Clinical Trials Logo

Clinical Trial Summary

While much evidence exists to support the association between physical training and improved motor skill performance, there is little evidence that supports the association between movement education and improved motor skill performance. In short, the investigators would like to study the effect of movement education (as provided by the Sports Safety athlete education program) on immediate and sustained changes in motor skill performance (jumping and landing technique) using the Dynamic Athletic Research Institute (DARI) motion capture system. This study will evaluate the change in motor performance for high school athletes who did and did not attend the Sport Safety athlete Education Program.


Clinical Trial Description

Successful models of injury prevention in occupational health settings focus largely on motor skill education for employees. Sports-related injury prevention programs lack this critical component. This research question is being asked to help inform the development of a comprehensive implementation strategy for a high school sports injury prevention program. The Hospital for Special Surgery (HSS) Sports Safety ACL Program is a unique, public health approach to ACL injury risk management. The program offers pioneering education to those directly responsible for the safety of young athletes. The program offers diverse educational opportunities and innovative risk management resources directly to coaches, parents, administrators, and young athletes. The program has already held over 200 live workshops, teaching coaches, parents and young athletes how to identify injury risk factors and how the relationship between movement quality and sports performance impacts injury rates. Though several research studies have been conducted with the HSS Sport Safety Program, this study is the first to evaluate the association between athlete motor learning and movement quality. Currently anterior cruciate ligament (ACL) injury prevention programs focus on clinicians and coaches leading a series of neuromuscular training exercises repeatedly throughout a sports season to improve athlete strength, balance, flexibility, and agility. While this has shown been shown to be effective in controlled research settings, there have been many problems with implementation, including low compliance. Hartigan et al recently conducted a study showing that athletes had improved jumping and landing technique after viewing video feedback. This is evidence that movement education/feedback has the ability to affect motor skills. Demonstrating an association between motor skill education and improved movement quality would allow the responsibility of ACL injury prevention to be more readily shared by both sports medicine clinicians and athletes. This evidence would provide support for the public health approach to ACL injury risk management on which the HSS Sport Safety Program was based. In addition, providing solid evidence of the program's success will make the program more marketable to schools, clubs, and other sports groups nationally and internationally. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04342000
Study type Interventional
Source Hospital for Special Surgery, New York
Contact
Status Withdrawn
Phase N/A
Start date October 28, 2019
Completion date August 15, 2023

See also
  Status Clinical Trial Phase
Recruiting NCT04519801 - BFR Therapy for Post-Op Rehab of ACL Reconstruction With Quadriceps Tendon Autograft N/A
Withdrawn NCT03389685 - Can PRP Reduce Pro-Inflammatory Biomarkers Following ACL Injury Phase 2
Recruiting NCT04958733 - Does Bone Grafting at the Time of Bone-Patellar Tendon-Bone ACL Reconstruction Reduce the Incidence of Post-operative Anterior Knee Pain: A Randomized Controlled Clinical Study N/A
Terminated NCT04101682 - Continuous Vs Single Shot Block After ACL Early Phase 1
Not yet recruiting NCT05374382 - A Prehab Strengthening Program Prior to ACL Surgery on Lower Limb Structure and Function N/A
Not yet recruiting NCT04068701 - Real-time Sensorimotor Feedback for Injury Prevention in Males Assessed in Virtual Reality N/A
Recruiting NCT03479775 - Muscle Function and Traumatic Knee Injury in Sports
Not yet recruiting NCT05498285 - Post-ACL Reconstruction Rehab UPSCALER App RCT HPUPM N/A
Recruiting NCT05461625 - ACL Reconstruction With/Without ALL Reconstruction N/A
Active, not recruiting NCT03491046 - Molecular Imaging Assessment of ACL Viability N/A
Completed NCT04993339 - Clinical Outcomes of ACL Reconstruction Augmented by an Injectable Osteoconductive/Osteoinductive Compound Phase 3
Withdrawn NCT03614351 - Dietary Protein Intake and Rehabilitation From Anterior Cruciate Ligament Surgery N/A
Withdrawn NCT03670550 - Dynamic ACL Brace: In Vivo Kinematics N/A
Recruiting NCT06430775 - Exploring Prolonged AMR in ACL Reconstructed Patients
Recruiting NCT06206200 - The Effect of Cognitive Dual-task Rehabilitation on Arthrogenic Muscle Responses After ACL Reconstruction N/A
Active, not recruiting NCT06167343 - Comparison of Semitendinosus and Quadriceps Grafts for Anterior Cruciate Ligament Reconstruction N/A
Completed NCT04541940 - TeleRehabilitation Following ACL Reconstruction N/A
Terminated NCT03497780 - Longitudinal Assessment of Cartilage Injury and Remodeling After Anterior Cruciate Ligament Rupture and Reconstruction:
Completed NCT04967937 - Neuromuscular Training Improves Single-Limb Stability N/A
Recruiting NCT04901858 - Knee Aspiration and High Definition MRI for ACL Injury N/A