Sensorimotor Training for Injury Prevention in Collegiate Soccer Players II

Not Applicable

Completed

• Conditions: Concussion, Mild; Sport Injury
• Interventions: Other: Virtual Reality Sensorimotor Training

• Registration Number: NCT04036916
• Lead Sponsor: University of Mississippi Medical Center

Brief Summary

The purpose of this project is to evaluate the effectiveness of an injury prevention intervention delivered primarily using headset virtual reality for collegiate soccer players. The hypothesis is that measures of sensorimotor control will improve, injury incidence rate will decrease and on-field soccer performance will improve.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2019-07-23
• Study First Submitted QC: 2019-07-25
• Study First Posted: 2019-07-30
• Study Start: 2019-08-12
• Primary Completion: 2019-12-10
• Study Completion: 2019-12-10
• Status Verified: 2020-03
• Last Update Submitted: 2020-03-23
• Last Update Posted: 2020-03-24

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 130

Inclusion Criteria

• Male and female athletes
• 18 years of age or older
• on the soccer roster who are eligible to play in the fall 2019 season at the participating institutions.

Exclusion Criteria

• Current diagnosis of concussion (i.e. a non-medically cleared concussion)
• Current lower-extremity musculoskeletal injury,
• Seizure disorder with photo sensitivity
• Other medical diagnosis that will prevent participation in the intervention.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Virtual Reality Training (Experimental)	Virtual Reality Sensorimotor Training	Participants will receive multi-modal sensorimotor training interventions, including activities training the vestibular system, oculomotor control and visual perception, neuromotor control and strengthening of the cervical spine, postural control/ balance exercises, and exercises integrating the use of multiple types of sensory information for controlled motor output, including speed and accuracy. Novel headset virtual reality (VR) games/activities; compliant balance surfaces; resistance bands/weight; and biofeedback devices will be utilized to deliver the training intervention. The exercises delivered at each intervention will be delivered in a group format, using a circuit of exercises that each athlete will complete in a session. Subsequent sessions will build upon previous sessions to work the sensorimotor control system in progressively more challenging and sport-specific scenarios. This present study will complete 12 sessions over 6 weeks.

Primary Outcome Measures

Name	Time	Method
Injury incidence rate	approximately 16 weeks	Traumatic injuries (concussion and leg injuries) across the 2019 soccer season/ number of countable athletic exposures
Near-Point Convergence	Pre to post-intervention (approximately 6 weeks)	Distance of point of near-binocular convergence (as measured in centimeters)
Standing Balance	Pre to post-intervention (approximately 6 weeks)	Standing balance (as measured on the Sway balance app 0 - 100 scale)
Reaction Time	Pre to post-intervention (approximately 6 weeks)	Reaction time (as measured on the Sway balance app) including impulse control; inspection time; and simple reaction time
Oculomotor Control	Pre to post-intervention (approximately 6 weeks)	Accuracy and latency of saccadic eye movements and smooth pursuit eye movements in response to an object presented to the participant on a computer screen (as measured by the Tobii eye tracker)
Game Performance	approximately 16 weeks	Game performance will be analyzed through video recording of the 2019 season's games and analysis of performance metrics (performed by InStat). Key performance indices (with higher scores reflecting better performance during game play) will be used as the metric of game performance.
Deep Neck Flexor Endurance Test	Pre to post-intervention (approximately 6 weeks)	Cranial Cervical flexion endurance (measured in seconds)
Isometric Neck Strength	Pre to post-intervention (approximately 6 weeks)	Measured by a dynamometer in flexion, extension, rotation and side-bending, recorded as force produced in each direction
Cranial Cervical Flexion Test	Pre to post-intervention (approximately 6 weeks)	Cranial-cervical flexion neuromotor control (as measured by performance on the Cranial Cervical Flexion Test, mmHg level of control with a 3 second hold on a biofeedback pressure cuff)

Secondary Outcome Measures

Name	Time	Method
Score on Joint Position Error VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity which is conducted according to the Clinical Joint Position Error Test. Accuracy of head relocation after 3 movements to the left, 3 to the right and 3 into extension produces total score. Higher score = better performance.
Score on Smooth Pursuit VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to follow a moving object with eyes while tracing manually. Accuracy of manual trace produces total score. Higher score = better performance.
Score on Postural Control (Balance) VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to maintain standing balance while visual scene in VR is tilting left and right. Score is based on postural sway as recorded by headset sensors. Higher score = better performance.
Score on Saccades VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to shift eyes to location of a presented visual stimulus and to activate the location with a manual control. Speed and accuracy of manual activation produces total score. Higher score = better performance.
Score on Near Point Convergence VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to follow a moving object with eyes while tracing manually. Accuracy of manual trace produces total score. Higher score = better performance.
Score on Cervical Posture VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity. Requires participant to reproduce a chin-tucked position and hold for 5 seconds. Score is based on correct head alignment (as compared to starting position, measured by headset sensors) across 10 repetitions. Higher score = better performance.
Score on Visual Figure VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to visually search a complex scene to find a hidden object. Score is based on the number of correct manual identifications of the hidden object. Higher score = better performance.
Score on Peripheral Vision VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to focus on central object and use peripheral vision to identify the same object and indicate with a manual selection. Score is based on number of correct identifications. Higher score = better performance.
Score on Cervical Neuromotor Control VR Game	Pre to post-intervention (approximately 6 weeks)	Score on activities as recorded in headset VR. This game is scored on a 0 - 1000 point scale during completion of the game activity for 60 seconds. Requires participant to use head and neck movement control to trace a maze. Score is based on accuracy and speed of maze trace.; Higher score = better performance.

Trial Locations

Locations (1)

University of Mississippi Medical Center; 🇺🇸 Jackson, Mississippi, United States