reported similar injury rates in both genders. The most common football-related injuries are the knee and ankle ligament and thigh muscle strains, Over the past two decades, significant advancement has been made in the field of injury prevention in football. There are used trials to prevent specific injuries, as ankle sprain, ACL injuries, hamstring strains, etc. On the other hand, there are created programs designed to prevent a wider spectrum of injuries like FIFA11+. Therefore, the aim of this study is to investigate the effect of a new injury prevention program on the overall injury incidence in young football players.

NCT ID: NCT04110002 Completed - Injury Prevention Clinical Trials

An Injury Prevention Program for Professional Ballet

Start date: July 15, 2016
Phase: N/A
Study type: Interventional

The aim of this study is to evaluate the efficacy of an injury prevention program for professional ballet dancers.

NCT ID: NCT04030390 Completed - Balance Clinical Trials

The Effect of Physical Fatigue on Different Balance Tests and Brain Activity in a Healthy Population

Start date: July 19, 2019
Phase: N/A
Study type: Interventional

The main objective of this project is: 1. To assess the influence of physical fatigue on brain functioning during a balance and reaction time task in a healthy population. In a later stage, these experiments could be carried out in a clinical context (e.g. in an ankle sprain population). The researchers will use a randomized, placebo controlled, counter-balanced, cross-over design. Twenty healthy subjects will visit the lab 3 times. On the first visit (familiarisation trial), the investigators will collect the participants' characteristics. The participants will also be familiarized to the procedures and materials of the experiment during this first visit. The second and third visit contain the experimental setup and will proceed as follows: first, the participants will fill in a pre-test checklist, a mental fatigue scale (M-VAS) and motivation scale. In the mean time a little blood will be collected from the ear lobe to determine lactate and glucose levels; also, blood pressure will be checked. Next, the subjects will carry out a Y-balance test and a balance reaction-time test. Session rate of perceived exertion (SRPE) is measured to indicate how fatigued the participants feel due to the test battery; also, M-VAS is collected once more, as well blood lactate, glucose and blood pressure. These measures are followed by either a physical fatigue inducing task (Modified 30 seconds Wingate protocol) or time-matched control task (sitting on the bike without pedalling). Afterwards, researchers will collect blood lactate, glucose and blood pressure two times more; participants have to fill in M-VAS (2x), perform the same Y-balance test and balance reaction time test, and fill in the SRPE scale one more time. Heart frequency and EEG will be measured continuously during the trials.