214 research outputs found
Injury Risk Estimation Expertise: Interdisciplinary Differences in Performance on the ACL Injury Risk Estimation Quiz
Background: Simple observational assessment of movement is a potentially low-cost method for anterior cruciate ligament (ACL)
injury screening and prevention. Although many individuals utilize some form of observational assessment of movement, there are
currently no substantial data on group skill differences in observational screening of ACL injury risk.
Purpose/Hypothesis: The purpose of this study was to compare various groups’ abilities to visually assess ACL injury risk as well
as the associated strategies and ACL knowledge levels. The hypothesis was that sports medicine professionals would perform
better than coaches and exercise science academics/students and that these subgroups would all perform better than parents
and other general population members.
Study Design: Cross-sectional study; Level of evidence, 3.
Methods: A total of 428 individuals, including physicians, physical therapists, athletic trainers, strength and conditioning
coaches, exercise science researchers/students, athletes, parents, and members of the general public participated in the study.
Participants completed the ACL Injury Risk Estimation Quiz (ACL-IQ) and answered questions related to assessment strategy
and ACL knowledge.
Results: Strength and conditioning coaches, athletic trainers, physical therapists, and exercise science students exhibited consistently
superior ACL injury risk estimation ability (þ2 SD) as compared with sport coaches, parents of athletes, and members of
the general public. The performance of a substantial number of individuals in the exercise sciences/sports medicines (approximately
40%) was similar to or exceeded clinical instrument-based biomechanical assessment methods (eg, ACL nomogram).
Parents, sport coaches, and the general public had lower ACL-IQ, likely due to their lower ACL knowledge and to rating the
importance of knee/thigh motion lower and weight and jump height higher.
Conclusion: Substantial cross-professional/group differences in visual ACL injury risk estimation exist. The relatively profound
differences in injury risk estimation accuracy and their potential implications for risk screening suggest the need for additional
training and outreach
Cross-professional differences in real-time assessment of ACL injury risk
Simple visual inspection of movement is a potentially low cost method for anterior
cruciate ligament (ACL) injury screening and prevention. Although many
professionals, athletes, and coaches utilize some form of visual inspection of
movement/injury risk, there is currently no substantial data on group skill differences.
Sports medicine professionals, exercise science students/academics, and strength
and conditioning coaches exhibited consistently superior ACL injury risk estimation
skill compared to sport coaches, parents of athletes and the general public (about 2
standard deviations). In addition, many individuals’ visual risk assessment accuracy
was similar to or exceeded clinical instrument-based biomechanical assessment
methods (i.e., ACL nomogram). Perceptual-cognitive mechanisms are discussed
Visual estimation of ACL injury risk: Efficient assessment method, group differences, and expertise mechanisms
Simple observational assessment of movement quality (e.g., drop vertical jump biomechanics) is an efficient and low cost method for anterior cruciate ligament (ACL) injury screening and prevention. A recently developed test (see www.ACL-IQ.org) has revealed substantial cross-professional/group differences in visual ACL injury risk estimation skill. Specifically, parents, sport coaches, and to some degree sports medicine physicians, would likely benefit from training or the use of decision support tools. In addition, expertise mechanisms (perceptual-cognitive characteristics of skilled performers) were investigated in order to design training systems to improve risk estimation performance
CROSS-PROFESSIONAL DIFFERENCES IN REAL-TIME ASSESSMENT OF ACL INJURY RISK
Simple visual inspection of movement is a potentially low cost method for anterior cruciate ligament (ACL) injury screening and prevention. Although many professionals, athletes, and coaches utilize some form of visual inspection of movement/injury risk, there is currently no substantial data on group skill differences. Sports medicine professionals, exercise science students/academics, and strength and conditioning coaches exhibited consistently superior ACL injury risk estimation skill compared to sport coaches, parents of athletes and the general public (about 2 standard deviations). In addition, many individuals’ visual risk assessment accuracy was similar to or exceeded clinical instrument-based biomechanical assessment methods (i.e., ACL nomogram). Perceptual-cognitive mechanisms are discussed
Evaluation of Head Impact Exposure Between One Season of Youth Versus High School Football
In Volume 4, Issue 1 of the JSMAHS you will find Professional research abstracts, as well as Under Graduate student research abstracts, case reports, and critically appraised topics.
Thank you for viewing this 4th Annual OATA Special Edition
An audit of injuries in six English professional soccer academies
Regulations now state that professional academies in the United Kingdom are required to substantially increase the volume of soccer training. This study assessed the current injury occurrence, providing an update to reports published prior to the introduction of the Elite Player Performance Plan (EPPP). 608 soccer players aged 11–18 years from six professional soccer clubs were prospectively monitored, recording injuries during the 2014–2015 season. An injury rate of 1.32 injuries per player/season was indicated with a mean time loss of 21.9 days per injury. The greatest time loss per injury was in the U14s-U15s, and the highest rate of severe injuries in the U15s. Strains and sprains were the most common injury type, with the knee and ankle the most frequently injured anatomical sites. Seasonal variation indicated two peaks in injury incidence, occurring in September and January. In comparison to a published audit prior to the inception of the EPPP, this study indicates that academy soccer players are three-times more likely to experience an injury. Given that time loss and injury severity also increased during periods that typically follow rapid growth, these players should be considered an important group for training load monitoring and injury prevention strategies
The Physiological Demands of Youth Artistic Gymnastics; Applications to Strength and Conditioning
The sport of artistic gymnastics involves a series of complex events that can expose young gymnasts to relatively high forces. The sport is recognized as attracting early specialization, in which young children are exposed to a high volume of sports-specific training. Leading world authorities advocate that young athletes should participate in strength and conditioning related activities in order to increase athlete robustness and reduce the relative risk of injury. The purpose of this commentary is to provide a needs analysis of artistic gymnastics, and to highlight key issues surrounding training that practitioners should consider when working with this unique population
Preferential Quadriceps Activation in Female Athletes with Incremental Increases in Landing Intensity
The purpose of this study was to identify alterations in preparatory muscle activation patterns across different drop heights in female athletes. Sixteen female high school volleyball players performed the drop vertical jump from three different drop heights. Surface electromyography of the quadriceps and hamstrings were collected during the movement trials. As the drop height increased, muscle activation of the quadriceps during preparatory phase also increased (p \u3c .05). However, the hamstrings activation showed no similar increases relative to drop height. Female athletes appear to preferentially rely on increased quadriceps activation, without an increase in hamstrings activation, with increased plyometric intensity. The resultant decreased activation ratio of the hamstrings relative to quadriceps before landing may represent altered dynamic knee stability and may contribute to the increased risk of ACL injury in female athletes
Reliability of the tuck jump injury risk screening assessment in elite male youth soccer players
Altered neuromuscular control has been suggested as a mechanism for injury in soccer players. Ligamentous injuries most often occur during dynamic movements, such as decelerations from jump-landing maneuvers where high risk movement patterns are present. The assessment of kinematic variables during jump-landing tasks as part of a pre-participation screen is useful in the identification of injury risk. An example of a field-based screening tool is the repeated tuck jump assessment. The purpose of this study was to analyze the within-subject variation of the tuck jump screening assessment in elite male youth soccer players. 25 pre and 25 post-peak height velocity (PHV) elite male youth soccer players from the academy of a professional English soccer club completed the assessment. A test, re-test design was used to explore the within-subject inter-session reliability. Technique was graded retrospectively against the 10-point criteria set out in the screening protocol using two-dimensional video cameras. The typical error range reported for tuck jump total score (0.90 – 1.01 in pre and post-PHV players respectively) was considered acceptable. When each criteria was analyzed individually, Kappa coefficient determined that knee valgus was the only criterion to reach substantial agreement across the two test sessions for both groups. The results of this study suggest that although tuck jump total score may be reliably assessed in elite male youth soccer players, caution should be applied in solely interpreting the composite score due to the high within-subject variation in a number of the individual criteria. Knee valgus may be reliably used to screen elite youth male soccer players for this plyometric technique error and for test, re-test comparison
The influence of biological maturity on dynamic force–time variables and vaulting performance in young female gymnasts
Purpose: This cross-sectional study investigated dynamic force–time variables and vaulting performance in young female gymnasts of different maturity status.
Methods: 120 gymnasts aged 5–14 years were sub-divided into maturity groupings using percent of predicted adult height (%PAH) attained. Participants performed three jumping protocols, the squat jump (SJ), countermovement jump (CMJ) and drop jump (DJ), before completing straight jump vaults that were recorded using two-dimensional video.
Results: Jumping performance improved with biological maturity evidenced by the most mature gymnasts’ producing significantly more absolute force (P \u3c 0.05; all d \u3e 0.78), impulse (P \u3c 0.05; all d \u3e 0.75) and power (P \u3c 0.05; all d \u3e 0.91) than the least mature group, resulting in the greater jump heights (P \u3c 0.05; all d \u3e 0.70). While, no significant differences were observed in relative peak force across multiple tests, measures of relative peak power did significantly increase with maturity. Based upon regression analyses, maturation was found to influence vertical take-off velocity during vaulting, explaining 41% of the variance in each jumping protocol. Across all tests, the DJ was found to have the highest predictive ability of vaulting vertical take-off velocity, explaining 55% of the total variance.
Conclusion: Biological maturation impacts jump height and underpinning mechanical variables in young female gymnasts. Vaulting vertical take-off velocity appears to be influenced by maturation and various dynamic force–time variables, particularly those during DJ, which had the highest explained total variance
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