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1. Validation of Automated Countermovement Vertical Jump Analysis: Markerless Pose Estimation vs. 3D Marker-Based Motion Capture System.

Author

Aleksic, Jelena, Kanevsky, Dmitry, Mesaroš, David, Knezevic, Olivera M., Cabarkapa, Dimitrije, Bozovic, Branislav, and Mirkov, Dragan M.

Abstract

This study aimed to validate the automated temporal analysis of countermovement vertical jump (CMJ) using MMPose, a markerless pose estimation framework, by comparing it with the gold-standard 3D marker-based motion capture system. Twelve participants performed five CMJ trials, which were simultaneously recorded using the marker-based system and two smartphone cameras capturing both sides of the body. Key kinematic points, including center of mass (CoM) and toe trajectories, were analyzed to determine jump phases and temporal variables. The agreement between methods was assessed using Bland–Altman analysis, root mean square error (RMSE), and Pearson's correlation coefficient (r), while consistency was evaluated via intraclass correlation coefficient (ICC 3,1) and two-way repeated-measures ANOVA. Cohen's effect size (d) quantified the practical significance of differences. Results showed strong agreement (r > 0.98) with minimal bias and narrow limits of agreement for most variables. The markerless system slightly overestimated jump height and CoM vertical velocity, but ICC values (ICC > 0.91) confirmed strong reliability. Cohen's d values were near zero, indicating trivial differences, and no variability due to recording side was observed. Overall, MMPose proved to be a reliable alternative for in-field CMJ analysis, supporting its broader application in sports and rehabilitation settings. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Agreement and Sensitivity of the Acceleration–Velocity Profile Derived via Local Positioning System.

Author

Jovanović, Mladen, Arguedas-Soley, Adriano, Cabarkapa, Dimitrije, Andersson, Håkan, Nagy, Dóra, Trunić, Nenad, Banković, Vladimir, Richárd, Répási, Safar, Sandor, and Ratgeber, Laszlo

Subjects
GLOBAL Positioning System, SPRINTING, ACCELERATION (Mechanics), TEST validity, CONFIDENCE intervals, SAMPLE size (Statistics)
Abstract

Sprint performance is commonly assessed via discrete sprint tests and analyzed through kinematic estimates modeled using a mono-exponential equation, including estimated maximal sprinting speed ( M S S ), relative acceleration ( T A U ), maximum acceleration ( M A C ), and relative propulsive maximal power ( P M A X ). The acceleration–velocity profile (AVP) provides a simple summary of short sprint performance using two parameters: MSS and MAC, which are useful for simplifying descriptions of sprint performance, comparison between athletes and groups of athletes, and estimating changes in performance over time or due to training intervention. However, discrete testing poses logistical challenges and defines an athlete's AVP exclusively from the performance achieved in an isolated testing environment. Recently, an in situ AVP (velocity–acceleration method) was proposed to estimate kinematic parameters from velocity and acceleration data obtained via global or local positioning systems (GPS/LPS) over multiple training sessions, plausibly improving the time efficiency of sprint monitoring and increasing the sample size that defines the athlete's AVP. However, the validity and sensitivity of estimates derived from the velocity–acceleration method in relation to changes in criterion scores remain elusive. To assess the concurrent validity and sensitivity of kinematic measures from the velocity–acceleration method, 31 elite youth basketball athletes (23 males and 8 females) completed two maximal effort 30 m sprint trials. Performance was simultaneously measured by a laser gun and an LPS (Kinexon), with kinematic parameters estimated using the time–velocity and velocity–acceleration methods. Agreement ( % B i a s ) between laser gun and LPS-derived estimates was within the practically significant magnitude ( ± 5%), while confidence intervals for the percentage mean absolute difference ( % M A D ) overlapped practical significance for T A U , M A C , and P M A X using the velocity–acceleration method. Only the M S S parameter showed a sensitivity ( % M D C 95 ) within practical significance (<5%), with all other parameters showing unsatisfactory sensitivity (>10%) for both the time–velocity and velocity–acceleration methods. Thus, sports practitioners may be confident in the concurrent validity and sensitivity of M S S estimates derived in situ using the velocity–acceleration method, while caution should be applied when using this method to infer an athlete's maximal acceleration capabilities. [ABSTRACT FROM AUTHOR]

Published
2024
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3. The impact of simulated 3x3 tournament on vertical jump force-time metrics in national team male basketball players.

Author

Cabarkapa, Dimitrije, Aleksic, Jelena, Krsman, Darko, Cabarkapa, Damjana V., Philipp, Nicolas M., and Fry, Andrew C.

Subjects
VERTICAL jump, BASKETBALL tournaments, SCIENTIFIC literature, BASKETBALL teams, BASKETBALL players
Abstract

With innovative portable force plate systems being widely implemented for lower-body neuromuscular performance assessment in an applied sports setting and the existing gap in the scientific literature regarding player performance during in-game competitive scenarios, the purpose of the present study was to compare changes in countermovement vertical jump (CVJ) performance pre-post a simulated 3×3 basketball tournament. Seven current or former members of a 3×3 national basketball team volunteered to participate in the present investigation. Upon completing standardized warm-up procedures, athletes stepped on a uni-axial force plate system sampling at 1,000 Hz and performed three maximal-effort CVJs with no arm swing. Then, the athletes proceeded to play a simulated 3×3 basketball tournament composed of two consecutive games, separated by a 15-min rest interval. Immediately following the completion of the second game, the identical CVJ testing procedures were repeated. Paired sample t-tests were used to examine prepost-tournament differences in nineteen CVJ performance metrics (p < 0.05). The results reveal that force-time metrics during both eccentric and concentric phases of the CVJ remain relatively unchanged pre-post simulated 3×3 basketball tournament. However, multiple force-time metrics within the eccentric phase of the CVJ changed by 12.1%-19.1% (e.g., eccentric peak power and peak velocity, eccentric duration), suggesting that the eccentric phase of CVJ might be responsive to performance stimulus to a greater extent than the concentric phase. Overall, these findings further support the importance of comprehensive CVJ analysis when intending to measure changes in neuromuscular performance. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Biological reliability of a movement analysis assessment using a markerless motion capture system.

Author

Philipp, Nicolas M., Fry, Andrew C., Mosier, Eric M., Cabarkapa, Dimitrije, Nicoll, Justin X., and Sontag, Stephanie A.

Subjects
MOTION capture (Human mechanics), HUMAN mechanics, INTRACLASS correlation, TEST reliability, STANDARDIZED tests
Abstract

Introduction: Advances in motion capture technology include markerless systems to facilitate valid data collection. Recently, the technological reliability of this technology has been reported for human movement assessments. To further understand sources of potential error, biological reliability must also be determined. The aim of this study was to determine the day-to-day reliability for a three-dimensional markerless motion capture (MMC) system to quantify 4 movement analysis composite scores, and 81 kinematic variables. Methods: Twenty-two healthy men (n = 11; ... + SD; age = 23.0 ± 2.6 years, height = 180.4.8 cm, weight = 80.4 ± 7.3 kg) and women (n = 11; age = 20.8 ± 1.1 years, height = 172.2 ± 7.4 cm, weight = 68.0 ± 7.3 kg) participated in this study. All subjects performed 4 standardized test batteries consisting of 14 different movements on four separate days. A three-dimensional MMC system (DARI Motion, Lenexa, KS) using 8 cameras surrounding the testing area was used to quantify movement characteristics. 1 x 4 RMANOVAs were used to determine significant differences across days for the composite movement analysis scores, and RM-MANOVAs were used to determine test day differences for the kinematic data (p < 0.05). Intraclass correlation coefficients (ICCs) were reported for all variables to determine test reliability. To determine biological variability, mean absolute differences from previously reported technological variability data were subtracted from the total variability data from the present study. Results: No differences were observed for any composite score (i.e., athleticism, explosiveness, quality, readiness; or any of the 81 kinematic variables. Furthermore, 84 of 85 measured variables exhibited good to excellent ICCs (0.61-0.99). When compared to previously reported technological variability data, 62.3% of item variability was due to biological variability, with 66 of 85 variables exhibiting biological variability as the primary source of error (i.e., >50% total variability). Discussion: Combined, these findings effectively add to the body of literature suggesting sufficient reliability for MMC solutions in capturing kinematic features of human movement. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Acute effects of lower limb wearable resistance on horizontal deceleration and change of direction biomechanics.

Author

Philipp, Nicolas M., Johnson, Quincy R., Cabarkapa, Dimitrije, and Fry, Andrew C.

Subjects
CENTER of mass, ACCELERATION (Mechanics), BIOMECHANICS, BODY weight, TEAM sports
Abstract

This study aimed to investigate the acute effects of lower limb wearable resistance on maximal horizontal deceleration biomechanics, across two different assessments. Twenty recreationally trained team sport athletes performed acceleration to deceleration assessments (ADA), and 5-0-5 change of direction (COD) tests across three load conditions (unloaded, 2% of BW, 4% of body weight (BW)), with load attached to the anterior and posterior thighs and shanks. Linear mixed effect models with participant ID as the random effect, and load condition as the fixed effect were used to study load-specific biomechanical differences in deceleration mechanics across both tests. Primary study findings indicate that for the ADA, in the 4% BW condition, participants exhibited significantly greater degrees of Avg Approach Momentum, as well as significant reductions in deceleration phase center of mass (COM) drop, and Avg Brake Step ground contact deceleration (GCD) in both the 2% BW, and 4% BW condition, compared to the unloaded condition. In the 5-0-5 tests, participants experienced significant reductions in Avg Approach Velocity, Avg deceleration (DEC), and Stopping Time in the 4% BW condition compared to the unloaded condition. Similar to the ADA test, participants also experienced significant reductions in Avg Brake Step GCD in both the 2% BW and 4% BW conditions, and significant increases in Avg Approach Momentum in the 4% BW condition, compared to the unloaded condition. Therefore, findings suggest that based on the test, and metric of interest, the addition of lower limb wearable resistance led to acute differences in maximal horizontal deceleration biomechanics. However, future investigations are warranted to further explore if the use of lower limb wearable resistance could present as an effective training tool in enhancing athlete's horizontal deceleration and change of direction performance. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Relationship between sleep quality and quantity and lower-body neuromuscular performance characteristics in semi-professional male basketball players.

Author

Cabarkapa, Damjana V., Cabarkapa, Dimitrije, and Fry, Andrew C.

Subjects
SLEEP duration, SLEEP quality, SLEEP hygiene, HYGIENE, BASKETBALL players, VERTICAL jump, PEARSON correlation (Statistics)
Abstract

Sleep has been recognized as one of the most essential recovery methods necessary for achieving optimal performance. However, there is still a lack of scientific literature focused on examining its impact on one of the most prevalent skills in the game of basketball, the countermovement vertical jump (CVJ). Therefore, the purpose of the present study was to examine the relationship between sleep quality and quantity, and lower-body neuromuscular performance characteristics within a cohort of semiprofessional male basketball players. Twenty-eight athletes competing in a first-tier regional league in Serbia volunteered to participate in this investigation. Upon arrival at the gym, all athletes completed the Pittsburgh Sleep Quality Index (PSQI) self-rated questionnaire. Immediately after completion of the PSQI, each athlete stepped on a force plate system and performed three maximum-effort CVJs with no arm swing. The following force-time metrics were obtained for the analysis: eccentric and concentric absolute and relative mean and peak force and power, vertical jump height, and reactive strength index-modified. Pearson product-moment correlation coefficients were used to examine the strength of the linear relationships between sleep quality and quantity and lower-body neuromuscular performance characteristics (p < 0.05). The results indicated that sleep quality appears to have a greater impact on the concentric than the eccentric phase of the CVJ (e.g., concentric mean force [r = -0.830; p < 0.001], relative concentric peak force [r = -0.466; p = 0.013, eccentric mean power (r = -0.162; p = 0.409)], while no significant relationship was found between sleep quantity and lower-body neuromuscular performance (e.g., concentric peak force [r = -0.055; p = 0.782], relative eccentric mean power [r = -0.301; p = 0.107]). Overall, these findings offer valuable insights into the importance of good sleep hygiene (e.g., efficiency, duration) in an athletic population, and can help practitioners develop more effective training and recovery programs. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Does the short-term learning effect impact vertical jump performance assessment on a portable force plate system?

Author

Cabarkapa, Damjana V., Cabarkapa, Dimitrije, Aleksic, Jelena, Ranisavljev, Igor, and Fry, Andrew C.

Subjects
VERTICAL jump, ENCOURAGEMENT, PLYOMETRICS, MULTIVARIATE analysis
Abstract

One of the reoccurring questions that arises during the countermovement vertical jump (CVJ) assessment is whether the learning effect has an impact on the accuracy of the results obtained. Thus, the purpose of the present investigation was to examine the impact of the short-term learning effect on the assessment of lower-body neuromuscular performance characteristics when performed on a portable one-dimensional force plate system. Sixteen recreationally active college-age males volunteered to participate in the present study. Each participant completed four sets of three non-consecutive CVJs with no arm swing throughout a single day. Besides strong verbal encouragement, participants were constantly instructed to focus on pushing the ground as explosively as possible. Fourteen force-time metrics were selected for CVJ performance analysis purposes: eccentric and concentric peak and mean force and power, eccentric and concentric duration, contraction time, jump height, reactive strength index-modified, and countermovement depth. Repeated measures multivariate analysis of variance was used to examine statistically significant differences across four testing time points (p < 0.05). The results indicate an absence of any meaningful differences across four testing time points in force-time metrics of interest during both eccentric and concentric phases of the CVJ. Moreover, no differences were observed in CVJ outcome metrics such as countermovement depth, suggesting that the movement strategy tends to remain consistent. Overall, these findings reveal that CVJ test repeatability is not affected by the short-term learning effect and that data are stable at least within the scope of this study and within this population. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Between-rater reliability for using radar technology to quantify maximal horizontal deceleration performance in NCAA division 1 American football and female lacrosse athletes.

Author

Philipp, Nicolas M., McKay, Ben, Martin, Ethan, Cabarkapa, Dimitrije, Fry, Andrew C., and Troester, Jordan

Subjects
BASKETBALL players, NCAA Basketball Tournament, RADAR, ATHLETIC ability, CONFIDENCE intervals
Abstract

Introduction: With recent increases in the popularity of studying the physical construct of horizontal deceleration performance in team-sport athletes, the aim of the present study was to assess the inter-rater and intra-rater reliability of processing and quantifying horizontal deceleration ability using radar technology. Methods: Data from 92 NCAA Division 1 athletes from two different athletic teams (American football and Lacrosse) were used for the present investigation. All athletes performed two trials of the modified acceleration to deceleration assessment (ADA), which consisted of a maximal 10 m sprint acceleration, followed by a rapid deceleration. Four individual raters manually processed raw, radar-derived instantaneous velocity data for the ADA, and an automated script was used to calculate metrics of interest. Results: Primary study findings suggest moderate to excellent levels of agreement (ICC = 0.56-0.91) for maximal horizontal deceleration metrics between the four individual raters. The intra-rater analyses revealed poor to excellent consistency (ICC = 0.31-0.94) between ADA trials, with CV%'s ranging from 3.1% to 13.2%, depending on the respective metric and rater. Discussion: Our data suggests that if a foundational understanding and agreement of manual data processing procedures for radar-derived data is given between raters, metrics may be interpreted with moderate to excellent levels of confidence. However, when possible, and when using the Stalker ATS radar technology, authors recommend that practitioners use one trained individual to manually process raw data. Ideally, this process should become fully automated, based on selected filters or algorithms, rather than the subjectivity of the rater. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Differences in anthropometric and vertical jump force-time characteristics between U16 and U18 female basketball players.

Author

Cabarkapa, Dimitrije, Cabarkapa, Damjana V., Nagy, Dora, Szabo, Kenza, Balogh, Laszlo, Safar, Sandor, and Ratgeber, Laszlo

Subjects
WOMEN basketball players, VERTICAL jump, BODY mass index, BODY composition, MANN Whitney U Test
Abstract

Considering the importance of body composition and lower-body strength and power for basketball players' on-court performance, as well as a lack of sports science research focused on female athletes, the purpose of the present investigation was to record the anthropometric and countermovement vertical jump (CMJ) characteristics of top-tier U16 and U18 female basketball players and examine between-group differences in the aforementioned tests. Thirty-two athletes who were a part of the national basketball academy volunteered to participate in the present investigation. Following the body composition assessment conducted via a segmental multifrequency bioimpedance analyzer, athletes performed three CMJs while standing on a force plate system sampling at 1000 Hz. Independent t-test and Mann-Whitney U-test were used to examine between-group differences. The findings reveal significant differences in body composition and lower-body neuromuscular performance characteristics between female basketball players ages 16 and 18. Although no differences were observed in muscle and body fat percentages, the U18 group had significantly greater height, overall body mass (both muscle and fat mass), as well as greater segmental fat-free mass (trunk, both legs and arms), intracellular and extracellular water, and body mass index when compared to their U16 counterparts. On the other hand, the U18 group demonstrated longer eccentric, concentric, and braking phase duration, as well as overall contraction time when compared to the U16 players. In addition, the U18 athletes exhibited higher eccentric mean force and power, concentric impulse, peak power, and mean and peak force. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Changes in Countermovement Vertical Jump Force-Time Metrics During a Game in Professional Male Basketball Players.

Author

Cabarkapa, Dimitrije, Johnson, Quincy R., Cabarkapa, Damjana V., Philipp, Nicolas M., Eserhaut, Drake A., and Fry, Andrew C.

Subjects
*BIOMECHANICS, *VOLUNTEER service, *MALE athletes, *NEUROPHYSIOLOGY, *FATIGUE (Physiology), *NEUROMUSCULAR system, *PROFESSIONAL athletes, *DESCRIPTIVE statistics, *ATHLETIC ability, *JUMPING, *BASKETBALL, *COMPARATIVE studies, *PSYCHOSOCIAL factors
Abstract

As technology within elite basketball advances and is more available to sporting organizations, novel approaches for assessing and addressing athletic performance during practice or competition are being continuously explored. The aim of this investigation was to examine changes in neuromuscular performance during live basketball play. Eight professional male basketball players volunteered to participate in this study. The testing procedures were conducted during a pre-tournament camp over a span of 2 days. During the first day, the athletes were familiarized with the testing procedures, and baseline measurements were obtained. Using a uniaxial force plate system sampling at 1,000 Hz, each athlete performed 3 countermovement vertical jumps (CVJ) without an arm swing before proceeding with their regular training activities. During the second day of the pre-tournament camp, the athletes repeated identical CVJ testing procedures before the start of the first quarter and post-first, second, third, and fourth quarter of a simulated 5- on-5 basketball game. Repeated-measures testing design was used to examine statistically significant differences in various forcetime metrics of interest in comparison to the baseline levels (p, 0.05). Besides a trivial decrease in eccentric mean force, the findings of this study revealed no statistically significant changes in any force-time metrics of interest within both eccentric and concentric phases of the CVJ (i.e., mean and peak force and power, jump height, impulse, velocity, and contraction time). Thus, we can conclude that these variables were not sensitive to acute fatigue, suggesting that the neuromuscular performances of professional male basketball players tend to remain unchanged throughout a 5-on-5 simulated game. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Relationship between vertical jump performance and playing time and efficiency in professional male basketball players.

Author

Cabarkapa, Dimitrije, Cabarkapa, Damjana V., Aleksic, Jelena, Scott, Angeleau A., and Fry, Andrew C.

Subjects
VERTICAL jump, BASKETBALL players, BODY mass index, BASKETBALL coaches, STATISTICAL correlation
Abstract

With innovative force plate technology being available to many sports organizations worldwide that allow for time-efficient in-depth neuromuscular performance assessment, the purpose of the present study was to examine the relationship between some of the most commonly analyzed countermovement vertical jump (CVJ) force-time metrics and basketball playing time and efficiency. Twenty-four professional male basketball players volunteered to participate in the present study. The CVJ testing procedures were conducted within the first quarter of the competitive season span. Following a standardized warm-up protocol, each athlete stepped on a dual uni-axial force plate system sampling at 1,000 Hz and performed three maximum-effort CVJs with no arm swing. To minimize the possible influence of fatigue, each jump trial was separated by a 10–15 s rest interval and the average value across three jumps was used for performance analysis purposes. Basketball playing efficiency and average playing time were obtained at the end of the regular season competitive period from the coaching staff records and the official team records. Pearson product-moment correlation coefficients (r) were used to examine the strength of the relationships between force-time metrics and basketball playing time and efficiency, separately for each dependent variable (p < 0.05). A significant positive association was observed between playing efficiency and eccentric mean force and eccentric mean and peak power (r = 0.406–0.552). Similarly, an increase in eccentric mean power was positively correlated with the number of minutes played during the competitive season (r = 0.464). Moreover, the aforementioned relationship remained present even when eccentric mean power was expressed relative to the player’s body mass (r = 0.406). Thus, the findings of the present study indicate that, at the professional level of men’s basketball competition, CVJ eccentric strength and power have a positive impact on both playing time and efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Strength and Power Thresholds to Identify High and Low Linear Sprint Speed Performers in Collegiate American Football Players.

Author

Philipp, Nicolas M., Crawford, Derek A., Cabarkapa, Dimitrije, and Fry, Andrew C.

Subjects
EXERCISE physiology, HUMAN body, MUSCLE strength, FOOTBALL, ATHLETIC ability, LOGISTIC regression analysis, RECEIVER operating characteristic curves, SPRINTING, GROUP process
Abstract

Lower-body strength and power are commonly measured performance qualities across a number of sports. In recent years, more attention has been given to relationships, primarily between lower-body strength and linear speed performance. While still limited, evidence is in agreement that lower-body strength positively contributes to linear speed performance. However, what is less well understood is if there comes a point in an athlete's development, at which, further working on increasing maximal strength may not fully compliment additional gains in speed performance. Within this study, authors aimed to provide practitioners with lower-body strength and power thresholds that can discriminate between slow and fast performers, within a group of collegiate American football players. The sample was further divided into a high-body and low-body weight group, and authors hypothesized that by using logistic regression, supplemented with receiver operator curve analyses, optimal cut-off points (i.e., relative lower-body strength thresholds) that are able to significantly discriminate between slow and fast linear speed performers may be identified. Findings indicate that optimal cut-off scores differed between the groups of athletes, as well as the lower body strength and power tests. All models were able to significantly distinguish between slower and faster performers, and area under the curve values ranged from 0.695 to 0.903. Although thresholds will likely vary based on factors such as sex, training age, and sport, findings from this investigation may be used to benchmark athletes and to further individualize training aimed at improving linear speed performance. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Relationship between internal and external load metrics in professional male basketball players

Author

Cabarkapa, Damjana V., Cabarkapa, Dimitrije, Eserhaut, Drake A., Fry, Andrew C., Cabarkapa, Damjana V., Cabarkapa, Dimitrije, Eserhaut, Drake A., and Fry, Andrew C.

Abstract

Quantifying both external and internal training loads that athletes are exposed to during training sessions is often recommended to assess multifactorial sport-specific demands. Thus, the purpose of the present study was to determine the relationship between a widely used subjective marker of internal load (rate of perceived exertion - RPE) and external load variables obtained from an innovative inertial measurement unit (IMU) device within a cohort of professional male basketball players. Twenty-one athletes competing in the first- and second-tier national basketball leagues in Europe wore an IMU device (i.e., VertTM) during their regular practice session and reported an RPE score (Borg CR-10 scale) immediately post-practice. The findings of this study reveal the presence of a strong significant relationship (r = 0.714) between Stress and RPE. However, weak non-significant relationships (r = 0.198-0.287) were observed between RPE and all jump-related metrics (Jumps, Jumps 15+, Jumps 20+, Average Jump Height) as well as Active Minutes (r = 0.330), indicating that an increase in internal load is more dependent on the type of activity that players perform rather than the duration of the practice session. Overall, these findings may help sports scientists and strength and conditioning practitioners detect changes in training load throughout a competitive season in male basketball players and ultimately improve the acute and chronic training-adaptation monitoring process.

Published
2023

42. Effect of sprint approach velocity and distance on deceleration performance in NCAA Division I female softball athletes

Author

Philipp, Nicolas M., Blackburn, Stryder D., Cabarkapa, Dimitrije, Fry, Andrew C., Philipp, Nicolas M., Blackburn, Stryder D., Cabarkapa, Dimitrije, and Fry, Andrew C.

Abstract

Team sports require athletes to rapidly reduce whole body momentum and velocity, to efficiently change direction, or to avoid defenders. Decelerations often occur following varying approach distances and velocities. The aim of this study was to investigate the effects of different sprinting approach distances, and therefore velocities and momenta on measures of horizontal deceleration performance within female NCAA Division I softball players. Athletes performed an acceleration:deceleration assessment (ADA) over 20 yards (18.29 m) (ADA20) and 10 yards (9.14 m) (ADA10), respectively. The sample was divided into high and low performance groups for approach velocity and approach momentum, and between-group differences were studied for each test. Correlations between measures of deceleration were analysed between the ADA10 and ADA20. Results suggested that during the ADA20 trials, athletes initiated the deceleration phase at greater approach velocities (p < .001, ES = 2.71) and momenta (p < .001, ES = 2.65), generating greater reductions in velocity (p < .001, ES = 1.60) and momentum (p < .001, ES = 1.50). Within the ADA10, athletes within the high velocity group saw significantly greater reductions in velocity (p = .009, ES = 1.24). This was not observed within the ADA20. A significant negative association was found between average deceleration within the ADA10 and ADA20 (r = -0.443, p = .039). Findings suggest that horizontal decelerations are influenced by the approach distance, velocity, and momentum, which athletes are exposed to before initiating the deceleration phase. This should be accounted for when implementing training to enhance such qualities.

Published
2023

43. The home-court advantage in NCAA Division-I men’s basketball

Author

Cabarkapa, Dimitrije, Deane, Michael A., Ciccone, Anthony B., Jones, Grant T., Cabarkapa, Damjana V., Fry, Andrew C., Cabarkapa, Dimitrije, Deane, Michael A., Ciccone, Anthony B., Jones, Grant T., Cabarkapa, Damjana V., and Fry, Andrew C.

Abstract

The purpose of the present study was to examine the differences in game-related statistics between home and away games at the NCAA Division-I level of men’s basketball competition. The data scraping technique was used to obtain publicly available box scores during the 2018-19 competitive season. Throughout this period, 2181 home and 2205 away box scores were randomly selected across 353 teams, regardless of the winning or losing game outcome. The findings of the present study revealed that the game-related statistics influenced by the game location, listed in descending order of magnitude, were: assists (AS), personal fouls (PF), field-goal percentage (FG%), free-throw attempts (FTA), blocks (BL), defensive rebounds (DRB), turnovers (TO), steals (ST), and three-point shooting percentage (3P%). During home games, the teams tended to display better decision-making processes (i.e., more AS and ST, and less TO), defensive performance (i.e., more DRB and BL), shooting efficiency (i.e., greater FT% and 3P%), and minimize tactical errors (i.e., less PF and more FTA). Overall, these findings suggest that playing on a home-court provides a significant advantage in securing the desired game outcome and provides insight into what game-related statistics contribute most to this effect.

Published
2023

46. Recovery Methods in Basketball: A Systematic Review.

Author

Mihajlovic, Mladen, Cabarkapa, Dimitrije, Cabarkapa, Damjana V., Philipp, Nicolas M., and Fry, Andrew C.

Subjects
COMPRESSION garments, BASKETBALL players, FATIGUE (Physiology), PSYCHOLOGICAL techniques, BASKETBALL, SPORTS nutrition
Abstract

Although different strategies have been implemented to manage recovery-fatigue status in athletes, there is still a lack of consensus on which recovery protocols have the greatest impact and effectiveness when implemented with basketball players, including both physiological and psychological recovery methods. Thus, the purpose of this systematic review is to: (a) determine which recovery methods attain the greatest benefit in restoring the process of attenuating fatigue and (b) provide sports practitioners with guidelines on how some of the most effective recovery strategies can be used to optimize athletes' recovery and ultimately enhance their performance. Using the PRISMA guidelines, a total of 3931 research reports were obtained through four database searches (i.e., PubMed, Scopus, Cochrane, and Web of Science), from which only 25 met the inclusion and exclusion criteria. The recovery protocols analyzed in this systematic review were: sleep, nutrition, hydration, ergogenic aids, cold-water immersion, compression garments, massage, acupuncture, tapering, mindfulness, and red-light irradiation. The results revealed that all recovery strategies are capable of attenuating fatigue and enhancing recovery in basketball players to a certain degree. However, an individualized approach should be promoted, where a combination of proactive recovery modalities appears to result in the most rapid rates of recovery and athletes' ability to maintain high-level performance. Recovery should be programmed as an integral component of training regimens. Also, cooperation and communication between coaches, players, and the rest of the team staff members are essential in minimizing the risk of non-functional overreaching or injury and optimizing basketball players' on-court performance. [ABSTRACT FROM AUTHOR]

Published
2023
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47. TRADITIONAL ISOMETRIC MID-THIGH PULL SYSTEM VS. PORTABLE DUAL-HANDLE DEVICE: A COMPARATIVE ANALYSIS.

Author

Eserhaut, Drake A., Cabarkapa, Dimitrije, Philipp, Nicolas M., and Fry, Andrew C.

Subjects
ISOMETRIC exercise, PHYSICAL fitness, PHYSICAL activity, SPORTS teams, RESISTANCE training
Abstract

The isometric mid-thigh pull test permits the collection of multiple metrics related to athletic performance, such as peak force (PF), time to peak force (TTPF), and force at specific time points (e.g., 100, 150, 200 ms). However, practitioners are often constrained to a weight room setting due to the stationary nature of squat racks, making field-based athlete testing difficult. The purpose of this study was to compare force-time variables collected during a maximal effort isometric mid-thigh pull performed within a custom-built squat rack and barbell-based system (IMTP) to an isometric pull performed on a dual-handle portable device (DHP). A commercially available force platform (Sparta Science, Menlo Park, CA, USA) which samples at a rate of 1,000Hz was utilized in both conditions. Twenty recreationally active individuals with ≥2 years (Mean±SD; 7.1±2.3 yrs) of resistance training experience participated in the present study. Following a standardized warm-up participants performed three maximal effort isometric tests on both the IMTP and DHP, in a randomized counterbalanced manner. A large correlation was observed for PF (r=0.844, p<0.001), with no significant difference between systems (IMTP = 2107.9 ± 509.8, DHP = 2005.2 ± 543.7 N). However, PF values showed 5% systematic error for DHP. In addition, Force at 250 ms significantly differed (IMTP = 1474.8 ± 418.8, DHP = 1220.2 ± 380.6 N, p=0.003). Lastly, TTPF varied between systems (IMTP = 2.2 ± 1.2, DHP = 2.9 ± 0.9 s, p=0.012) and was not significantly correlated (r=0.343). Isometric strength testing using DHP appears to be a near valid method for the assessment of maximal effort isometric strength. Kinetic measures from portable rigs should be interpreted with caution when compared to IMTP. [ABSTRACT FROM AUTHOR]

Published
2023

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