Your search keyword '"Middleton, Kane"' showing total 99 results

1. The test–retest reliability of physiological and perceptual responses during treadmill load carriage

Author

Vickery-Howe, Danielle M., Dascombe, Ben J., Clarke, Anthea C., Drain, Jace R., Huynh, Minh, and Middleton, Kane J.

Published

2024

2. The use of small-arms stability measures in combat shooting assessments

Author

Coleman, Jemma L., Davey, Paul, McClelland, Jodie A., and Middleton, Kane J.

Published

2025

3. The effect of external loads and biological sex on coupling variability during load carriage

Author

Hoolihan, Brooke, Wheat, Jonathan, Dascombe, Ben, Vickery-Howe, Danielle, and Middleton, Kane

Published

2023

4. The temporal distribution and occurrence of impacts and movement relative to peak periods in men's rugby union

Author

Peek, Rebecca J., Fleming, Jeffrey A., Carey, David L., Middleton, Kane J., Gastin, Paul B., and Clarke, Anthea C.

Published

2022

5. An isometric neck strengthening program does not improve neck strength in elite women's football-code athletes: A randomised controlled trial

Author

Deng, Candy L., Pearce, Alan J., Mentiplay, Benjamin F., Middleton, Kane J., and Clarke, Anthea C.

Published

2022

6. Perceptions and Practices of Accredited Tennis Coaches When Teaching Foundational Grip Development.

Author

Busuttil, Nicholas A., Roberts, Alexandra H., Dunn, Marcus, Hyunh, Minh, and Middleton, Kane J.

Subjects

TENNIS coaches, TENNIS, INTERNET surveys, HABIT, CONFIDENCE

Abstract

This study aimed to understand how tennis coaches perceive and approach the development of grip positions, a foundational skill in tennis. Professionally accredited coaches, classed as less (n = 140) or more (n = 86) experienced, participated in an online survey where they provided their perspectives on the importance of developing grip positions and their opinions on using physically constraining tools for coaching. Irrespective of coach experience level, the findings revealed that technique development and grip position training were ranked as the two most important components in foundational tennis skill development. The Semi-western grip for forehand (less: 68%; more: 65%), a combination of Continental and Eastern grips for double-handed backhand (less: 59%; more: 48.8%), and the Continental grip for serves (both: 94%) were identified as the most commonly taught positions for different shots. Perceived barriers to developing grip positions were out of habit (less: 62%; more: 56%), discomfort (less: 58%; more: 50%), and lack of confidence (less: 44%; more: 21%). Notably, 65% of coaches expressed an openness to incorporating physically constraining tools to enhance grip-specific skill development. Overall, this study serves as a foundational resource, guiding coaches in optimising their strategies for foundational tennis development, prompting further research in this area. [ABSTRACT FROM AUTHOR]

Published

2024

7. Technical determinants of air rifle and pistol shooting performance: A systematic review and meta-analysis.

Author

Sundaram, Vasanth, Sundar, Viswanath, and Middleton, Kane

Subjects

SHOOTING (Sports), AIR guns, CINAHL database, CONFIDENCE intervals, HYGIENE

Abstract

The study aimed to investigate the influence of key technical determinants on shooting performance in both air rifle and pistol shooting disciplines. Following a systematic search across four databases (PubMed, CINAHL, SPORTDiscus, and Cochrane Library), a total of 22 articles were included. The findings indicate that there was a significant correlation between the stability of hold component, as measured by DEV_X (r = −0.60; 95% confidence interval (CI) = −0.69 to −0.49; p < 0.001) and HITf (r = 0.69; 95% CI = 0.56 to 0.79; p < 0.001) and shooting performance in both shooting disciplines. In addition, HITr, another stability component, revealed a significant positive correlation for shooting performance (r = 0.60; 95% CI = 0.35 to 0.77; p < 0.001) in air pistol shooting. Furthermore, in both disciplines, there was a significant positive correlation between shooting performance and measures of aiming accuracy such as COGhit (r = 0.64; 95% CI = 0.49 to 0.75; p < 0.001), Targetf (r = 0.75; 95% CI = 0.63 to 0.84; p < 0.001), and Targetr (r = 0.60; 95% CI = 0.33 to 0.78; p < 0.001). In both disciplines, there was a strong negative correlation between the cleanliness of triggering and shooting performance (r = −0.63; 95% CI = −0.75 to −0.48; p < 0.001). Time on target measure significantly correlated with shooting performance (r = 0.52; 95% CI = 0.31 to 0.68; p < 0.001) across both disciplines. The relationship between postural balance and shooting performance in air rifle shooting was negative, indicating that better postural balance is associated with improved shooting (r = −0.53; 95% CI = −0.69 to −0.33; p < 0.001). This review emphasizes the significance of various technical components in both air rifle and pistol disciplines. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Agreement between Wearable Sensors and Force Plates for the Analysis of Stride Time Variability.

Author

Slattery, Patrick, Cofré Lizama, L. Eduardo, Wheat, Jon, Gastin, Paul, Dascombe, Ben, and Middleton, Kane

Subjects

WEARABLE technology, PEARSON correlation (Statistics), INTRACLASS correlation, LIFTING & carrying (Human mechanics), STANDARD deviations

Abstract

The variability and regularity of stride time may help identify individuals at a greater risk of injury during military load carriage. Wearable sensors could provide a cost-effective, portable solution for recording these measures, but establishing their validity is necessary. This study aimed to determine the agreement of several measures of stride time variability across five wearable sensors (Opal APDM, Vicon Blue Trident, Axivity, Plantiga, Xsens DOT) and force plates during military load carriage. Nineteen Australian Army trainee soldiers (age: 24.8 ± 5.3 years, height: 1.77 ± 0.09 m, body mass: 79.5 ± 15.2 kg, service: 1.7 ± 1.7 years) completed three 12-min walking trials on an instrumented treadmill at 5.5 km/h, carrying 23 kg of an external load. Simultaneously, 512 stride time intervals were identified from treadmill-embedded force plates and each sensor where linear (standard deviation and coefficient of variation) and non-linear (detrended fluctuation analysis and sample entropy) measures were obtained. Sensor and force plate agreement was evaluated using Pearson's r and intraclass correlation coefficients. All sensors had at least moderate agreement (ICC > 0.5) and a strong positive correlation (r > 0.5). These results suggest wearable devices could be employed to quantify linear and non-linear measures of stride time variability during military load carriage. [ABSTRACT FROM AUTHOR]

Published

2024

9. Inter- and intra-athlete technique variability of conventional new ball swing bowling in elite and pre-elite Australian male fast bowlers.

Author

Lindsay, Cody, Crowther, Rian, Middleton, Kane, Clark, Brad, Warmenhoven, John, and Spratford, Wayne

Subjects

HAND physiology, PELVIC physiology, SHOULDER physiology, WRIST physiology, ARM physiology, MOTOR ability, WORK measurement, BIOMECHANICS, CLUSTER analysis (Statistics), KINEMATICS, BOWLING, RESEARCH methodology, BODY movement, TORSO, CRICKET (Sport), GRIP strength

Abstract

This study aimed to investigate inter- and intra-athlete technique variability in pre-elite and elite Australian fast bowlers delivering new ball conventional swing bowling. Ball grip angle and pelvis, torso, shoulder, elbow, wrist, upper arm, forearm, and hand kinematics were investigated at the point of ball release for inswing and outswing deliveries. Descriptive evaluations of group and individual data and k-means cluster analyses were used to assess inter- and intra-bowler technique variability. Inter-athlete technique and ball grip variability were identified, demonstrating that skilled bowlers use individualised strategies to generate swing. Functional movement variability was demonstrated by intra-athlete variability in successful swing bowling trials. Bowlers demonstrated stable technique parameters in large proximal body segments of the pelvis and torso, providing a level of repeatability to their bowling action. Greater variation was observed in bowling arm kinematics, allowing athletes to manipulate the finger and ball position to achieve the desired seam orientation at the point of ball release. This study demonstrates that skilled bowlers use individualised techniques and grips to generate swing and employ technique variations in successive deliveries. Coaches should employ individualised training strategies and use constraints-led approaches in training environments to encourage bowlers to seek adaptive movement solutions to generate swing. [ABSTRACT FROM AUTHOR]

Published

2024

10. The sensitivity of a military-based occupational fitness test of muscular strength

Author

Middleton, Kane J., Carstairs, Greg L., Caldwell, Joanne N., Billing, Daniel C., and Beck, Ben

Published

2017

11. The identification of combat survivability tasks associated with naval vessel damage in maritime environments

Author

Middleton, Kane J. and Carr, Amelia J.

Published

2017

12. Bowler and coach experiential knowledge of new ball swing bowling in elite cricket.

Author

Lindsay, Cody, Crowther, Rian, Clark, Brad, Middleton, Kane, Keegan, Richard, and Spratford, Wayne

Subjects

QUALITATIVE research, INTERVIEWING, BOWLING, DESCRIPTIVE statistics, PROFESSIONS, EXPERIENCE, THEMATIC analysis, ATHLETIC ability, CRICKET (Sport), GRIP strength

Abstract

Swing bowling can influence the outcome of cricket matches, but technique characteristics and coaching practices have not been investigated at an elite level. This study aimed to provide insight into the perceived technique parameters, coaching practices and variables contributing to conventional new ball swing bowling in elite cricket. Six Australian Test match fast bowlers and six Australian international and national-level coaches were interviewed. A reflexive thematic analysis of interview transcripts generated themes associated with swing bowling. Most bowlers reported their technique allows them to naturally create either inswing or outswing, with technique variations used to create swing in the opposite direction. To increase delivery effectiveness, bowlers and coaches recommended pitching the ball closer to the batter in length and varying release positions along the crease. Coaches recommended making individualised technique adjustments, but suggested all bowlers could benefit from maintaining balance and forward momentum to create a consistent release position in repeated deliveries. This study could inform training strategies to alter techniques and improve swing bowling performance. Future research should investigate the physical qualities of fast bowlers and use biomechanical analyses to provide a deeper understanding of swing bowling. [ABSTRACT FROM AUTHOR]

Published

2024

13. Lower-Limb Biomechanics in Football Players with and without Hip-related Pain

Author

KING, MATTHEW G., SEMCIW, ADAM I., SCHACHE, ANTHONY G., MIDDLETON, KANE J., HEEREY, JOSHUA J., SRITHARAN, PRASANNA, SCHOLES, MARK J., MENTIPLAY, BENJAMIN F., and CROSSLEY, KAY M.

Published

2020

14. The inter-tester repeatability of a model for analysing elbow flexion-extension during overhead sporting movements

Author

Wells, Denny J. M., Donnelly, Cyril J., Elliott, Bruce C., Middleton, Kane J., and Alderson, Jacqueline A.

Published

2018

15. Predicting stretcher carriage: Investigating variations in bilateral carry tests

Author

Beck, Ben, Middleton, Kane J., Carstairs, Greg L., Billing, Daniel C., and Caldwell, Joanne N.

Published

2016

16. Understanding Anthropometric Characteristics Associated With Performance in Manual Lifting Tasks

Author

Beck, Ben, Middleton, Kane J., Billing, Daniel C., Caldwell, Joanne N., and Carstairs, Greg L.

Published

2019

17. The efficacy of foot orthoses in individuals with patellofemoral osteoarthritis: a randomised feasibility trial

Author

Tan, Jade M., Menz, Hylton B., Crossley, Kay M., Munteanu, Shannon E., Hart, Harvi F., Middleton, Kane J., Smith, Anne J., and Collins, Natalie J.

Published

2019

18. Number of trials necessary to achieve a representative performance of accuracy and timing during combat shooting.

Author

Coleman, Jemma L., Huynh, Minh, and Middleton, Kane J.

Subjects

RELIABILITY (Personality trait), CLINICAL trials, SHOOTING (Sports), FIREARMS, TIME, STANDING position, TREATMENT effectiveness, BODY movement, INTRACLASS correlation, RESEARCH bias

Abstract

Acquisition evaluations are expensive, have a high time liability, and tend to prioritize engineering requirements over human factors and good experimental design. Shooting serials usually consist of static prone shooting to minimize movement variability, increase reliability of accuracy and timing data or use a single data point to make acquisition decisions. To better understand the number of trials required to achieve representative performance of accuracy and timing, 60 shots from the standing unsupported position while cyclically moving the weapon from the low ready to shoot was utilized. Intra‐class correlations, standard error of measurement, minimal detectable change, and sequential averaging analysis (SAA) were used to evaluate the variables of radial error, shot interval, x‐bias and y‐bias over the 60 shots. The number of trials required to achieve an intraclass correlation of greater than 0.8 ranged from 2 (shot interval) to 58 (y‐bias), whereas SAA varied between 3 (x‐bias) and 43 (shot interval) trials. When averaging 10 shots at a time, the moving intraclass correlation remained above 0.8 for radial error and y‐bias between 7 and 15 shots, shot interval from the second shot, but x‐bias never reached 0.8. The number of trials required to satisfy each reliability method was inconsistent, in line with previous literature. Given the limitations identified in the literature as well as practical considerations such as the preference for prioritizing radial error reasonable performance stability can be achieved after 15 shots, and using the moving intraclass correlation results it is recommended that the first six shots are discarded with the following nine shots used for analysis. [ABSTRACT FROM AUTHOR]

Published

2023

19. Can handling a weapon make soldiers more unstable?

Author

Cofré Lizama, L. Eduardo, Wheat, Jonathan, Slattery, Patrick, and Middleton, Kane

Subjects

MILITARY education, STATISTICAL reliability, GAIT in humans, WEAPONS, HEALTH of military personnel, ACCELEROMETRY, WALKING, RESEARCH funding, PSYCHOLOGY of military personnel

Abstract

Gait stability in soldiers can be affected by task constraints that may lead to injuries. This study determined the effects of weapon handling and speed on gait stability in seventeen soldiers walking on a treadmill with and without a replica weapon at self-selected (SS), 3.5 km·h−1, 5.5 km·h−1, and 6.5 km·h−1 while carrying a 23-kg load. Local dynamic stability was measured using accelerometry at the sacrum (LDESAC) and sternum (LDESTR). No significant weapon and speed interaction were found. A significant effect of speed for the LDESAC, and a significant effect of speed and weapon for the LDESTR were found. Per plane analyses showed that the weapon effect was consistent across all directions for the LDESTR but not for LDESAC. Weapon handling increased trunk but did not affect pelvis stability. Speed decreased stability when walking slower than SS and increased when faster. These findings can inform injury prevention strategies in the military. Practitioner summary: We determined the effects of two constraints in soldier's walking stability, weapon handling and speed, measured at the trunk and sacrum. No constraints interactions were found, however, lower stability when walking slow and greater stability with the weapon at the trunk can inform preventive strategies in military training. [ABSTRACT FROM AUTHOR]

Published

2023

20. Effects of concussion on technical performance in professional Australian football.

Author

Clarke, Anthea C, Middleton, Kane J, Gretgrix, Hannah, and Pearce, Alan J

Subjects

AUSTRALIAN football, MALE athletes, BRAIN concussion, STANDARD deviations, ELITE athletes

Abstract

There is limited research on the on-field performance of previously concussed athletes. The aim of this exploratory study was to investigate athlete technical performance pre- and post-concussion in Australian Football. Using publicly available data, male athletes who sustained a concussion during the 2016–19 professional Australian Football League seasons were analysed across five games pre- and post-concussion (concussion events n = 41, age 25.4 ± 3.5 years; control n = 39, age 25.2 ± 3.6 years). Mean technical performance metrics (goals, time-on-ground percentage, kicks, ground ball and disposal efficiency, contested marks) over the five games pre- and post-concussion, as well as within-athlete performance variability measures (standard deviation and coefficient of variation) were analysed. Results showed no significant group-by-time interactions, nor effect of time (pre-post) for any technical performance metric. Similarly, the within-athlete standard deviation and coefficient of variation of technical performance metrics showed no group-by-time interaction, nor effect for time. This retrospective study has shown that athlete performance averaged over five games is not affected post-concussion in elite men's Australian Football. Further prospective studies controlling for contextual match factors based on opposition and environmental conditions may be required to identify potential in-game technical performance changes following return-to-play from concussion. [ABSTRACT FROM AUTHOR]

Published

2023

21. The use of physically constraining tools for grip-specific skill development in racket, stick and club sports: A scoping review.

Author

Busuttil, Nicholas A., Roberts, Alexandra H., Dunn, Marcus, Connolly, Molly, and Middleton, Kane J.

Subjects

GRIP strength, RACKET games, SYSTEMATIC reviews, PHYSICAL training & conditioning, BODY movement, RESEARCH funding, ATHLETIC ability, LITERATURE reviews, BIOMECHANICS, MEDLINE, GREY literature

Abstract

Coaches use physically constraining tools to supplement their coaching when developing sport-specific skills, however, their effectiveness is unknown. This scoping review aimed to understand the efficacy of physically constraining tools used in racket, stick, and club sports for grip-specific skill development. This scoping review followed the Joanna Briggs Institute methodology and PRISMA guidelines. Peer-reviewed research, including quasi-experimental, true-experimental, case studies, and grey literature were considered. Peer-reviewed sources were searched on Web of Science, Medline, and SPORTDiscus until October 6th, 2022. Exclusion criteria were (1) not original peer-reviewed research; (2) disabled participants or used for rehabilitation; or (3) not available in English. Data extracted were the type of tool, research foci, measures, and outcomes of the tool's efficacy. Zero peer-reviewed sources were identified on the efficacy of using physically constraining tools for grip-specific skill development. Common trends identified from the excluded sources were explored to provide a basis for the importance of using physically constraining tools for grip-specific skill development. Many tools are used in coaching despite their unclear efficacy, however, the current results can guide future work to assess the acute and longitudinal effects of using these tools, specifically within the development and performance of sport-specific skills. [ABSTRACT FROM AUTHOR]

Published

2023

22. Many Pieces to the Puzzle: A New Holistic Workload Approach to Designing Practice in Sports.

Author

Champion, Luke, Middleton, Kane, and MacMahon, Clare

Subjects

PHYSICAL training & conditioning, COGNITION, HUMAN services programs, ABILITY, TRAINING, EXERCISE intensity, SPORTS medicine

Abstract

Representative learning design (RLD) in sport is a well-established concept in both theory and practice. The goal of RLD is to faithfully replicate competition environments in training settings to benefit improvement in athletic performance. There is currently little research that considers how representative an activity needs to be to facilitate learning transfer, and how that level of representativeness might fluctuate between activities or sessions, and across competitive cycles. Similarly, there is no existing research that specifically considers the elevated workload (in cognitive and physical load) of highly representative training, and the potential impacts of chronic overuse of these highly demanding activities. This paper addresses these limitations, making a case for the application of RLD that considers the level of representativeness (fidelity) and the demands placed on athletes (load) from both a cognitive and physical perspective. This paper also suggests several categorisations of training activities that are based on their relative representativeness, level of imposed demands, and the intended outcomes of the activity with reference to the perception–action cycle. The two core concepts of fidelity and load are combined for a new approach to representative training that allows practitioners to balance the benefits of representative training with the risks of imposing excessive load on athletes. [ABSTRACT FROM AUTHOR]

Published

2023

23. Modifiable Anthropometric Characteristics Are Associated With Unilateral and Bilateral Carry Performance

Author

Beck, Ben, Carstairs, Greg L., Billing, Daniel C., Caldwell, Joanne N., and Middleton, Kane J.

Published

2017

24. Application of video frame interpolation to markerless, single-camera gait analysis.

Author

Dunn, Marcus, Kennerley, Adam, Murrell-Smith, Zhane, Webster, Kate, Middleton, Kane, and Wheat, Jon

Subjects

ANKLE joint, INTERPOLATION, MOTION capture (Human mechanics), FACTOR analysis, VIDEOS, ANGLES

Abstract

In clinic settings, factors such as time, cost, expertise, and technology feasibility limit the use of instrumented biomechanical analysis. Recent advances in commercial markerless motion capture systems can address patient ease-of-use factors, but are high cost and require specialised equipment, dedicated spaces, and technical expertise. As such, they present similar limitations to biomechanical analyses in clinic settings. Single-camera pose estimation techniques have generated cautious optimism for markerless gait analysis. However, parameters derived using low-cost and low-sample rate cameras commonly used in clinic settings are not yet accurate enough to detect change in complex movement systems. Video frame interpolation is a single-step process that artificially increases the sample rate of videos. This study applied video frame interpolation to videos of walking and demonstrates improved precision for step, stance, swing and double support times, as well as marginal improvements to the precision of ankle and knee joint angles, derived by single-camera pose estimation. Video frame interpolation potentially represents a delimiting factor for gait analysis in clinic settings, as limiting factors such as time, cost, technology feasibility and patient ease-of-use can be minimised. [ABSTRACT FROM AUTHOR]

Published

2023

25. Peak match acceleration demands differentiate between elite youth and professional football players.

Author

Thoseby, Bradley, Govus, Andrew D., Clarke, Anthea C., Middleton, Kane J., and Dascombe, Ben J.

Subjects

SOCCER players, ACCELERATION (Mechanics), PHYSICAL mobility, MOVING average process, PROFESSIONAL employees

Abstract

Youth footballers need to be developed to meet the technical, tactical, and physical demands of professional level competition, ensuring that the transition between competition levels is successful. To quantify the physical demands, peak match intensities have been measured across football competition tiers, with team formations and tactical approaches shown to influence these physical demands. To date, no research has directly compared the physical demands of elite youth and professional footballers from a single club utilising common formations and tactical approaches. The current study quantified the total match and peak match running demands of youth and professional footballers from a single Australian A-League club. GPS data were collected across a single season from both a professional (n = 19; total observations = 199; mean ± SD; 26.7 ± 4.0 years) and elite youth (n = 21; total observations = 59; 17.9 ± 1.3 years) team. Total match demands and peak match running demands (1–10 min) were quantified for measures of total distance, high-speed distance [>19.8 km·h-1] and average acceleration. Linear mixed models and effect sizes identified differences between competition levels. No differences existed between competition levels for any total match physical performance metric. Peak total and high-speed distances demands were similar between competitions for all moving average durations. Interestingly, peak average acceleration demands were lower (SMD = 0.63–0.69) in the youth players across all moving average durations. The data suggest that the development of acceleration and repeat effort capacities is crucial in youth players for them to transition into professional competition. [ABSTRACT FROM AUTHOR]

Published

2023

26. Australian Football Athletes Lack Awareness of Current Sport Nutrition Guidelines.

Author

Trakman, Gina L., Forsyth, Adrienne, Middleton, Kane, Hoye, Russell, Jenner, Sarah, Keenan, Stephen, and Belski, Regina

Subjects

SPORTS nutrition, PSYCHOLOGY of athletes, REGULATION of body weight, DIETARY supplements, DIETITIANS, ALCOHOL drinking, FOOTBALL, NUTRITIONAL requirements, NUTRITION education, NUTRITION policy, QUESTIONNAIRES, MICRONUTRIENTS, EMAIL, HUMAN services programs, HEALTH literacy, ELITE athletes, PSYCHOLOGY

Abstract

Sports nutrition is an evolving field, but there is a lack of data on Australian athletes' knowledge of current sports nutrition guidelines. Additionally, several tools used to assess nutrition knowledge (NK) have not undergone adequate validation. The purpose of this study was to assess and compare the sports NK of elite and nonelite Australian football (AF) athletes using a newly validated questionnaire—The Nutrition for Sport Knowledge Questionnaire. Elite AF players (n = 46) were recruited directly from their club dietitian and nonelite AF players (n = 53) were invited to participate via e-mail from their club president or secretary. The mean NK score of elite and nonelite AF players was 46 ± 16% and 51 ± 11%, respectively (p =.041). In both groups, knowledge of macronutrients, weight management, and alcohol was better than knowledge of supplements, micronutrients, and sports nutrition. Nonelite athletes achieved statistically significantly higher scores on the questionnaire subsections testing weight management (elite: 48 ± 18; nonelite: 57 ± 19, p =.019), micronutrients (elite: 39 ± 19; nonelite: 50 ± 16, p =.004), and alcohol (elite: 52 ± 13; nonelite: 71 ± 17, p =.002). While overall NK of Australian athletes was poor, scores varied greatly among individuals (range: 10–70%) and across the six subsections (topics) being assessed. Professionals working with athletes should undertake an assessment of the athletes' NK so that they can provide targeted education programs. [ABSTRACT FROM AUTHOR]

Published

2018

27. Positional and temporal differences in peak match running demands of elite football.

Author

Thoseby, Bradley, Govus, Andrew D., Clarke, Anthea C., Middleton, Kane J., and Dascombe, Ben J.

Abstract

Temporal changes in the total running demands of professional football competition have been well documented, with absolute running demands decreasing in the second half. However, it is unclear whether the peak match running demands demonstrate a similar decline. A total of 508 GPS files were collected from 44 players, across 68 matches of the Australian A-League. GPS files were split into the 1st and 2nd half, with the peak running demands of each half quantified across 10 moving average durations (1-10 min) for three measures of running performance (total distance, high-speed distance [> 19.8 km ⋅ h-1] and average acceleration). Players were categorised based on positional groups: attacking midfielder (AM), central defender (CD), defensive midfielder (DM), striker (STR), wide defender (WD) and winger (WNG). Linear mixed models and effect sizes were used to identify differences between positional groups and halves. Peak running demands were lower in the second half for STR across all three reported metrics (ES = 0.60--0.84), with peak average acceleration lower in the second half for DM, WD and WNG (ES = 0.60--0.70). Irrespective of match half, AM covered greater peak total distances than CD, STR, WD and WIN (ES = 0.60--2.08). Peak high-speed distances were greater across both halves for WIN than CD, DM and STR (ES = 0.78--1.61). Finally, STR had lower peak average acceleration than all positional groups across both halves (ES = 0.60--1.12). These results may help evaluate implemented strategies that attempt to mitigate reductions in second half running performance and inform position specific training practices. [ABSTRACT FROM AUTHOR]

Published

2023

28. Association Between Position-Specific Impact and Movement Characteristics of Professional Rugby Union Players During Game Play.

Author

Peek, Rebecca J., Carey, David L., Middleton, Kane J., Gastin, Paul B., and Clarke, Anthea C.

Subjects

RUNNING, RESEARCH methodology, PHYSICAL training & conditioning, RUGBY football, BODY movement, DESCRIPTIVE statistics, BIOMECHANICS, ATHLETIC ability

Abstract

The aim of this study was to understand the association between impact and movement characteristics during whole game and peak 1- to 10-minute rolling windows in professional rugby union. Maximal impact (impacts·min-1) and corresponding running (m·min-1) characteristics as well as maximal running (m·min-1) and corresponding impact (impacts·min-1) characteristics were obtained for 160 athletes from 4 teams across the 2018 and 2019 Super Rugby seasons. A linear mixed-effects model reported a positive association between whole-game running and impacts, where greater impact characteristics corresponded with greater running characteristics. The average 1-minute peak running characteristics (150-160 m·min-1) typically occurred when no impacts occurred. The average 1-minute peak impact characteristics (4-6 impacts·min-1) corresponded with an average relative distance of 90-100 m·min-1. Worst case scenario observed impact characteristics as large as 15 impacts·min-1 with a corresponding relative distance of 140 m·min-1. When training for peak period characteristics, running may be completed in isolation; however, peak impacts often occur in conjunction with moderate to high running movements. Given running and impact characteristics can appear concurrently within game play, this highlights the need to train them accordingly. As such, when prescribing training drills to replicate the peak characteristics in rugby union, consideration should be taken for both running and impact characteristics. [ABSTRACT FROM AUTHOR]

Published

2023

29. Peak movement and impact characteristics of different training methods in professional rugby union.

Author

Peek, Rebecca J., Carey, David L., Middleton, Kane J., Gastin, Paul B., and Clarke, Anthea C.

Subjects

TEAM sports, RUNNING, PHYSICAL training & conditioning, EXERCISE physiology, RUGBY football, BODY movement, DESCRIPTIVE statistics, EXERCISE intensity, ATHLETIC ability

Abstract

The purpose of this study was to compare the peak periods (1- to 6-minute epochs) for three different training methods (game-based training – GBT; small-sided games – SSG; and conditioning training – CT) in elite male rugby union (RU) players. The peak movement (m·min−1) and impact (impact·min−1) characteristics of 42 players during in-season training were assessed. When comparing between training methods, SSG drills produced the greatest peak movement characteristics for all time epochs (1-minute average peak periods – SSG 195 m·min−1, GBT 160 m·min−1, and CT 144 m·min−1). The peak impact characteristics performed during training were 1–2 impact·min−1 for a 1-minute period and then decreased as the time period increased for all training methods. The greatest distribution of training time occurred at 30–39% (SSG and CT) and 40–49% (GBT) of peak movement intensity, with less than 5% of training performed at or above 80% peak intensity across all drill types. Findings from the current study show that the peak movement periods (m·min−1) in RU training from all three training methods match or exceed those which are previously reported in peak gameplay, yet their ability to replicate peak impact characteristics is questionable. [ABSTRACT FROM AUTHOR]

Published

2022

30. Temporal distribution of peak running demands relative to match minutes in elite football.

Author

Thoseby, Bradley, Govus, Andrew D., Clarke, Anthea C., Middleton, Kane J., and Dascombe, Ben J.

Abstract

The peak match running demands of football (soccer) have been quantified across time durations of 1--10 min, however, little is known as to when the peak match running demands occur within match play. Data were collected from 44 elite footballers, across 68 fixtures (Files = 413, mean ± SD; 11 ± 8 observations per player, range; 1--33), with peak match running demands quantified for each playing half at ten incremental rolling average durations (1 min rolling averages, 2 min rolling averages, etc.). Data were assessed if players completed the full match. Three measures of running performance were assessed total distance (TD), highspeed distance (> 19.8 km · h-1) (HSD) and average acceleration (AveAcc)], with the in-game commencement time of the peak running demands recorded. Descriptive statistics and normality were calculated for each rolling average duration, with the self-containment of shorter rolling average epochs within longer epochs also assessed (e.g. Do the 1 min peak running demands occur within the 10 min peak running demands). Peak TD and AveAcc demands occurred early in each half (median time = 7--17 min and 6--16 min, respectively). Conversely, peak HSD covered was uniformly distributed (Skewness = 0--0.5, Kurtosis = 1.7--2.0). There were low-moderate levels of self-containment for each peak match running period (10--51%), dependent upon metric. Peak match running demands for TD and AveAcc occurred at similar stages of a match where TD and acceleration volumes are typically greatest, whereas peak HSD demands appeared more unpredictable. These timings may help inform training prescriptions in preparation of athletes for competition. [ABSTRACT FROM AUTHOR]

Published

2022

31. Between-match variation of peak match running intensities in elite football.

Author

Thoseby, Bradley, Govus, Andrew D., Clarke, Anthea C., Middleton, Kane J., and Dascombe, Ben J.

Abstract

Peak match running intensities have recently been introduced to quantify the peak running demands of football competition, across incremental time intervals, to inform training practices. However, their between-match variation is yet to be comprehensively reported, limiting the ability to determine meaningful changes in peak match running intensities. The current study aimed to quantify the between-match variability in peak match running intensities across discrete moving average durations (1--10 min). GPS data were collected from 44 elite football players across 68 matches (mean ± SD; 13 ± 10 observations per player). For inclusion players must have completed 70mins of a match across a minimum of two matches. Performance metrics included total and high-speed (> 19.8 km ⋅ h-1) running distances and average acceleration (m ⋅ s-2), expressed relative to time. For each metric, the coefficient of variation and smallest worthwhile difference were calculated. The peak match running intensity data was similar to previously reported data from various football competitions. The between-match CV of relative total distance ranged between 6.8--7.3%, with the CV for average acceleration and relative high-speed running being 5.4--5.8% and 20.6--29.8%, respectively. The greater variability observed for relative high-speed running is likely reflective of the varying constraints and contextual factors that differ between matches. The reported between-match variability helps to provide context when interpreting match performance and prescribing training drills using peak match running intensity data. [ABSTRACT FROM AUTHOR]

Published

2022

32. A kinematic analysis of the upper limb during the topspin double-handed backhand stroke in tennis.

Author

Busuttil, Nicholas A., Reid, Machar, Connolly, Molly, Dascombe, Ben J., and Middleton, Kane J.

Subjects

ELBOW physiology, ARM physiology, WRIST physiology, RESEARCH evaluation, RANGE of motion of joints, TENNIS, MOTION capture (Human mechanics), KINEMATICS, VIDEO recording, OVERUSE injuries, DISEASE risk factors

Abstract

The purpose of this study was to compare double-handed backhand kinematics of the non-dominant wrist of tennis players using either an eastern or continental grip position with the non-dominant hand. Trajectory data were captured using sixty reflective markers on sixteen sub-elite right-handed tennis players using a 12-camera VICON motion capture system (250 Hz). Participants executed double-handed backhands using two non-dominant grip positions (Eastern [E] and Continental [C]), aiming for two crosscourt zones (Deep [D] and Short [S]), totalling to four conditions (ED, CD, ES and CS). Three successful attempts from each condition were selected for analysis. The eastern grip demonstrated faster horizontal racket head velocity compared to the continental grip. However, no differences were observed in accuracy or spin rate between grips (p > 0.05). In the non-dominant upper limb, elbow flexion was smaller in the continental condition throughout the swing, whilst wrist extension and ulnar deviation was larger. Collectively, these data suggest that the continental grip may place the wrist in a position vulnerable to overuse injury. Future research into the kinetics of the double-handed backhand would help better understand the onset of ulnar-side wrist pain in tennis. [ABSTRACT FROM AUTHOR]

Published

2022

33. Techniques to derive and clean acceleration and deceleration data of athlete tracking technologies in team sports: A scoping review.

Author

Ellens, Susanne, Middleton, Kane, Gastin, Paul B., and Varley, Matthew C.

Subjects

*EVALUATION of medical care, *TEAM sports, *SYSTEMATIC reviews, *ATHLETES, *PHYSICAL fitness, *PHYSIOLOGICAL effects of acceleration, *BIOMECHANICS, *ATHLETIC ability, *TECHNOLOGY, *LITERATURE reviews

Abstract

The application of acceleration and deceleration data as a measure of an athlete's physical performance is common practice in team sports. Acceleration and deceleration are monitored with athlete tracking technologies during training and games to quantify training load, prevent injury and enhance performance. However, inconsistencies exist throughout the literature in the reported methodological procedures used to quantify acceleration and deceleration. The object of this review was to systematically map and provide a summary of the methodological procedures being used on acceleration and deceleration data obtained from athlete tracking technologies in team sports and describe the applications of the data. Systematic searches of multiple databases were undertaken. To be included, studies must have investigated full body acceleration and/or deceleration data of athlete tracking technologies. The search identified 276 eligible studies. Most studies (60%) did not provide information on how the data was derived and what sequence of steps were taken to clean the data. Acceleration and deceleration data were commonly applied to quantify and describe movement demands using effort metrics. This scoping review identified research gaps in the methodological procedures and deriving and cleaning techniques that warrant future research focussing on their effect on acceleration and deceleration data. [ABSTRACT FROM AUTHOR]

Published

2022

34. How do athletes cause ball flight path deviation in high-performance interceptive ball sports? A systematic review.

Author

Lindsay, Cody, Clark, Brad, Middleton, Kane, Crowther, Rian, and Spratford, Wayne

Subjects

ATHLETIC ability, WATER polo, CINAHL database, ATHLETES, SPORTS, COACH-athlete relationships

Abstract

Athletes alter ball flight trajectory in interceptive ball sports to change task constraints that their opponents must overcome to successfully meet the ball in flight. This systematic review identified how athletes change their techniques to alter the ball flight trajectory in high-performance interceptive sports where the ball is projected by the hand towards an opponent. Studies that reported the kinematics or ball flight characteristics of these movements were searched for using SportsDiscus, Scopus, MEDLINE and CINAHL Plus databases up to 27 April 2021. Forty-eight articles met the inclusion criteria, including 19 baseball, 12 cricket, five handball, four softball, three volleyball and five water polo studies. Extracted data were presented as ranges and descriptively analysed to report athlete sporting actions. Trajectory deviation can be caused by imparting an altered seam orientation or spin rate and axis of rotation on the ball. Athletes impart sidespin or manipulate seam orientation to cause lateral deviation while topspin and backspin are used to create vertical changes in the flight path. Adjusting the shoulder, forearm, wrist, hand and fingers of the throwing or striking arm can be used to impart an altered seam orientation or spin rate and axis of rotation on the ball. The findings of this review could assist coaches and athletes across a variety of sports to improve the ability to deviate the ball during flight. [ABSTRACT FROM AUTHOR]

Published

2022

35. Differences in accuracy and consistency in elite lawn bowlers.

Author

Birse, Samantha M., Webster, Kate E., Middleton, Kane J., and McClelland, Jodie A.

Subjects

STATISTICS, DESCRIPTIVE statistics, BOWLING, ATHLETIC ability, BIOMECHANICS

Abstract

The aim of this study was to determine whether there are differences in the accuracy and consistency of repeated lawn bowl deliveries between different bowling conditions and to describe the bias of bowls that missed the target (jack). Twenty-seven elite lawn bowl athletes were recruited to partake in the study. Participants delivered 16 bowls in four conditions: (i) forehand and (ii) backhand towards a target 23 metres away and (iii) forehand and (iv) backhand towards a target 27 metres away. The resting position of each bowl relative to the jack was described in terms of absolute displacement, width displacement and length displacement. For each participant and each condition, the average absolute displacement of deliveries was calculated as a measure of accuracy; the average width and length displacement was used to describe the bias of deliveries; and the bivariate variable error of absolute displacement was calculated as a measure of consistency. The forehand towards a target 23 metres away was significantly less accurate and consistent when compared with other conditions. There was a bias for greater width displacement of both forehand deliveries (p < 0.001). Analysing lawn bowls in this detail provides specific areas for coaching to improve lawn bowling performance. [ABSTRACT FROM AUTHOR]

Published

2022

36. Load Centralization Does Not Affect the Kinetic and Kinematic Output of Countermovement Jumps.

Author

Tredrea, Matthew S. J., Middleton, Kane J., Bourne, Matthew N., Carey, David L., Scanlan, Aaron T., and Dascombe, Ben J.

Subjects

*LEG physiology, *EXERCISE physiology, *KINEMATICS, *DYNAMICS, *BODY weight, *JUMPING, *ATHLETIC ability, *PHYSIOLOGICAL effects of acceleration

Abstract

Tredrea, MSJ, Middleton, KJ, Bourne, MN, Carey, DL, Scanlan, AT, and Dascombe, BJ. Load centralization does not affect the kinetic and kinematic output of countermovement jumps. J Strength Cond Res 36(4): 1084-1089, 2022-This study aimed to compare the kinetics, kinematics, and performance of countermovement jumps (CMJs) when completed with 2 different loading conditions (centralized or peripheral) across increasing loads. Seventeen subjects (12 men and 5 women) randomly completed 2 series of CMJs with increasing loads separated by a 30-minute rest period between conditions. Subjects were loaded with either a weighted vest (centralized) or straight barbell (peripheral). A randomized, counterbalanced crossover design was used with incremental loads of 10, 20, 30, 40, and 50% of body mass added to the vest or barbell. Measures of peak force, acceleration, velocity, and power were calculated across each subphase of the CMJs. No significant differences were observed in kinetic or kinematic variables between loading conditions. Within each condition there were significant reductions (p < 0.05) in peak concentric velocity and acceleration, as well as significant increases (p < 0.05) in peak force when the external load increased. Furthermore, braking and propulsive phase duration significantly increased (p < 0.05) and jump height significantly decreased (p < 0.05) as the external load increased. Countermovement jump performance was similar in both central and peripheral loading, whereas increasing load significantly affected jump height, force, velocity, and acceleration variables irrespective of load position. The training stimulus from an external load placed centrally or peripherally is similar regardless of where it is positioned; however, from a practical perspective, a weighted vest may provide a more mobile and safer alternative than a barbell. [ABSTRACT FROM AUTHOR]

Published

2022

37. Mechanical Differences between Men and Women during Overground Load Carriage at Self-Selected Walking Speeds.

Author

Middleton, Kane, Vickery-Howe, Danielle, Dascombe, Ben, Clarke, Anthea, Wheat, Jon, McClelland, Jodie, and Drain, Jace

Published

2022

38. Objective assessment of fast bowling delivery intensity in amateur male cricketers.

Author

Epifano, Daniel J., Ryan, Samuel, Clarke, Anthea C., and Middleton, Kane J.

Subjects

FOOT physiology, TORSO physiology, STATISTICAL power analysis, AMATEUR athletes, SCIENTIFIC observation, ANALYSIS of variance, WEARABLE technology, CRICKET (Sport), EXERCISE intensity, REPEATED measures design, DESCRIPTIVE statistics, ATHLETIC ability, BOWLING, MICROTECHNOLOGY, WARMUP

Abstract

Wearable microtechnology is effective in detecting fast deliveries in cricket, however methods to quantify delivery intensity have not been established. This study aimed to investigate the utility of wearable sensors in quantifying cricket fast bowling intensity. Fifteen sub-elite male fast bowlers performed deliveries at warm-up, match, and maximal intensities. A principal component analysis resulted in the selection of perceived exertion and seven variables of bowling exertion derived from trunk- (PlayerLoad™, trunk flexion velocity, trunk forward rotation velocity) and tibia-mounted (tibial acceleration at back foot contact, front foot contact, back foot re-contact and front foot re-contact) inertial measurement units for further analysis. Repeated measures ANOVAs were used to investigate the effect of intensity on outcome variables. Significant main effects of intensity and large effect sizes were identified for all variables (p <.05, np2 > 0.14). Measures from the match and maximal conditions were significantly larger compared with the warm-up condition (Pholm <.05). No differences were observed between the match and maximal conditions (p >.05). Inertial measurement metrics can distinguish between a warm-up effort and both match and maximal fast bowling delivery intensity. These devices provide a unique, time-efficient approach to cricket fast bowling exertion quantification. [ABSTRACT FROM AUTHOR]

Published

2022

39. Position specific peak impact and running demands of professional rugby union players during game play.

Author

Peek, Rebecca J, Middleton, Kane J, Gastin, Paul B, Carey, David L, and Clarke, Anthea C

Subjects

RUGBY football players, RUGBY Union football, GLOBAL Positioning System

Abstract

This study quantifies the maximum number of impacts and peak running demands during 1– to 10– minute rolling window periods in elite rugby union matches using a multi-team dataset (n = 2232 player-games). Maximum values for impacts (impacts·min−1) and running (m·min−1) were calculated for 161 athletes from four teams across the 2018 and 2019 Super Rugby seasons. The effect of window duration and playing position on peak impact and running demands were estimated using linear mixed effect models and prediction intervals. The peak impact and running demands for a 1-min period were 4.5 – 5.5 impacts·min−1 and 150 – 180 m·min−1, depending on playing position. While small variations in mean impact and running movements could be observed by position, the large prediction interval and individual player variation meant that there was no practically meaningful difference by position. As such, when prescribing training drills to replicate the peak demands in rugby union, impact and running movements of players can be similar, regardless of position. Using a prediction interval allows us to identify the range where the demands in a future game may fall, and are beneficial to use when also trying to prepare players for the demands of rugby union. [ABSTRACT FROM AUTHOR]

Published

2021

40. Is muscular strength a critical physical attribute for the apprehension of a simulated non-compliant suspect?

Author

Delbridge, Kent, Caldwell, Joanne, Middleton, Kane, Drain, Jace R., Hayes, Adam, Burdon, Catriona A., and Groeller, Herbert

Subjects

CONFIDENCE intervals, CRIME, MUSCLE strength, DESCRIPTIVE statistics, BIOMECHANICS, MILITARY personnel, POLICE

Abstract

This investigation determined the influence of technique and experience on arm retraction force required to apprehend a non-compliant suspect. Phase-One: Nine experienced RAAF military-police completed four apprehension simulations, peak arm retraction force was measured; i) Control(CON), ii) Pressure-Point(PP), iii) Targeted-Striking(TS) and iv) 2-Person(2Per) techniques. Phase-Two: Experienced (EXP, n = 8) or Inexperienced (INEXP, n = 22) military-police completed CON, PP and Pressure-Point + Coaching(PP + C). Strength was assessed in INEXP. EXP produced more force (178.7 N ± 25.9) than INEXP during CON, but no participant successfully apprehended the suspect. All EXP were successful with PP, arm retraction force 357 N (CI: 233.7,480.2) was lower compared to CON, but no difference was observed between PP and CON for INEXP. PP + C, 82% of INEXP were successful, force declined 138.2 N (CI: 67.8,208.5) compared to CON. All EXP required PP for successful apprehension. INEXP required PP + C for apprehension success. Muscular strength had a limited relationship with arm retraction force. Practitioner summary: For law enforcement personnel, apprehension of a suspect is a critical and physically demanding task, where success is associated with muscular strength and technique. We observed success in the apprehension of a simulated suspect by military law enforcement personnel was primarily determined by participant skill and experience and not muscular strength. [ABSTRACT FROM AUTHOR]

Published

2021

41. Not as simple as it seems: Front foot contact kinetics, muscle function and ball release speed in cricket pace bowlers.

Author

Callaghan, Samuel John, Govus, Andrew David, Lockie, Robert George, Middleton, Kane Jytte, and Nimphius, Sophia

Subjects

FOOT physiology, MUSCLE contraction, NEUROPHYSIOLOGY, MULTIPLE regression analysis, CRICKET (Sport), NEUROMUSCULAR system, DYNAMICS, PHYSIOLOGICAL effects of acceleration, MUSCLE strength, BOWLING, ATHLETIC ability, JUMPING, MOTION capture (Human mechanics), GROUND reaction forces (Biomechanics)

Abstract

This study investigated the relationship between front foot contact (FFC) ground reaction forces (GRF) during the delivery stride, lower-limb strength, eccentric dexterity and power, and ball release speed (BRS) among pace bowlers. Thirteen high-level male pace bowlers performed double and single leg drop landings; isometric mid-thigh pull; countermovement jump; and pace bowling (two-over bowling spell measuring BRS and FFC GRF). The relationship between assessed variables and BRS was determined via frequentist and Bayesian multiple linear regression. The model including peak braking force was the most probable given the data (Bayes Factor=1.713) but provided only weak evidence in comparison to the null model. The results of frequentist and Bayesian modelling were comparable with peak braking force explaining 23.3% of the variance in BRS (F(1, 11)=4.64, P=0.054). Results indicate pace bowlers with greater peak braking GRF during FFC generally elicit higher BRS. However, the weak relationship between peak braking force and BRS, and the lack of a linear relationship between BRS and other variables, highlights the complexities and inter-individual variability inherent to pace bowling at a high-level. A more individual-focused analysis revealed varied strategies within pace bowlers to deliver the outcome (e.g., BRS) and should be considered in future study designs. [ABSTRACT FROM AUTHOR]

Published

2021

42. Treadmill load carriage overestimates energy expenditure of overground load carriage.

Author

Vickery-Howe, Danielle M., Drain, Jace R., Clarke, Anthea C., Dascombe, Ben J., McWilliam, Joel T., and Middleton, Kane J.

Subjects

ENERGY metabolism, TREADMILLS

Abstract

This study compared physiological and biomechanical responses between treadmill and overground load carriage. Thirty adults completed six 10-minute walking trials across three loads (0, 20, and 40% body mass) and two surfaces (treadmill and overground). Relative oxygen consumption was significantly greater on the treadmill for 20% (1.54 ± 0.20 mL⋅kg−1⋅min−1) and 40% loads (1.08 ± 0.20 mL⋅kg−1⋅min−1). All other physiological and perceptual responses were significantly higher in the treadmill condition and with increases in load. Stance time was longer (0%: 0.05 s; 20%: 0.02 s, 40%: 0.05 s, p < 0.001) and cadence was lower (0%: 1 step·min−1; 20%: 2 steps·min−1; 40%: 3 steps·min−1, p < 0.05) on the treadmill. Peak lower limb joint angles were similar between surfaces except for ankle plantar flexion, which was 8˚ greater on the treadmill. The physiological responses to treadmill-based load carriage are generally not transferable to overground load carriage and caution must be taken when conducting treadmill-based load carriage research to inform operational-based scenarios. Practitioner Summary: Literature is limited when comparing the physiological and biomechanical responses to treadmill and overground load carriage. Using a repeated measures design, it was shown that although walking kinematics are generally similar between surfaces, there was a greater physiological demand while carrying a load on a treadmill when compared with overground. Abbreviations: BM: body mass; e.g: for example; HR: heart rate; HRmax: heart rate maximum; Hz: hertz; kg: kilograms; km·h−1: kilometres per hour; L⋅min−1: litres per minute; m: metres; MD: mean difference; mL·kg−1·min−1: millilitres per kilogram per minute; mL⋅min−1: millilitres per minute; η2p: partial-eta squared; OG: overground; RPE: rating of perceived exertion; s: seconds; SD: standard deviation; SE: standard error; steps·min−1: steps per minute; TM: treadmill; V̇CO2: volume of carbon dioxide; V̇E: ventilation; V̇O2: volume of oxygen; V̇O2max: maximum volume of oxygen; y: years [ABSTRACT FROM AUTHOR]

Published

2021

43. Can target effects or discomfort ratings discriminate between small-arms weapon configurations?

Author

Coleman, Jemma L., Morelli, Frank, McClelland, Jodie, and Middleton, Kane J.

Subjects

FIREARMS, ACQUISITION of property, MUSCLE fatigue, CONSUMER attitudes, COMPARATIVE studies, ERGONOMICS, POSTURE, DECISION making, MILITARY personnel

Abstract

Defence acquisitions use accuracy measures as a discriminating factor in weapon purchases, but assessments are generally completed in static, supported postures at static targets with few differences being seen between configurations. The aim of this study was to investigate whether an assessment requiring repositioning between shots could reveal differences. Participants shot at a static target under four conditions: an unweighted rifle and the addition of a mass fixed at three different positions. Accuracy and timing as well as discomfort measures were captured and compared. Hit percentage, consistency and timing varied over time, and timing increased with the addition of mass in two out of the three conditions. There was an increase in discomfort with the addition of mass further from the participant. The results showed that relying on accuracy and consistency measures alone to make acquisition decisions could have the consequence of purchasing equipment not fit for the human. Practitioner Summary: This research shows that relying on accuracy and consistency measures alone to make weapon–system acquisition decisions could have the consequence of purchasing equipment not fit for the user. Further research should focus on 'upstream' issues such as muscle fatigue and aim point stability in order to better understand human–weapon–system interactions. [ABSTRACT FROM AUTHOR]

Published

2021

44. Effects of Lumbar Spine Abnormality and Serve Types on Lumbar Kinematics in Elite Adolescent Tennis Players.

Author

Connolly, Molly, Middleton, Kane, Spence, Graeme, Cant, Olivia, and Reid, Machar

Subjects

LUMBAR vertebrae, SPINE abnormalities, TENNIS players, KINEMATICS, LUMBAR pain, LUMBAR vertebrae physiology, LUMBAR vertebrae abnormalities, PELVIC physiology, RANGE of motion of joints, MAGNETIC resonance imaging, SEX distribution, BODY movement, DESCRIPTIVE statistics, TENNIS, ATHLETIC ability, MOTION capture (Human mechanics), BIOMECHANICS, PELVIS

Abstract

Background: Low back pain (LBP) is pervasive among elite junior tennis players. Previous research has explored the relationship between serving mechanics and LBP, though the participants in these studies had already experienced LBP. Therefore, it is unclear whether their serving mechanics caused the LBP or are a result of having LBP. Thus, the purpose of this study was to compare the flat and kick serve kinematics of asymptomatic elite adolescent male and female tennis players with and without lumbar spine abnormalities. Twenty-four players (nine of which had confirmed lumbar spine abnormalities) carried out a series of flat and kick serves, while marker trajectories were recorded by a 3D motion capture system. Pelvis and lumbar spine kinematics (anterior/posterior tilt, lateral tilt, axial rotation and flexion/extension, lateral flexion and axial rotation respectively) were compared between players with and without lumbar spine abnormalities, genders, and serve types using a mixed-effects model. Exploratory data pertaining to the order and timing of key serve events was also collected. Results: Males had significantly greater posterior pelvis tilt than females during the drive phase of both flat (M, − 7.1 ± 5°; F, 4 ± 5.5°) and kick serves (M, − 8.6 ± 5.1°; F, 2.1 ± 5.8°). Independent of serve type, males also impacted the ball ~ 15 cm further into the court than females, while all players contacted flat serves significantly further forward (~ 17 cm). There were no effects for abnormality in the magnitude of pelvis and trunk kinematics. The order and timing of key serve events, however, did tend to differ between those with and without lumbar spine abnormalities. Players with abnormalities entered peak front knee flexion and initiated pelvis rotation earlier than players without abnormalities. Lastly, the timing of pelvis rotation was highly variable among females though not males. Conclusion: Pelvis and ball toss kinematics vary with gender and serve type but not necessarily abnormality in the elite adolescent serve. There is evidence to suggest that the order and timing of key serve events might help to identify those at risk of lumbar spine abnormalities; however, further research is needed to investigate the statistical significance of the timing of these events. [ABSTRACT FROM AUTHOR]

Published

2021

45. No physiological or biomechanical sex-by-load interactions during treadmill-based load carriage.

Author

Vickery-Howe, Danielle M., Clarke, Anthea C., Drain, Jace R., Dascombe, Ben J., and Middleton, Kane J.

Subjects

BIOMECHANICS, BODY weight, CARBON dioxide, GAIT in humans, ERGONOMICS, SEX distribution, MILITARY personnel, OXYGEN consumption, CARDIOPULMONARY fitness, WALKING speed, BODY-weight-supported treadmill training

Abstract

This study investigated whether physiological demand or gait mechanics differ between sexes during treadmill load carriage. Female (n = 15) and male (n = 15) military recruit-type participants with no load carriage experience completed three 10-minute walking trials at a self-selected speed with increasing relative body-borne loads (0%, 20%, and 40% body weight). A range of cardiorespiratory, perceptual and biomechanical variables were measured. Self-selected walking speed was similar between sexes (4.6–4.8 km·h−1, p >.05) and there were no significant sex-by-load interactions for any variables. Absolute V O2 and V CO2 were greater in males (difference 175–178 mL·min−1, p <.001), however, when relative to body mass, V O2 was similar between sexes (p >.05). Across all loads, cadence was 7 ± 2 steps·min−1 faster (p =.004) and stance time was 0.06 ± 0.02 s shorter (p =.013) in females. Increasing load resulted in greater physiological demand, cadence, % stance time, and step length (p <.05). Practitioner summary: Literature comparing physiological and biomechanical variables between sexes during load carriage is scarce. Physiological and biomechanical sex differences were limited to relative measures associated with physical size (height and mass). Future research may pool male and female participants when conducting trials up to ten minutes in length. Abbreviations: BW: body weight; COM: centre of mass; HR: heart rate; HRmax: maximum heart rate; RER: respiratory exchange ratio; RPE: rating of perceived exertion; VCO2: volume of carbon dioxide; VE: ventilation; VO2: volume of oxygen; VO2max: maximum volume of oxygen [ABSTRACT FROM AUTHOR]

Published

2020

46. Immediate effects of foot orthoses on lower limb biomechanics, pain, and confidence in individuals with patellofemoral osteoarthritis.

Author

Tan, Jade M., Middleton, Kane J., Hart, Harvi F., Menz, Hylton B., Crossley, Kay M., Munteanu, Shannon E., and Collins, Natalie J.

Subjects

*FOOT orthoses, *OSTEOARTHRITIS treatment, *PATELLOFEMORAL joint diseases, *BIOMECHANICS, *KNEE pain, *PAIN management, *DORSIFLEXION, *ANKLE, *COMPARATIVE studies, *CROSSOVER trials, *KINEMATICS, *KNEE, *KNEE diseases, *LEG, *RESEARCH methodology, *MEDICAL cooperation, *OSTEOARTHRITIS, *RESEARCH, *WALKING, *EVALUATION research, *JOINT pain, *DISEASE complications

Abstract

Background: Foot orthoses are a recommended treatment for patellofemoral (PF) pain and a number of lower limb osteoarthritic (OA) conditions. However, their mechanism of effect is poorly understood.Research Question: To compare the immediate effects of foot orthoses and flat inserts on lower limb biomechanics, knee pain and confidence in individuals with PFOA.Methods: Twenty-one participants (14 females; mean ± SD age 58 ± 8 years) with PFOA underwent three-dimensional motion analysis during level-walking, stair ascent, and stair descent under three footwear conditions: (i) their own shoes; (ii) prefabricated foot orthoses; and (iii) flat shoe inserts. Participants reported their average levels of knee pain and confidence after each task. Data were analysed with repeated-measures analysis of variance (ANOVA), effect sizes (partial eta squared), and Bonferroni post-hoc tests.Results: During level-walking, there was a significant main effect of foot orthoses on peak ankle dorsiflexion angle (F2 = 0.773, p < 0.001, ƞ2 = 0.773) and peak ankle external dorsiflexion moment (F2 = 0.356, p = 0.046, ƞ2 = 0.356). Foot orthoses decreased the peak ankle dorsiflexion angle compared to the flat insert and shoe conditions, and decreased the peak ankle external dorsiflexion moment relative to flat inserts. During stair descent, there was a significant main effect of foot orthoses on peak ankle external dorsiflexion moment (F2 = 0.823, p = 0.006, ƞ2 = 0.738), with a trend towards lower peak dorsiflexion moment for foot orthoses compared to the flat insert and shoe conditions. No significant main effects were observed during stair ascent. No other lower limb biomechanical changes were observed across all three conditions. Knee pain and confidence scores were not significantly different across the three conditions.Significance: Prefabricated foot orthoses altered sagittal plane biomechanics of the ankle during level-walking and stair descent in individuals with PFOA. Further research is required to determine whether these changes are clinically beneficial. [ABSTRACT FROM AUTHOR]

Published

2020

47. Proximal cueing to reduce elbow extension levels in suspect spin bowlers: A case study.

Author

Middleton, Kane J., Wells, Denny J. M., Foster, Daryl H., and Alderson, Jacqueline A.

Subjects

BOWLERS, ELBOW, KINEMATICS, MOTOR ability, BIOMECHANICS

Abstract

Cricket bowlers must be able to deliver the ball with less than 15° of elbow extension or face suspension. The aim of this case study was to report the findings of a technique remediation programme on the elbow joint kinematics of an international cricket bowler. The bowler underwent a three-dimensional bowling analysis to measure his elbow joint kinematics before and after a technique remediation programme. The bowler was required to bowl six deliveries of each of his off-break, quicker and doosra variations. The remediation programme focussed on modifying the bowler’s run-up, shoulder alignment and ball/hand position at back foot impact. Elbow joint waveform data were analysed using statistical parametric mapping tests and coefficient of multiple determination. Elbow flexion–extension angles at discrete events were compared pre- and post-remediation using paired-sample t-tests. Results showed that the remediation programme was effective in reducing the amount of elbow flexion, particularly in the first 60% of the delivery cycle. Elbow extension range was significantly lower post-remediation for the off-break and quicker deliveries. It was concluded that basic short-term technique remediation can be effective in reducing elbow extension range. [ABSTRACT FROM AUTHOR]

Published

2018

48. Sub-elite Football Players With Hip-Related Groin Pain and a Positive Flexion, Adduction, and Internal Rotation Test Exhibit Distinct Biomechanical Differences Compared With the Asymptomatic Side.

Author

KING, MATTHEW G., SEMCIW, ADAM I., HART, HARVI F., SCHACHE, ANTHONY G., MIDDLETON, KANE J., HEEREY, JOSH J., AGRICOLA, RINTJE, and CROSSLEY, KAY M.

Abstract

* BACKGROUND: Hip-related groin pain is common in sub-elite football players and may be associated with altered hip biomechanics. * OBJECTIVES: To compare the hip biomechanics, bony hip morphology associated with femoro-acetabular impingement (FAI) syndrome, and hip strength and range of motion (ROM) between the symptomatic and asymptomatic limbs of sub-elite football players with unilateral hip-related groin pain and a positive flexion, adduction, and internal rotation (FADIR) test. * METHODS: Fifteen sub-elite football (soccer) players with unilateral hip-related groin pain and a positive FADIR test were recruited for this observational cross-sectional study. Three-dimensional motion analysis and ground reaction force data were recorded for walking and a single-leg drop-jump (SLDJ) task. Participants also underwent a standard anterior-posterior hip radiograph and hip strength and ROM assessment. Between-limb differences were assessed using paired t tests or Wilcoxon signed-rank tests. * RESULTS: The symptomatic limb displayed a smaller peak hip extension angle (P = .01) and a lower peak hip adduction moment (P = .03) compared with the asymptomatic limb during the stance phase of walking. Additionally, during the SLDJ, the symptomatic limb demonstrated less total sagittal plane ROM (P = .04). The symptomatic limb also demonstrated less external rotation ROM (P = .03). However, no differences were found between limbs for bony hip morphology associated with FAI syndrome or hip strength. * CONCLUSION: This study found between-limb asymmetries in low- and high-impact functional tasks, such as walking and an SLDJ, in football players with unilateral hip-related groin pain. Despite unilateral pain, bony morphology associated with FAI syndrome did not differ between limbs. [ABSTRACT FROM AUTHOR]

Published

2018

49. Lower limb biomechanics in femoroacetabular impingement syndrome: a systematic review and meta-analysis.

Author

King, Matthew G., Lawrenson, Peter R., Semciw, Adam I., Middleton, Kane J., and Crossley, Kay M.

Subjects

GAIT in humans, HIP joint, RANGE of motion of joints, KINEMATICS, META-analysis, PELVIS, ROTATIONAL motion, TORQUE, SYSTEMATIC reviews, FEMORACETABULAR impingement

Abstract

Objective: (1) Identify differences in hip and pelvic biomechanics in patients with femoroacetabular impingement syndrome (FAIS) compared with controls during everyday activities (eg, walking, squatting); and (2) evaluate the effects of interventions on hip and pelvic biomechanics during everyday activities.Design: Systematic review.Data Sources: Medline, CINAHL, EMBASE, Scopus and SPORTDiscus until February 2017.Methods: Primary aim: studies that investigated hip or pelvic kinematics and/or joint torques of everyday activities in patients with FAIS compared with the asymptomatic contralateral limb or a control group. Secondary aim: studies that evaluated effects of conservative or surgical interventions on patients with FAIS using pre-post or controlled clinical trial designs. Biomechanical data must have been collected using three-dimensional motion capture devices. Reporting quality was assessed using the Epidemiological Appraisal Instrument and data were pooled (standardised mean difference (SMD), 95% CI) where populations and primary outcomes were similar.Results: Fourteen studies were included (11 cross-sectional and three pre/post intervention), varying between low and moderate reporting quality. Patients with FAIS walked with a lower: peak hip extension angle (SMD -0.40, 95% CI -0.71 to -0.09), peak internal rotation angle (-0.67, 95% CI -1.19 to -0.16) and external rotation joint torque (-0.71, 95% CI -1.07 to -0.35), and squatted to a lesser depth with no difference in hip flexion range. Pre/post intervention data were limited in number and quality, and to surgical cohorts.Conclusion: This review suggests that patients with FAIS may demonstrate hip biomechanical impairments during walking and squatting, with minimal literature available to comment on other tasks.Clinical Relevance: The information presented in the review provides insight into the biomechanical differences associated with FAIS; however, the between-group differences were small to moderate. This information may aid in the development of management strategies for people with the condition.Prosperoregistration Number: CRD42016038677. [ABSTRACT FROM AUTHOR]

Published

2018

50. The application of subjective job task analysis techniques in physically demanding occupations: evidence for the presence of self-serving bias.

Author

Lee-Bates, Benjamin, Billing, Daniel C., Caputi, Peter, Carstairs, Greg L., Linnane, Denise, and Middleton, Kane

Subjects

EMPLOYMENT, INDUSTRIAL hygiene, SURVEYS, TASK performance

Abstract

The aim of this study was to determine if perceptions of physically demanding job tasks are biased by employee demographics and employment profile characteristics including: age, sex, experience, length of tenure, rank and if they completed or supervised a task. Surveys were administered to 427 Royal Australian Navy personnel who characterised 33 tasks in terms of physical effort, importance, frequency, duration and vertical/horizontal distance travelled. Results showed no evidence of bias resulting from participant characteristics, however participants who were actively involved in both task participation and supervision rated these tasks as more important than those involved only in the supervision of that task. This may indicate self-serving bias in which participants that are more actively involved in a task had an inflated perception of that task’s importance. These results have important implications for the conduct of job task analyses, especially the use of subjective methodologies in the development of scientifically defensible physical employment standards. Practitioner Summary: To examine the presence of systematic bias in subjective job task analysis methodologies, a survey was conducted on a sample of Royal Australian Navy personnel. The relationship between job task descriptions and participant’s demographic and job profile characteristics revealed the presence of self-serving bias affecting perceptions of task importance. [ABSTRACT FROM AUTHOR]

Published

2017