View clinical trials related to Return to Sport.
Filter by:The main goal of this project is to study and define a rehabilitative flow-chart for athletes' rehabilitation and return to sport made by a set of objective shoulder evaluation indicators that are easy to use in clinical context. Enrolled patients will undergo supervised rehabilitation treatment for rotator cuff repair according to a standardized protocol (5 days/week) and will undergo four evaluation at different times. Healthy subjects will undergo evaluations with the same timing as patients.
The Clinical Assessment for Sports Exertion (CASE) addresses the physical performance of athletes by quantifying physiological and symptomatic responses to dynamic exertion. The CASE is highly sport-specific as it tests multiple body positions that mimic requirements typical of individual and contact sports activities including soccer, gymnastics, cheerleading, swimming, and basketball. It was developed by clinicians at the Baylor Scott and White Sports Concussion Program in an effort to identify specific system impairments in athletes who were unable to successfully demonstrate readiness for return to play protocols. Like the other published forms of concussion exertion testing described above, the CASE is a provocative exercise test that may also prove to be useful in making informed return-to-play decisions based upon the athlete's symptomatology.
The purpose of this study is to determine whether certain criteria for returning to the field can be predictive of a return of the athlete to a level of performance similar to that of before his shoulder injury. In this context, these different criteria will be tested at 6 months in post-surgery while performance monitoring will be carried out at 12, 18 and 24 months.
Purpose: Identify the criteria employed by sports medicine specialists in assessing the aptitude/inaptitude of an overhead athlete to return to competition following an antero-internal dislocation of the glenohumeral joint that has been operated or not. Materials and methods: The target population consisted of French-speaking physicians in orthopedic surgery, physical medicine and rehabilitation or sports medicine. This study was conducted by the means of a questionnaire. The list of the most relevant criteria to be included in the questionnaire was established following a literature review.
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.
The main objective of this project is: 1. To assess the influence of physical fatigue on a return-to-play test battery 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 functional test battery (hop test, vertical jump test, 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 test battery, and fill in the SRPE scale one more time. Heart frequency will be measured continuously during the trials.
Objective of the study The main objectives of this project are: 1. To assess the influence of mental fatigue on a return-to-play test battery in healthy population 2. To assess the influence of mental fatigue on brain functioning during a balance and reaction time task in 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. Thirteen 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 mental fatigue scale (M-VAS) and motivation scale. Next, the subjects will carry out a functional test battery (hop test, vertical jump test, Y-balance test, and a balance reaction-time test). Session rate of perceived exertion (RPE) is measured to indicate how fatigued the participants feel because of the test battery; also, M-VAS is collected once more. Then, a short cognitive task (Flanker task) is followed by either a long intensive cognitive task (90 minutes Stroop task) or control task (90 minutes documentary). Afterwards, participants have to carry out the Flanker task, fill in M-VAS (2x), perform the same test battery, fill in session RPE and one final fatigue scale (Nasa TLX). Heart frequency and EEG will be measured continuously during the trials.