View clinical trials related to Running.
Filter by:The main purpose of this study was the assessment of whole-body vibration warm-up, modified drop jumps, and combination of both on the range of motion of dorsiflexion in the ankle joint and running time. 16 recreationally active runners performed 4 different warm-up variants one week apart: 5 sets of 30 s calf raises on the platform but without vibration (CTRL), the same as CTRL group but with vibration with 30 s rest intervals between sets (WBV), 6 drop jumps with a 30 s rest interval between sets (DJ); last group was combination of both WBV and DJ groups (WBV+DJ). The study included muscle flexibility tests for the soleus and gastrocnemius muscles performed before the warm-up, 3 minutes after warm-up and immediately after a 3000 m run on a treadmill. The running time was measured and the run had to be completed in the shortest possible time. Additionally, in the third week of the study there were performed static and dynamic foot measurements immediately before and after a 3000 m treadmill run. The main purpose of that gait analysis was to assess the impact of a 3km run on plantar pressure patterns and gait parameters in recreational runners.
Running form and technique have a direct influence on a runner's economy, and therefore small changes in specific running mechanics could be useful to improving running performance. The thumb plays an important role in the functionality of the foot. During standing, the big toe is more loaded than the head of the five metatarsals and the heel. In this study, it will aimed to examine the relationship of big toe strength with parameters that affect anaerobic athletic performance in runners. In this study, it will aim to examine the relationship of big toe strength with parameters that affect anaerobic athletic performance in runners such as vertical jump, horizontally jumping, strength, agility and speed. The study design will be Randomized Controlled Trial. This study will be conducted in Pakistan Sports Board (PSB) Lahore. The study will be completed within the time duration of eight to ten months after the approval of synopsis. Sample size will be 30 subjects. Non-probability convenient sampling technique will be used to recruit the individuals for the study and then randomization will be done by lottery method to divide the individuals into 2 treatment groups. The experimental group is given big toe strengthening program for 4 weeks along with running training on other hand control group will do only their running training and after that measures their pre post values on SPSS 25.
The overall goal of this study is to investigate the effects of a 6-week training program between two hamstring exercises-the Romanian deadlift (RDL) and the Nordic hamstring exercise (NHE)-on hamstring strain injury risk factors and sprint performance.
The optimization of recovery to alleviate the effects of fatigue in athletes can provide valuable performance advantage. However, despite the growing body of literature regarding effects of different interventions in fatigue, there is still lack of clarity regarding the efficacy of interventions on running economy and, particularly, fatigue-induced biomechanical alterations. Therefore, the aim of this study was to compare the effects of massage and cold water immersion for enhancing recovery and alleviating fatigue after an exhausting training session. We hypothesized that both massage and cold water immersion would enhance biomechanical parameters compared with a control condition and hence would improve subsequent running economy.
Reducing fatigue and improving the recovery capabilities of runners has gained more interest over the last years. Recently, capacitive-resistive electric transfer (Tecar) therapy is commonly used by physical therapists to help athletes recover from muscle fatigue. However, empiric evidence supporting the benefits of Tecar to recovery is lacking. This study investigated the effects of a Tecar treatment performed shortly after an exhausting training session on both physiological and biomechanical parameters of running.