Your search keyword '"video review"' showing total 5 results

1. Video Analysis and Verification of Direct Head Impacts Recorded by Wearable Sensors in Junior Rugby League Players.

Author

Carey, Lauchlan, Terry, Douglas P., McIntosh, Andrew S., Stanwell, Peter, Iverson, Grant L., and Gardner, Andrew J.

Subjects

HEAD injuries, RUGBY League football, BRAIN concussion, RUGBY football players, ATHLETES, MAGNETIC recording heads, RUGBY competitions, SCIENTIFIC observation, WEARABLE technology, ACCELEROMETERS, HEAD, CASE studies, DESCRIPTIVE statistics, SPORTS events, RUGBY football injuries, VIDEO recording

Abstract

Background: Rugby league is a high-intensity collision sport that carries a risk of concussion. Youth athletes are considered to be more vulnerable and take longer to recover from concussion than adult athletes. Purpose: To review head impact events in elite-level junior representative rugby league and to verify and describe characteristics of X-patchTM-recorded impacts via video analysis. Study Design: Observational case series. Methods: The X-patchTM was used on twenty-one adolescent players (thirteen forwards and eight backs) during a 2017 junior representative rugby league competition. Game-day footage, recorded by a trained videographer from a single camera, was synchronised with X-patchTM-recorded timestamped events. Impacts were double verified by video review. Impact rates, playing characteristics, and gameplay situations were described. Results: The X-patchTM-recorded 624 impacts ≥ 20g between game start and finish, of which 564 (90.4%) were verified on video. Upon video review, 413 (73.2%) of all verified impacts ≥ 20g where determined to be direct head impacts. Direct head impacts ≥ 20g occurred at a rate of 5.2 impacts per game hour; 7.6 for forwards and 3.0 for backs (range = 0–18.2). A defender's arm directly impacting the head of the ball carrier was the most common event, accounting for 21.3% (n = 120) of all impacts, and 46.7% of all "hit-up" impacts. There were no medically diagnosed concussions during the competition. Conclusion: The majority (90.4%) of head impacts ≥ 20g recorded by the X-patchTM sensor were verified by video. Double verification of direct head impacts in addition to cross-verification of sensor-recorded impacts using a secondary source such as synchronised video review can be used to ensure accuracy and validation of data. [ABSTRACT FROM AUTHOR]

Published

2021

2. Verifying Head Impacts Recorded by a Wearable Sensor using Video Footage in Rugby League: a Preliminary Study

Author

Lauchlan Carey, Peter Stanwell, Douglas P. Terry, Andrew S. McIntosh, Shane V. Caswell, Grant L. Iverson, and Andrew J. Gardner

Subjects

Head impacts, Rugby league, Wearable sensors, Accelerometer, Video review, Sports medicine, RC1200-1245

Abstract

Abstract Background Rugby league is a full-contact collision sport with an inherent risk of concussion. Wearable instrumented technology was used to observe and characterize the level of exposure to head impacts during game play. Purpose To verify the impacts recorded by the x-patch™ with video analysis. Study design Observational case series. Methods The x-patch™ was used on eight men’s semi-professional rugby league players during the 2016 Newcastle Rugby League competition (five forwards and three backs). Game day footage was recorded by a trained videographer using a single camera located at the highest midfield location to verify the impact recorded by the x-patch™. Videographic and accelerometer data were time synchronized. Results The x-patch™ sensors recorded a total of 779 impacts ≥ 20 g during the games, of which 732 (94.0%) were verified on video. In addition, 817 impacts were identified on video that did not record an impact on the sensors. The number of video-verified impacts ≥ 20 g, per playing hour, was 7.8 for forwards and 4.8 for backs (range = 3.9–19.0). Impacts resulting in a diagnosed concussion had much greater peak linear acceleration (M = 76.1 g, SD = 17.0) than impacts that did not result in a concussion (M = 34.2g, SD = 18.0; Cohen’s d = 2.4). Conclusions The vast majority (94%) of impacts ≥ 20 g captured by the x-patch™ sensor were video verified in semi-professional rugby league games. The use of a secondary source of information to verify impact events recorded by wearable sensors is beneficial in clarifying game events and exposure levels.

Published

2019

3. Video Analysis and Verification of Direct Head Impacts Recorded by Wearable Sensors in Junior Rugby League Players

Author

Peter Stanwell, Andrew Gardner, Lauchlan John Carey, Andrew S. McIntosh, Grant L. Iverson, and Douglas P. Terry

Subjects

Rugby league, biology, Head (linguistics), Athletes, Head impact, Applied psychology, Wearable computer, Head impacts, Physical Therapy, Sports Therapy and Rehabilitation, League, biology.organism_classification, medicine.disease, Accelerometer, Video review, Single camera, Concussion, medicine, Wearable sensors, Orthopedics and Sports Medicine, Original Research Article, Psychology

Abstract

Background Rugby league is a high-intensity collision sport that carries a risk of concussion. Youth athletes are considered to be more vulnerable and take longer to recover from concussion than adult athletes. Purpose To review head impact events in elite-level junior representative rugby league and to verify and describe characteristics of X-patchTM-recorded impacts via video analysis. Study Design Observational case series. Methods The X-patchTM was used on twenty-one adolescent players (thirteen forwards and eight backs) during a 2017 junior representative rugby league competition. Game-day footage, recorded by a trained videographer from a single camera, was synchronised with X-patchTM-recorded timestamped events. Impacts were double verified by video review. Impact rates, playing characteristics, and gameplay situations were described. Results The X-patchTM-recorded 624 impacts ≥ 20g between game start and finish, of which 564 (90.4%) were verified on video. Upon video review, 413 (73.2%) of all verified impacts ≥ 20g where determined to be direct head impacts. Direct head impacts ≥ 20g occurred at a rate of 5.2 impacts per game hour; 7.6 for forwards and 3.0 for backs (range = 0–18.2). A defender’s arm directly impacting the head of the ball carrier was the most common event, accounting for 21.3% (n = 120) of all impacts, and 46.7% of all “hit-up” impacts. There were no medically diagnosed concussions during the competition. Conclusion The majority (90.4%) of head impacts ≥ 20g recorded by the X-patchTM sensor were verified by video. Double verification of direct head impacts in addition to cross-verification of sensor-recorded impacts using a secondary source such as synchronised video review can be used to ensure accuracy and validation of data.

Published

2021

4. Verifying Head Impacts Recorded by a Wearable Sensor using Video Footage in Rugby League: a Preliminary Study

Author

Lauchlan John Carey, Shane V. Caswell, Andrew Gardner, Andrew S. McIntosh, Douglas P. Terry, Grant L. Iverson, and Peter Stanwell

Subjects

Rugby league, Wearable computer, Physical Therapy, Sports Therapy and Rehabilitation, League, Accelerometer, 03 medical and health sciences, 0302 clinical medicine, Aeronautics, Concussion, medicine, Linear acceleration, Orthopedics and Sports Medicine, 030212 general & internal medicine, Accelerometer data, Original Research Article, lcsh:Sports medicine, Head impacts, 030229 sport sciences, medicine.disease, Game play, Video review, Single camera, Wearable sensors, lcsh:RC1200-1245, Psychology

Abstract

Background Rugby league is a full-contact collision sport with an inherent risk of concussion. Wearable instrumented technology was used to observe and characterize the level of exposure to head impacts during game play. Purpose To verify the impacts recorded by the x-patch™ with video analysis. Study design Observational case series. Methods The x-patch™ was used on eight men’s semi-professional rugby league players during the 2016 Newcastle Rugby League competition (five forwards and three backs). Game day footage was recorded by a trained videographer using a single camera located at the highest midfield location to verify the impact recorded by the x-patch™. Videographic and accelerometer data were time synchronized. Results The x-patch™ sensors recorded a total of 779 impacts ≥ 20 g during the games, of which 732 (94.0%) were verified on video. In addition, 817 impacts were identified on video that did not record an impact on the sensors. The number of video-verified impacts ≥ 20 g, per playing hour, was 7.8 for forwards and 4.8 for backs (range = 3.9–19.0). Impacts resulting in a diagnosed concussion had much greater peak linear acceleration (M = 76.1 g, SD = 17.0) than impacts that did not result in a concussion (M = 34.2g, SD = 18.0; Cohen’s d = 2.4). Conclusions The vast majority (94%) of impacts ≥ 20 g captured by the x-patch™ sensor were video verified in semi-professional rugby league games. The use of a secondary source of information to verify impact events recorded by wearable sensors is beneficial in clarifying game events and exposure levels.

Published

2018

5. Verifying Head Impacts Recorded by a Wearable Sensor using Video Footage in Rugby League: a Preliminary Study.

Author

Carey, Lauchlan, Stanwell, Peter, Terry, Douglas P., McIntosh, Andrew S., Caswell, Shane V., Iverson, Grant L., and Gardner, Andrew J.

Subjects

WEARABLE technology, RUGBY League football, VIDEO recording, BRAIN concussion, ACCELEROMETERS, SCIENTIFIC observation, CONFIDENCE intervals, RUGBY football, CASE studies, DESCRIPTIVE statistics, DATA analysis software, HEAD injuries, RUGBY football injuries, LONGITUDINAL method

Abstract

Background: Rugby league is a full-contact collision sport with an inherent risk of concussion. Wearable instrumented technology was used to observe and characterize the level of exposure to head impacts during game play.Purpose: To verify the impacts recorded by the x-patch™ with video analysis.Study design: Observational case series.Methods: The x-patch™ was used on eight men's semi-professional rugby league players during the 2016 Newcastle Rugby League competition (five forwards and three backs). Game day footage was recorded by a trained videographer using a single camera located at the highest midfield location to verify the impact recorded by the x-patch™. Videographic and accelerometer data were time synchronized.Results: The x-patch™ sensors recorded a total of 779 impacts ≥ 20 g during the games, of which 732 (94.0%) were verified on video. In addition, 817 impacts were identified on video that did not record an impact on the sensors. The number of video-verified impacts ≥ 20 g, per playing hour, was 7.8 for forwards and 4.8 for backs (range = 3.9-19.0). Impacts resulting in a diagnosed concussion had much greater peak linear acceleration (M = 76.1 g, SD = 17.0) than impacts that did not result in a concussion (M = 34.2g, SD = 18.0; Cohen's d = 2.4).Conclusions: The vast majority (94%) of impacts ≥ 20 g captured by the x-patch™ sensor were video verified in semi-professional rugby league games. The use of a secondary source of information to verify impact events recorded by wearable sensors is beneficial in clarifying game events and exposure levels. [ABSTRACT FROM AUTHOR]

Published

2019