Ignite Creation Date:
2024-10-26 @ 3:41 PM
Last Modification Date:
2024-10-26 @ 3:41 PM
Study NCT ID:
NCT06619132
Status:
ACTIVE_NOT_RECRUITING
Last Update Posted:
None
First Post:
2024-08-23
Brief Title:
Training Load Adapted to Muscle Properties to Reduce Injury Occurrence in Sprint
Sponsor:
None
Organization:
None
Study Overview
Official Title:
Training Load Adapted to Muscle Properties to Reduce Injury Occurrence in Sprint
Status:
ACTIVE_NOT_RECRUITING
Status Verified Date:
2024-08
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
No
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
FULGUR
Brief Summary:
During the Olympics running fast is the most prevalent motor task 100-m dash being the one of the most-expected event Yet the achievement of such running sprints requires both extreme athletic capabilities together with robust musculoskeletal system in order to limit the risk of injury Lower limb muscle injury is indeed the main cause of training or competition interruption on the international stage In this context France presents the unique feature of being historically strong in velocity-oriented sports and recognized for the quality of research work done for the understanding of sprint running performance This research program will be conducted in strong collaboration with French Federations of Athletics Rugby and Ice Sports bobsleigh FULGUR gathers worlds leading experts in muscle biomechanics strength and conditioning research clinical imaging health behaviors and machine learning applied to very high sport performance in order to pursue a threefold objective
To appraise sprint mechanics at center of mass and joint segments level in a view to quantify specific-structure workload at these scales in ecological conditions Workpackage 1
To determine individual musculoskeletal profile of elite athlete to propose tailored strengthening programs in order to optimize running propulsion efficiency Workpackage 2
To estimate the level of injury risk and suggest individualized prevention contents based on a multi-factorial approach Workpackage 3
These goals will be supported by transverse tasks aiming at refining muscle mechanics and motion capture analysis based on ultrasound imaging and machine learning These tasks will aim to advance the analysis of skeletal muscle dynamics 2D ultrasound analyses and to implement markerless motion capture methods in the field Led by the flagship French laboratory focused on very high sport performance these work originate from long-term collaborations between high-end athletic and multi-disciplinary scientific staffs Thanks to a strong evidence-based methodological approach and minimal time-cost for top-level athletes all the efforts put in FULGUR will convert to the ultimate goal of fast-track knowledge and tech transfer towards sport performance stakeholders Tailored-made sprint strength and prevention training will be co-built with coaches and staffs during panel meetings in a view to optimize sprint performance and reduce the exposure of top-level French sprinters rugby 7 players and bobbers to muscle injury The knowledge inferred from this project will have direct implications in every discipline that elicits all-out sprints and accelerations eg team sports racket sports Regular meetings with coaches and heads of federal RD departments will result in a strongly anticipated strategy to enhance the potential of knowledge transfer and performance optimization annual expertise meetings innovative videos including dynamic infographics short technical sheets expert education programs for coaches This approach is expected to strongly contribute to upgrade scientific skills of French performance stakeholders from Tokyo 2020 to Paris 2024 and beyond
To appraise sprint mechanics at center of mass and joint segments level in a view to quantify specific-structure workload at these scales in ecological conditions Workpackage 1
To determine individual musculoskeletal profile of elite athlete to propose tailored strengthening programs in order to optimize running propulsion efficiency Workpackage 2
To estimate the level of injury risk and suggest individualized prevention contents based on a multi-factorial approach Workpackage 3
These goals will be supported by transverse tasks aiming at refining muscle mechanics and motion capture analysis based on ultrasound imaging and machine learning These tasks will aim to advance the analysis of skeletal muscle dynamics 2D ultrasound analyses and to implement markerless motion capture methods in the field Led by the flagship French laboratory focused on very high sport performance these work originate from long-term collaborations between high-end athletic and multi-disciplinary scientific staffs Thanks to a strong evidence-based methodological approach and minimal time-cost for top-level athletes all the efforts put in FULGUR will convert to the ultimate goal of fast-track knowledge and tech transfer towards sport performance stakeholders Tailored-made sprint strength and prevention training will be co-built with coaches and staffs during panel meetings in a view to optimize sprint performance and reduce the exposure of top-level French sprinters rugby 7 players and bobbers to muscle injury The knowledge inferred from this project will have direct implications in every discipline that elicits all-out sprints and accelerations eg team sports racket sports Regular meetings with coaches and heads of federal RD departments will result in a strongly anticipated strategy to enhance the potential of knowledge transfer and performance optimization annual expertise meetings innovative videos including dynamic infographics short technical sheets expert education programs for coaches This approach is expected to strongly contribute to upgrade scientific skills of French performance stakeholders from Tokyo 2020 to Paris 2024 and beyond
Detailed Description:
During the Olympics running fast is the most prevalent motor task 100-m dash being the one of the most-expected event Yet the achievement of such running sprints requires both extreme athletic capabilities together with robust musculoskeletal system in order to limit the risk of injury Lower limb muscle injury is indeed the main cause of training or competition interruption on the international stage In this context France presents the unique feature of being historically strong in velocity-oriented sports and recognized for the quality of research work done for the understanding of sprint running performance This research program will be conducted in strong collaboration with French Federations of Athletics Rugby and Ice Sports bobsleigh FULGUR gathers worlds leading experts in muscle biomechanics strength and conditioning research clinical imaging health behaviors and machine learning applied to very high sport performance in order to pursue a threefold objective
To appraise sprint mechanics at center of mass and joint segments level in a view to quantify specific-structure workload at these scales in ecological conditions Workpackage 1
To determine individual musculoskeletal profile of elite athlete to propose tailored strengthening programs in order to optimize running propulsion efficiency Workpackage 2
To estimate the level of injury risk and suggest individualized prevention contents based on a multi-factorial approach Workpackage 3
These goals will be supported by transverse tasks aiming at refining muscle mechanics and motion capture analysis based on ultrasound imaging and machine learning These tasks will aim to advance the analysis of skeletal muscle dynamics 2D ultrasound analyses and to implement markerless motion capture methods in the field Led by the flagship French laboratory focused on very high sport performance these work originate from long-term collaborations between high-end athletic and multi-disciplinary scientific staffs Thanks to a strong evidence-based methodological approach and minimal time-cost for top-level athletes all the efforts put in FULGUR will convert to the ultimate goal of fast-track knowledge and tech transfer towards sport performance stakeholders Tailored-made sprint strength and prevention training will be co-built with coaches and staffs during panel meetings in a view to optimize sprint performance and reduce the exposure of top-level French sprinters rugby 7 players and bobbers to muscle injury The knowledge inferred from this project will have direct implications in every discipline that elicits all-out sprints and accelerations eg team sports racket sports Regular meetings with coaches and heads of federal RD departments will result in a strongly anticipated strategy to enhance the potential of knowledge transfer and performance optimization annual expertise meetings innovative videos including dynamic infographics short technical sheets expert education programs for coaches This approach is expected to strongly contribute to upgrade scientific skills of French performance stakeholders from Tokyo 2020 to Paris 2024 and beyond
To appraise sprint mechanics at center of mass and joint segments level in a view to quantify specific-structure workload at these scales in ecological conditions Workpackage 1
To determine individual musculoskeletal profile of elite athlete to propose tailored strengthening programs in order to optimize running propulsion efficiency Workpackage 2
To estimate the level of injury risk and suggest individualized prevention contents based on a multi-factorial approach Workpackage 3
These goals will be supported by transverse tasks aiming at refining muscle mechanics and motion capture analysis based on ultrasound imaging and machine learning These tasks will aim to advance the analysis of skeletal muscle dynamics 2D ultrasound analyses and to implement markerless motion capture methods in the field Led by the flagship French laboratory focused on very high sport performance these work originate from long-term collaborations between high-end athletic and multi-disciplinary scientific staffs Thanks to a strong evidence-based methodological approach and minimal time-cost for top-level athletes all the efforts put in FULGUR will convert to the ultimate goal of fast-track knowledge and tech transfer towards sport performance stakeholders Tailored-made sprint strength and prevention training will be co-built with coaches and staffs during panel meetings in a view to optimize sprint performance and reduce the exposure of top-level French sprinters rugby 7 players and bobbers to muscle injury The knowledge inferred from this project will have direct implications in every discipline that elicits all-out sprints and accelerations eg team sports racket sports Regular meetings with coaches and heads of federal RD departments will result in a strongly anticipated strategy to enhance the potential of knowledge transfer and performance optimization annual expertise meetings innovative videos including dynamic infographics short technical sheets expert education programs for coaches This approach is expected to strongly contribute to upgrade scientific skills of French performance stakeholders from Tokyo 2020 to Paris 2024 and beyond
Study Oversight
Has Oversight DMC:
None
Is a FDA Regulated Drug?:
None
Is a FDA Regulated Device?:
None
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?:
None