Your search keyword '"force platform"' showing total 5,669 results

1. Unrestrained Versus Vertically Restrained Loaded Countermovement Jumps: Are There Any Differences in the Components of Force Application?

Author

Gutiérrez-Dávila, Marcos, Marcos-Frutos, Daniel, Gutiérrez-Cruz, Carmen, and García-Ramos, Amador

Subjects

BIOMECHANICS, DATA analysis, STATISTICAL significance, DESCRIPTIVE statistics, MUSCLE strength, RESISTANCE training, CROSSOVER trials, ANALYSIS of variance, STATISTICS, JUMPING, WEIGHT lifting, ATHLETIC ability, DATA analysis software

Abstract

The objective of this study was to compare a number of variables derived from the vertical and horizontal force components between loaded countermovement jumps performed in a Smith machine (SM modality; vertically restrained jumps) and with free weights (FW modality; unrestrained jumps). Twenty-three recreationally trained individuals, 6 women and 17 men, performed on a 3D force platform 5 maximal countermovement jump trials against 3 external loads (30%, 50%, and 70% of the SM 1-repetition maximum) using the SM and FW jumping modalities on separate sessions. The SM modality promoted greater values for virtually all the variables derived from the vertical force component (maximal force, maximal and minimum velocity, and impulse) and also shorter durations of the braking and propulsive phases. Regardless of the countermovement jump phase (braking or propulsive), the impulse directed toward the backward direction was always considerably greater for the SM compared with the FW modality. These results evidence that for recreationally trained individuals, the SM modality could be more effective to increase the general force capacity of the leg muscles due to increased external stability, while the FW modality is preferable when the orientation of force application is a crucial consideration, as it reduces the horizontal force component. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparison of Selected Biomechanical and Physiological Variables Among Novice and Experienced University Basketball Athletes

Author

Thakral, Ridham, Pramanik, Anilendu, Kumar, Harish, Chakrabarti, Amaresh, Series Editor, Singh, Ajita D., editor, Iqbal, Rauf, editor, and Khanzode, Vivek, editor

Published

2025

3. A comparison of protocols for measuring forces during landing on competition mats in gymnastics.

Author

Buxton, Emma L, Hiley, Michael J, and Yeadon, Maurice R

Subjects

GYMNASTS, MICROBIAL mats, CONTESTS, KINEMATICS, VELOCITY

Abstract

During apparatus dismounts gymnasts land from up to 4 m above the landing surface. The gymnast needs to withstand high impact forces and the use of landing mats allows gymnasts to attenuate the forces with their landing strategy and interaction with the landing mats. Competition landings from various gymnastics apparatus involve the use of a 200 mm thick landing mat, with an additional 100 mm thick mat placed on top. The purpose of this research was to investigate the experimental protocols for measuring forces using force platforms during landings on competition mats. Three experimental protocols were compared, each of which used a force platform underneath landing mats in various set-ups. In Protocol 1 the mats were placed directly onto the force platform; in Protocol 2 the mats were placed on an enlarged raised extension; in Protocol 3 smaller mats were used with the extension. Differences between the vertical landing velocities calculated from kinematic data and from force platform data were used to assess how much impulse was transferred to the force platform in each of the protocols. Protocol 3 was the preferred method for collecting landing forces and resulted in a mean percentage velocity absolute difference of less than 2% for both one-mat and two-mat conditions. This study demonstrates the importance of keeping the landing mats clear of the force platform surroundings during the whole of the landing phase. [ABSTRACT FROM AUTHOR]

Published

2024

4. Standing balance test for fall prediction in older adults: a 6-month longitudinal study.

Author

de Abreu, Daniela Cristina Carvalho, Bandeira, Anne Caroline Lima, Magnani, Paola Errera, de Oliveira Grigoletto, Douglas Augusto, de Faria Junior, José Roberto, Teixeira, Vitor Roberto Sanchez, Fuentes, Victoria Message, and de Matos Brunelli Braghin, Roberta

Subjects

EQUILIBRIUM testing, OLDER people, LONGITUDINAL method, LOGISTIC regression analysis, ANALYSIS of variance

Abstract

Background: A core component of older adult health care assessment includes identifying fall risk, which also includes identifying those with subtle balance deficits. Objective: To compare body displacement of the Center of Pressure (CoP) and time held during the balance test. Also, to examine whether balance tests at baseline can predict falls after 6 months. Methods: A longitudinal study with 153 community-dwelling older adults, between 60–89 years old. Anteroposterior (AP) and mediolateral (ML) amplitude and velocity CoP displacements were assessed in four upright positions using a force platform: double-leg, semi-tandem, tandem, and single-leg stances, with a maximum duration of 30 s each. Adjusted repeated measures ANOVA were used to compare the differences among the balance positions. Comparisons between males and females were also conducted. Logistic regression adjusted for confounders was performed to verify whether upright balance tests can predict future falls. Results: As the base of support narrows, body sway increases. A decrease in stance time was observed across the balance stages, i.e., double-leg/semi-tandem versus tandem versus single-leg stances. The mean duration held in the single-leg stance was 14.8 s and for tandem was 22.2 s. Similar stance durations were observed for double-leg and semi-tandem stances. Males were able to maintain balance positions longer than females even with greater CoP displacement. ML amplitude of CoP displacement and the time held during tandem and single-leg positions were able to predict falls after 6 months (p < 0.05). Conclusion: In clinical practice in which only stance time is recorded, it is possible to interchangeably use the double-leg or semi-tandem stance. To identify early signs of imbalance, we suggest setting a time limit for the balance test equal to or greater than 23 s, as 10 s appear to be insufficient to detect subtle balance deficits. The time maintenance on tandem and single-leg positions was able to predict future falls. [ABSTRACT FROM AUTHOR]

Published

2024

5. Inter-limb differences in unilateral countermovement jump height are not associated with the inter-limb differences in bilateral countermovement jump force production.

Author

Miras-Moreno, Sergio, Pérez-Castilla, Alejandro, Rojas, F. Javier, Janicijevic, Danica, De la Cruz, Juan Carlos, Cepero, Mar, and García-Ramos, Amador

Subjects

*LEG physiology, *BIOMECHANICS, *STATISTICAL correlation, *SELF-evaluation, *RESEARCH funding, *LEG length inequality, *DESCRIPTIVE statistics, *RESEARCH, *STATISTICS, *JUMPING, *BODY movement, *CEREBRAL dominance

Abstract

This study aimed to explore the relationship between the inter-limb differences in unilateral countermovement (CMJ) height and the inter-limb differences in bilateral CMJ force production, and to elucidate whether the self-reported preferred leg contributes more to force production than the non-preferred leg. Twenty-three senior basketball players performed in a single session eight unilateral CMJs (four with each leg) and four bilateral CMJs. Impulse, peak force, mean force were recorded during the bilateral CMJ, and jump height during the unilateral CMJ. Small correlations were observed between the inter-limb differences in unilateral CMJ height and the inter-limb asymmetries in bilateral CMJ impulse, peak force, and mean force (p ≥ 0.171; r≤-0.142). The self-reported preferred leg revealed a higher performance in 7 out of 23 participants (Kappa = −0.20) for the unilateral CMJ height, 7 out of 23 participants (Kappa = −0.11) for the bilateral CMJ impulse, 6 out of 23 participants (Kappa = −0.36) for the bilateral CMJ peak force, and 8 out of 23 participants (Kappa = −0.34) for the bilateral CMJ mean force. These results highlight that the asymmetries detected during bilateral CMJs cannot be extrapolated to unilateral CMJs, and that the preferred leg generally contributes less to force production than the non-preferred leg during both bilateral and unilateral CMJs. [ABSTRACT FROM AUTHOR]

Published

2024

6. Standing balance test for fall prediction in older adults: a 6-month longitudinal study

Author

Daniela Cristina Carvalho de Abreu, Anne Caroline Lima Bandeira, Paola Errera Magnani, Douglas Augusto de Oliveira Grigoletto, José Roberto de Faria Junior, Vitor Roberto Sanchez Teixeira, Victoria Message Fuentes, and Roberta de Matos Brunelli Braghin

Subjects

Aging, Body sway, Center of pressure, Force platform, Sex difference, Geriatrics, RC952-954.6

Abstract

Abstract Background A core component of older adult health care assessment includes identifying fall risk, which also includes identifying those with subtle balance deficits. Objective To compare body displacement of the Center of Pressure (CoP) and time held during the balance test. Also, to examine whether balance tests at baseline can predict falls after 6 months. Methods A longitudinal study with 153 community-dwelling older adults, between 60–89 years old. Anteroposterior (AP) and mediolateral (ML) amplitude and velocity CoP displacements were assessed in four upright positions using a force platform: double-leg, semi-tandem, tandem, and single-leg stances, with a maximum duration of 30 s each. Adjusted repeated measures ANOVA were used to compare the differences among the balance positions. Comparisons between males and females were also conducted. Logistic regression adjusted for confounders was performed to verify whether upright balance tests can predict future falls. Results As the base of support narrows, body sway increases. A decrease in stance time was observed across the balance stages, i.e., double-leg/semi-tandem versus tandem versus single-leg stances. The mean duration held in the single-leg stance was 14.8 s and for tandem was 22.2 s. Similar stance durations were observed for double-leg and semi-tandem stances. Males were able to maintain balance positions longer than females even with greater CoP displacement. ML amplitude of CoP displacement and the time held during tandem and single-leg positions were able to predict falls after 6 months (p

Published

2024

7. Acute effect of Dynamic Tape™ application to the gluteus medius muscle on lower limb kinetics in healthy women: A randomized controlled clinical trial.

Author

Thomazinho, Rafaela G., Coelho, Ana C.M., Teruyu, Ana I., Silva, Grazielle C.G., Valadão, Victória M.A., and Lobato, Daniel F.M.

Abstract

Dynamic tape™ (DT) is a biomechanical tape used to manage load directly, modify movement patterns, and assist functioning. Despite its increasing use in clinical practice, few studies have evaluated its effectiveness in improving postural stability, balance, and lower limb kinetics during jump landing tasks. This study aimed to investigate the acute effect of applying DT to the gluteus medius (GM) muscle on balance strategies during squatting, as well as on jump landing kinetics in asymptomatic active women. A randomized controlled clinical trial was performed with 32 healthy and recreationally active women randomly assigned to three groups: 1) submitted to the DT application in active form on the GM (BG; n = 9); 2) submitted to the DT application in placebo form on the GM (PG; n = 12), and 3) not submitted to any form of intervention (CG; n = 11). Center of pressure data was assessed using a force platform during the single-leg squat (SLS), and jump landing kinetics was assessed using the same platform during the drop landing (DL) and anterior jump (AJ) tasks under two conditions (with and without DT application). There was no significant effect of group or time factors, and no significant group × time interaction for any stabilometric outcome measure during the SLS and for any kinetic outcome measure during the DL and AJ (P > 0.05). DT functionally applied to the GM muscle had no acute effects on balance conditions and jump landing kinetics in asymptomatic active women. [ABSTRACT FROM AUTHOR]

Published

2025

8. Test-Retest and Inter-Rater Reliability for Selected Outcomes from a Wearable 3D Inertial Sensor Over Different Stable and Unstable Postural Conditions: A Validation Study.

Author

D’Emanuele, Samuel, Nardello, Francesca, Garau, Fabrizio, Campaci, Diego, Schena, Federico, and Tarperi, Cantor

Subjects

*MEASUREMENT errors, *STATISTICAL reliability, *INTRACLASS correlation, *UNITS of measurement, *WEARABLE technology

Abstract

The agreement between a wearable inertial sensor (GYKO, G) and the force platform (P) was assessed by evaluating test-retest and inter-rater reliability. Thirty-eight subjects were enrolled; the selected indices of balance were investigated over foot positions and (un)stable conditions. Intraclass correlation coefficient (ICC), standard error of measurement (SEM%) and minimal detectable change (MDC95%) were computed. For G, ICC bounds range from poor to excellent (0.040 ÷ 0.921), mean of 0.687 (= moderate reliability). Regarding P, ICC ranges from poor to excellent (0.070 ÷ 0.920), mean of 0.683 (= moderate reliability). For G, SEM% ranges from 11% to 47%; MDC95% from 30% to 132%. Concerning P, SEM% ranges from 7% to 41%; MDC95% from 21% to 114%. Finally, the inter-rater reliability ICC by comparing devices ranges from poor to excellent (−0.162 ÷ 0.911), mean of 0.338 (= poor reliability). GYKO appears to be a convenient tool with high consistency among multiple measurements but for specific clinic/research purposes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Sensor-Based Balance Training with Exergaming Feedback in Subjects with Chronic Stroke: A Pilot Randomized Controlled Trial.

Author

Martino Cinnera, Alex, Ciancarelli, Irene, Marrano, Serena, Palagiano, Massimiliano, Federici, Elisa, Bisirri, Alessio, Iosa, Marco, Paolucci, Stefano, Koch, Giacomo, and Morone, Giovanni

Subjects

*PATIENT compliance, *ISCHEMIC stroke, *STROKE, *EXERCISE video games, *STROKE patients

Abstract

Background: As one of the leading causes of disability in the world, stroke can determine a reduction of balance performance with a negative impact on daily activity and social life. In this study, we aimed to evaluate the effects of sensor-based balance training with exergaming feedback on balance skills in chronic stroke patients. Methods: 21 individuals (11F, 57.14 ± 13.82 years) with a single event of ischemic stroke were randomly assigned to the sensor-based balance training group (SB-group) or the usual care balance training group (UC-group). Both groups received 10 add-on sessions with exergaming feedback (SB-group) or conventional training (UC-group). Clinical and instrumental evaluation was performed before (t0), after (t1), and after one month (t2) from intervention. Participation level was assessed using the Pittsburgh Rehabilitation Participation Scale at the end of each session. Results: The SB-group showed an improvement in postural stability (p = 0.02) when compared to the UC-group. In the evaluation of motivational level, the score was statistically higher in the SB-group with respect to the UC-group (p < 0.01). Conclusion: Except for the improvement in postural stability, no difference was recorded in clinical score, suggesting a comparable gain in both groups. However, patients undergoing sensor-based training exhibited a higher participation score, ultimately indicating the use of this training to improve the adherence to rehabilitation settings, especially in patients with lower compliance. [ABSTRACT FROM AUTHOR]

Published

2024

10. Measuring Vertical Jump Height With Artificial Intelligence Through a Cell Phone: A Validity and Reliability Report.

Author

Tan, Erik C. H., Saw Weng Onn, and Montalvo, Samuel

Subjects

*MOBILE apps, *CROSS-sectional method, *SMARTPHONES, *ARTIFICIAL intelligence, *RESEARCH methodology, *INTRACLASS correlation, *JUMPING, *AUTOMATION, *REGRESSION analysis, *EVALUATION, RESEARCH evaluation

Abstract

This study estimated the reliability and validity of an artificial intelligence (AI)-driven model in the My Jump 2 (My Jump Lab) for estimating vertical jump height compared with the Force Platform (FP). The cross-sectional study involved 88 athletes (33 female and 55 male athletes), performing a total of 264 countermovement jumps with hands on hips. "Jump heights were simultaneously measured using the FP and the My Jump2app." The FP estimated jump heights using the impulse-momentum method, whereas My Jump 2 used the flight-time method, with the latter using an AI feature for automated detection of jump take-off and landing. Results indicated high reliability for the AI model (intraclass correlation coefficient [ICC1.3] = 0.980, coefficient of variation [CV] = 4.12) and FP (ICC1.3 = 0.990, CV = 2.92). Validity assessment showed strong agreement between the AI model and FP (ICC2,k = 0.973). This was also supported by the Bland-Altman analysis, and the ordinary least products regression revealed no significant systematic or proportional bias. The AI-driven model in My Jump 2 is highly reliable and valid for estimating jump height. Strength and conditioning professionals may use the AI-based mobile app for accurate jump height measurements, offering a practical and efficient alternative to traditional methods. [ABSTRACT FROM AUTHOR]

Published

2024

11. Are there differences in the kinetic parameters of the vertical jump performed by beach volleyball players on different types of sand?

Author

Neto, Francisco O., Silva, Geovani M., Simim, Mário A. M., Banja, Túlio, Sousa, Filipa, Fonseca, Pedro, Goethel, Márcio, Romero, Ricardo, de Jesus, Karla, and Medeiros, Alexandre I. A.

Subjects

*VOLLEYBALL players, *COACH-athlete relationships, *INFORMATION scientists, *PHYSICAL mobility, *VERTICAL jump, *STRATEGY games

Abstract

Beach volleyball (BV) is an intermittent sport characterised by short-duration and highly demanding activities with low intensity periods. Establishing if players’ jump ability is influenced by sand granulometry is a useful information for sport scientists, coaches and players. This study aimed to assess the possible differences in the kinetics parameters of the vertical jump on different types of sand performed by BV players. Twelve elite female players performed six countermovement jumps (CMJs) in three different surface conditions (fine sand, reference, coarse sand) in a random counterbalanced order (216 jumps). A generalised mixed model approach detected differences for CMJ model in total duration (p: 0.016), eccentric phase duration (p: 0.007), concentric phase duration (p: 0.011), time to peak power (p: < 0.001), time to peak force (p: 0.014), maximum rate force development concentric phase (p: 0.004), maximum velocity (p: 0.028) and peak power eccentric (p: 0.018). Coarse sand decreases the time spent jumping compared to fine sand, without a penalty to jump height. Coaches and athletes should take this information into account to enhance their understanding of practice strategies and game conditions. One might anticipate a faster pace in games played on coarse sand and a slower pace on fine sand. [ABSTRACT FROM AUTHOR]

Published

2024

12. Methodological considerations in assessing countermovement jumps with handheld accentuated eccentric loading.

Author

Bright, Thomas E., Harry, John R., Lake, Jason, Mundy, Peter, Theis, Nicola, and Hughes, Jonathan D.

Subjects

*GROUND reaction forces (Biomechanics), *MOTION capture (Human mechanics), *ECCENTRIC loads, *VERTICAL motion

Abstract

This study aimed to compare the agreement between three-dimensional motion capture and vertical ground reaction force (vGRF) in identifying the point of dumbbell (DB) release during a countermovement jump with accentuated eccentric loading (CMJAEL), and to examine the influence of the vGRF analysis method on the reliability and magnitude of CMJAEL variables. Twenty participants (10 male, 10 female) completed five maximal effort CMJAEL at 20% and 30% of body mass (CMJAEL20 and CMJAEL30, respectively) using DBs. There was large variability between methods in both loading conditions, as indicated by the wide limits of agreement (CMJAEL20 = −0.22 to 0.07 s; CMJAEL30 = −0.29 to 0.14 s). Variables were calculated from the vGRF data, and compared between four methods (forward integration (FI), backward integration (BI), FI adjusted at bottom position (BP), FI adjusted at DB release point (DR)). Greater absolute reliability was observed for variables from DR (CV% ≤ 7.28) compared to BP (CV% ≤ 13.74), although relative reliability was superior following the BP method (ICC ≥ 0.781 vs ≥ 0.606, respectively). The vGRF method shows promise in pinpointing the DB release point when only force platforms are accessible, and a combination of FI and BI analyses is advised to understand CMJAEL dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

13. Test Re-Test Reliability of Countermovement Jump, Single Leg Countermovement Jump, and Countermovement Rebound Jump Force Plate Metrics in Female Football Players

Author

Jack Fahey, John McMahon, and Nicholas J Ripley

Subjects

Women's soccer, Force platform, Repeatability, Vertical jump, Sports, GV557-1198.995, Sports medicine, RC1200-1245

Abstract

Female football is growing exponentially. Assessing changes in neuromuscular function enables injury risk profiling using single and multiple countermovement jumps (CMJ) in female footballers who are at greater injury risk. Single leg CMJ (SLCMJ) is sensitive to detect such changes, but test-retest reliability is unknown. The aim of this study was to examine test-retest reliability of phase-specific metrics during CMJ, SLCMJ and countermovement rebound (CMJ-R) in female youth footballers. Twenty-six elite female footballers (15.4±1.6 years, 59.2±2.4 kg, 165.8±4.8 cm) performed three, arms akimbo, CMJ, SLCMJ and CMJ-R trials on two sessions seven days apart, using force plates and associated software. System weight, jump momentum and average braking force had good-excellent reliability. CMJ demonstrated greater reliability followed by CMJ-R, dominant limb (DL: preferred kicking limb) SLCMJ and non-dominant limb (NDL) SLCMJ. Jump height had good-excellent reliability for CMJ and CMJ-R. SLCMJ absolute reliability (upper 95 confidence interval [CI] coefficient of variation) was moderate for both limbs. Relative reliability (lower 95 CI interclass correlation coefficient) was good for DL, but poor for NDL. Considering increased injury risk in female athletes, selecting reliable metrics facilitate accurate neuromuscular function assessment for injury risk profiling. This study describes phase-specific test-retest reliability in female youth footballers.

Published

2024

14. Mediolateral Postural Sway Velocity as a Possible Indicator of Ground Reaction Force-Derived 180⁰ Turn Performance in Male Soccer Players: A Cross-Sectional Study

Author

Kazım Nas, Mehmet Can Gedik, Kerem Gündüz, Mustafa Aydemir, and Yücel Makaracı

Subjects

agility, balance, center of pressure, change of direction, football, force platform, Sports, GV557-1198.995, Sports medicine, RC1200-1245

Abstract

The main aim of the study was to investigate the relationship between ground reaction force (GRF) derived postural sway and 180° turn performance in soccer players on the axis of dominant and non-dominant legs. Twenty-seven male soccer players (mean age 22.45 ± 2.7 years) from the same league level agreed to participate in the study. The participants underwent GRF-derived postural sway and 180⁰ turn tests using a force plate in separate sessions, with at least 24-hour intervals between sessions. Postural sway was assessed in anteroposterior and mediolateral directions during a single-leg stance, while the 180° turn performance was evaluated through GRF-derived turn time and turn sway. The correlation, multiple regression, and group differences were computed to test study hypotheses. Positive correlations were observed between postural sway measures and 180⁰ turn time for dominant and non-dominant legs (r-range from 0.384 to 0.550). No measure of postural sway was significantly related to the 180⁰ turn sway (p> 0.05). Multiple stepwise regression analysis indicated that mediolateral sway velocity explained 30% and 17% of the variance of 180⁰ turn time for dominant and non-dominant legs, respectively. No statistical inter-limb differences were noted for 180⁰ turn and postural sway parameters. The results suggest that improving single-leg postural performance may enhance male soccer players' 180° turn performance. Therefore, unilateral stability in the mediolateral direction should be considered a potential indicator of change of direction-based performances.

Published

2024

15. Improving the estimation of countermovement jump height from force plate recordings by considering the interaction between multiple procedural steps: An optimisation approach.

Author

Pinto, Brendan L. and Callaghan, Jack P.

Subjects

*KINEMATICS, *GAIT in humans, *QUANTITATIVE research, *DESCRIPTIVE statistics, *JUMPING, *BODY movement, *COMPARATIVE studies, *MOTION capture (Human mechanics), RESEARCH evaluation

Abstract

Force plates are used as standalone measurement systems in research and practice to evaluate metrics such as jump height. Calculating jump height involves multiple procedural steps, but previous investigations aiming to improve calculation procedures have only considered the influence of a single procedural step in isolation. The purpose of this study was to investigate if considering the interacting influence of multiple procedural steps in conjunction would impact the accuracy of jump height calculated from force plate recordings. An optimisation procedure was used to determine the combination of filter type, filter order, filter cut-off, integration start point and instant of take-off, that would minimize the root mean squared difference between force plate calculated jump height and a kinematic criterion. The best filter approach was a fifth order Butterworth filter with a 6 Hz cut-off frequency or a third order Chebyshev filter with a 5 Hz cut-off frequency. The best starting point for integration was approximately 0.25 s prior to the onset of the jump and the instant of take-off was best identified by finding the first instant that the force-time signal decreased by the magnitude of system weight. The presented optimisation technique provides an improved quantitative approach to develop standard procedures. [ABSTRACT FROM AUTHOR]

Published

2024

16. Validity and Reliability of a Smartphone App for Vertical Jump Height Assessment Using the Marker Displacement Time Method.

Author

Murawa, Michał, Krakowiak, Waldemar, and Kabaciński, Jarosław

Subjects

VERTICAL jump, MOBILE apps, CENTER of mass, TEST validity, SACRUM

Abstract

The correct assessment of the vertical jump height depends on an accurate and reliable measurement tool. This study aimed to determine the concurrent validity and reliability of the My Jump 2 app used for estimating the maximum height (MH) of the counter-movement jump (CMJ). Twenty-one male adults participated in this study. The MH of the CMJ was estimated based on the displacement of the jumper's center of mass (force platform), the displacement time of the reflective marker placed on the jumper's sacrum (smartphone, My Jump 2-DT) and the flight time of the jumper (smartphone, My Jump 2-FT). The assessment of the concurrent validity showed a poor agreement (ICC = 0.362; Bland–Altman bias = 12.4 cm) between the My Jump 2-FT and force platform (p < 0.001), and a good agreement (ICC = 0.858; Bland–Altman bias = −0.2 cm) between the My Jump 2-DT and force platform (p < 0.001). The ICC values for internal consistency (>0.9) indicated the excellent reliability of all measurement tools (p < 0.001). The findings revealed the high accuracy and good reliability of the My Jump 2 app for the new method of MH estimation for the CMJ, including the displacement time of the marker placed on the jumper's sacrum. [ABSTRACT FROM AUTHOR]

Published

2024

17. Using Python to Analyze Multiple Countermovement Vertical Jumps over Time.

Author

Smith, J. Chadwick

Abstract

Supplemental Digital Content is Available in the Text. Countermovement vertical jumps (CMVJs) can be used for athletic monitoring. When performed on a force plate, biomechanical variables can be obtained to identify factors relating to performance. Commercially available software can be purchased to analyze metrics relating to CMVJs. Users are typically limited to metrics provided by these "black box" setups. However, some commercial products provide export functions for users to manipulate raw data. These programs often require additional components to complete the analysis, which could be cost prohibitive. The purpose of this article is to compare using Excel, MATLAB, R, and Python to analyze multiple CMVJ trials, so practitioners have more control over how metrics are determined rather than relying on the "black box" setup with or without the expense of third-party proprietary software. This guide will introduce Python by presenting a template for analyzing force plate jump data. Strategies for reading files, filtering data, calculating biomechanical variables, graphically representing data, and writing results to a master data file will be discussed. Although the provided script can be used to analyze CMVJ data by itself, it can be modified to include other metrics the practitioner wishes to include in their setting (see Supplemental Digital Content 1, http://links.lww.com/SCJ/A383). [ABSTRACT FROM AUTHOR]

Published

2024

18. Effects of compression garments on balance in hypermobile Ehlers-Danlos syndrome: a randomized controlled trial.

Author

Benistan, Karelle, Foy, Malika, Gillas, Fabrice, Genet, François, Kane, Maimouna, Barbot, Frédéric, Vaugier, Isabelle, Bonnyaud, Céline, and Gader, Nadra

Subjects

*BIOMECHANICS, *PHYSICAL therapy, *PAIN measurement, *EHLERS-Danlos syndrome, *THERAPEUTICS, *RESEARCH funding, *STATISTICAL sampling, *FISHER exact test, *RANDOMIZED controlled trials, *DIAGNOSIS, *MANN Whitney U Test, *CHI-squared test, *DESCRIPTIVE statistics, *PRE-tests & post-tests, *COMPRESSION garments, *JOINT pain, *POSTURE, *EXERCISE tests, *CONFIDENCE intervals, *BODY movement, *COMPARATIVE studies, *DATA analysis software, *JOINT instability, *POSTURAL balance

Abstract

To evaluate the immediate and 4-week effects of compression garments (CG) on balance using a force platform during 8 different visual, static, and dynamic conditions in hypermobile Ehlers-Danlos Syndrome (hEDS) patients. Thirty-six participants were randomly assigned to a group: physiotherapy alone (PT, n = 19) or physiotherapy and daily CG wearing for 4 weeks (PT + CG, n = 17). Both attended 12 physiotherapy sessions (strengthening, proprioception, and balance exercises) for 4 weeks. Primary outcome: sway velocity of the centre of pressure (COP) measured before, immediately with the CG, and at 4 weeks. Secondary outcomes: ellipse area, Romberg quotient, and pain. Sway velocity in dynamic conditions decreased immediately with the CG. After 4 weeks of intervention, sway velocity (95% CI 4.36–39.23, effect size 0.93) and area (95% CI 146–3274, effect size 0.45) on the laterally oscillating platform with eyes-closed improved more in the PT + CG group than the PT group. Romberg quotient on foam cushion improved more in the PT + CG than the PT group. Pain decreased in both groups after 4 weeks with no between-group difference. CG combined with physiotherapy improved dynamic balance measured with COP variables significantly more than physiotherapy alone in people with hEDS. NCT03359135 Compression garments immediately improve balance in people with hypermobile Ehlers-Danlos Syndrome (hEDS) Compression garments combined with regular physiotherapy improve balance in people with hEDS after 4 weeks of treatment Compression garments could compensate for proprioceptive impairment in hEDS [ABSTRACT FROM AUTHOR]

Published

2024

19. Validity and reliability of My Jump 2® app to measure the vertical jump on elite women beach volleyball players.

Author

Medeiros, Alexandre Igor Araripe, Silva, Geovani Messias da, Neto, Francisco Oliveira, Simim, Mário, Banja, Túlio, Coswig, Victor S., Afonso, José, Ramos, Ana, and Mesquita, Isabel

Subjects

WOMEN volleyball players, VOLLEYBALL players, VERTICAL jump, PLYOMETRICS, MOBILE apps, VIDEO recording

Abstract

Purpose: The aim of this study was to assess the reliability and validity of the My Jump 2® app in measuring jump height, flight time, and peak power among elite women beach volleyball players on sand surfaces. Methods: Eleven elite female beach volleyball players (aged 23.6 ± 6.2 years; weight 66.3 ± 5.8 kg; height 174.4 ± 5.8 cm; with 8.4 ± 4.8 years of professional experience) participated in this study. Each player performed six countermovement jumps in a wooden box filled with sand on a force platform while simultaneously recording a video for subsequent analysis using the My Jump 2® app. Results: We found excellent agreement for flight time, jump height and peak power between observers (ICC = 0.92, 0.91 and 0.97, respectively). No significant differences between force platform and My Jump 2® app were detected in the values obtained for the three variables (P > 0.05). For the force platform and the My Jump 2® app, we found a good agreement measuring jump height and flight time (ICC = 0.85 and 0.85, respectively). However, we only found a moderate agreement for peak power (ICC = 0.64). The difference in jump height showed a limit of agreement between −4.10 and 4.74 cm in Bland-Altman, indicating a high level of agreement between the two measurement tools. Conclusion: Based on our findings, the My Jump 2® app reveals a valid tool for measuring jump height and flight time of CMJ on sand surfaces. However, more caution is needed when measuring peak power. [ABSTRACT FROM AUTHOR]

Published

2024

20. Nintendo Wii Denge Plakasıyla Kuvvet Ölçümleri İçin Yazılım Geliştirme ve Doğrulama: Güvenirlik ve Geçerlik Çalışması.

Author

İnce, İzzet

Abstract

Copyright of Online Journal of Recreation & Sports is the property of Online Journal of Recreation & Sports and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

21. Assessing Jump Performance: Intra- and Interday Reliability and Minimum Difference of Countermovement Jump and Drop Jump Outcomes, Kinetics, Kinematics, and Jump Strategy.

Author

González-García, Jaime, Conejero, Manuel, and Gutiérrez-Hellín, Jorge

Subjects

VOLLEYBALL players, KINEMATICS, INTRACLASS correlation, RELIABILITY in engineering, DEPENDENT variables

Abstract

Understanding the reliability of jump testing is essential to determine the neuromuscular progress of athletes and make informed decisions. This study aimed to assess the reliability of several countermovement jump (CMJ) and drop jump (DJ) test metrics in female volleyball players. Sixteen (n = 16) semi-professional female volleyball players participated in this test-retest study. Intrasession and intersession reliability of CMJ and DJ metrics were evaluated using a randomized cross-over design. A dual force platform was used to collect CMJ and DJ data, and several dependent variables were calculated using forward dynamics. Intraclass correlation coefficients (ICC), coefficients of variation (CV), and minimum difference (MD) were calculated to assess intra- and interday reliability. During the same testing, the third attempt consistently yielded the highest values for both tests in jump height but presented excellent reliability (CMJ: ICC [95%CI] = 0.97 [0.93–0.99]; CV [95%CI] = 4.1% [1.2–7.0]; MD95 = 3.5 cm; MD90 = 2.9 cm; DJ: ICC [95%CI] = 0.91 [0.77–0.97]; CV [95%CI] = 6.7% [1.9–11.5]; MD95 = 6.0 cm; MD90 = 5.0 cm). CMJ height exhibited excellent reliability between sessions (ICC [95%CI] = 0.93 [0.81–0.97]; CV [95%CI] = 3.8% [1.1–6.4]; MD95 = 3.5 cm; MD90 = 3.0 cm), whereas DJ height demonstrated slightly lower but still acceptable intersession reliability (ICC [95%CI] = 0.81 [0.55–0.93]; CV [95%CI] = 6.1% [1.7–10.4]; MD95 = 5.2 cm; MD90 = 4.4 cm). Intersession reliability for CMJ kinetics and kinematics was excellent for 13 of the 24 metrics assessed. For DJ, only concentric (ICC [95%CI] = 0.91 [0.76–0.97]; CV [95%CI] = 3.0% [0.9–5.2]; MD95 = 15 Ns; MD90 = 12.6 Ns) and eccentric impulses (ICC [95%CI] = 0.99 [0.96–0.99]; CV [95%CI] = 1.7% [0.5–2.9]; MD95 = 9.2 Ns; MD90 = 7.7 Ns) demonstrated excellent intersession reliability. Most CMJ variables showed excellent reliability within sessions, while DJ had lower reliability in most metrics. These findings provide valuable information to physical trainers to select the metrics to assess athletes' performance as well as to identify a minimum cut-off value that serves as a reference for each of the metrics reported in both tests. [ABSTRACT FROM AUTHOR]

Published

2024

22. Establishing Phase Definitions for Jump and Drop Landings and an Exploratory Assessment of Performance-Related Metrics to Monitor During Testing.

Author

Harry, John R., Simms, Anton, and Hite, Mia

Subjects

*BASKETBALL injuries, *ATHLETIC associations, *TASK performance, *BASKETBALL, *PATIENT monitoring, *PEARSON correlation (Statistics), *PSYCHOSOCIAL factors, *MALE athletes, *DESCRIPTIVE statistics, *ATHLETIC ability, *JUMPING, *KINEMATICS, *GROUND reaction forces (Biomechanics)

Abstract

Harry, JR, Simms, A, and Hite, M. Establishing phase definitions for jump and drop landings and an exploratory assessment of performance-related metrics to monitor during testing. J Strength Cond Res 38(2): e62-e71, 2024--Landing is a common task performed in research, physical training, and competitive sporting scenarios. However, few have attempted to explore landing mechanics beyond its hypothesized link to injury potential, which ignores the key performance qualities that contribute to performance, or how quickly a landing can be completed. This is because a lack of (a) established landing phases from which important performance and injury risk metrics can be extracted and (b) metrics known to have a correlation with performance. As such, this article had 2 purposes. The first purpose was to use force platform data to identify easily extractable and understandable landing phases that contain metrics linked to both task performance and overuse injury potential. The second purpose was to explore performance-related metrics to monitor during testing. Both purposes were pursued using force platform data for the landing portion of 270 jump-landing trials performed by a sample of 14 NCAA Division 1 men's basketball players (1.98 6 0.07 m; 94.73 6 8.01 kg). The proposed phases can separate both jump-landing and drop-landing tasks into loading, attenuation, and control phases that consider the way vertical ground reaction force (GRF) is purposefully manipulated by the athlete, which current phase definitions fail to consider. For the second purpose, Pearson's correlation coefficients, the corresponding statistical probabilities (a 5 0.05), and a standardized strength interpretation scale for correlation coefficients (0, trivial # 0.1, small # 0.3, moderate # 0.5, large # 0.7, very large) were used for both the group average (i.e., all individual averages pooled together) and individual data (i.e., each individual's trials pooled together). Results revealed that landing time, attenuation phase time, average vertical GRF during landing, average vertical GRF during the attenuation phase, average vertical GRF during the control phase, vertical GRF attenuation rate, and the amortization GRF (i.e., GRF at zero velocity) significantly correlated with landing performance, defined as the ratio of landing height and landing time (R $ 6 0.58; p, 0.05), such that favorable changes in those metrics were associated with better performance. This work provides practitioners with 2 abilities. First, practitioners currently assess jump capacity using jump-landing tests (e.g., countermovement jump) with an analysis strategy that makes use of landing data. Second, this work provides preliminary data to guide others when initially exploring landing test results before identifying metrics chosen for their own analysis. [ABSTRACT FROM AUTHOR]

Published

2024

23. Mediolateral Postural Sway Velocity as a Possible Indicator of Ground Reaction Force-Derived 180° Turn Performance in Male Soccer Players: A Cross-Sectional Study.

Author

MAKARACI, Yücel, NAS, Kazım, AYDEMİR, Mustafa, GÜNDÜZ, Kerem, and GEDİK, Mehmet Can

Subjects

SOCCER players, GROUND reaction forces (Biomechanics), MULTIPLE regression analysis, CROSS-sectional method, VELOCITY

Abstract

The main aim of the study was to investigate the relationship between ground reaction force (GRF) derived postural sway and 180° turn performance in soccer players on the axis of dominant and nondominant legs. Twenty-seven male soccer players (mean age 22.45 ± 2.7 years) from the same league level agreed to participate in the study. The participants underwent GRF-derived postural sway and 180° turn tests using a force plate in separate sessions, with at least 24-hour intervals between sessions. Postural sway was assessed in anteroposterior and mediolateral directions during a single-leg stance, while the 180° turn performance was evaluated through GRF-derived turn time and turn sway. The correlation, multiple regression, and group differences were computed to test study hypotheses. Positive correlations were observed between postural sway measures and 180° turn time for dominant and non-dominant legs (r-range from 0.384 to 0.550). No measure of postural sway was significantly related to the 180° turn sway (p> 0.05). Multiple stepwise regression analysis indicated that mediolateral sway velocity explained 30% and 17% of the variance of 180° turn time for dominant and non-dominant legs, respectively. No statistical inter-limb differences were noted for 180° turn and postural sway parameters. The results suggest that improving single-leg postural performance may enhance male soccer players' 180° turn performance. Therefore, unilateral stability in the mediolateral direction should be considered a potential indicator of change of direction-based performances. [ABSTRACT FROM AUTHOR]

Published

2024

24. Use of posturography in patients with ankylosing spondylitis: A systematic review

Author

Caroline F.O. Silva, Karen Obara, Luana Paixão, Eduarda H. Santos, Amanda I.Z. Santos, and Jefferson R. Cardoso

Subjects

ankylosing spondylitis, postural control, force platform, biomechanics, spondyloarthropathy., Therapeutics. Pharmacology, RM1-950

Abstract

Background: Ankylosing spondylitis (AS) is characterised as a chronic inflammatory disease of the axial skeleton. The force platform is an option for performing the postural assessment of these individuals. Objectives: To review and evaluate the behaviour of the centre of pressure (CoP) variables during the postural control examination in patients with AS compared to a control group. Method: A systematic review, registered in PROSPERO, that followed the PRISMA Statement. A search was carried out in the following databases: Medline, Web of Science, Embase, Scopus, and Scielo, from 1945 to 2023. Studies were selected that aimed to understand the use of the force platform for the assessment of postural control. The risk of bias assessment was performed using the AXIS tool. Results: Five studies were included, with a total of 247 participants. The assessment of risk of bias presented high scores in the AXIS tool. Patients with a diagnosis of AS presented increased thoracic kyphosis in most of the studies, as well as large displacements in the anteroposterior (AP) and mediolateral (ML) directions, and altered total mean velocity (TMV) and frequency, indicating worse postural stability. Regarding the functional status, the most used questionnaires were the Bath Ankylosing Spondylitis Functional Index (BASFI), Bath Ankylosing Spondylitis Metrology Index (BASMI) and Bath Ankylosing Disease Activity Index (BASDAI). Conclusion: Patients with ankylosing spondylitis present postural instability, verified by means of higher values of centre of posture variables. Clinical implications: Individuals with ankylosing spondylitis presented postural instability and balance deficit. Therefore, exercises for balance training and postural control are essential in the clinical management of these patients.

Published

2024

25. Validity and reliability of My Jump 2® app to measure the vertical jump on elite women beach volleyball players

Author

Alexandre Igor Araripe Medeiros, Geovani Messias da Silva, Francisco Oliveira Neto, Mário Simim, Túlio Banja, Victor S. Coswig, José Afonso, Ana Ramos, and Isabel Mesquita

Subjects

Biomechanics, Force platform, Microtechnology, Mobile device, Motion analysis, Physical performance, Medicine, Biology (General), QH301-705.5

Abstract

Purpose The aim of this study was to assess the reliability and validity of the My Jump 2® app in measuring jump height, flight time, and peak power among elite women beach volleyball players on sand surfaces. Methods Eleven elite female beach volleyball players (aged 23.6 ± 6.2 years; weight 66.3 ± 5.8 kg; height 174.4 ± 5.8 cm; with 8.4 ± 4.8 years of professional experience) participated in this study. Each player performed six countermovement jumps in a wooden box filled with sand on a force platform while simultaneously recording a video for subsequent analysis using the My Jump 2® app. Results We found excellent agreement for flight time, jump height and peak power between observers (ICC = 0.92, 0.91 and 0.97, respectively). No significant differences between force platform and My Jump 2® app were detected in the values obtained for the three variables (P > 0.05). For the force platform and the My Jump 2® app, we found a good agreement measuring jump height and flight time (ICC = 0.85 and 0.85, respectively). However, we only found a moderate agreement for peak power (ICC = 0.64). The difference in jump height showed a limit of agreement between −4.10 and 4.74 cm in Bland-Altman, indicating a high level of agreement between the two measurement tools. Conclusion Based on our findings, the My Jump 2® app reveals a valid tool for measuring jump height and flight time of CMJ on sand surfaces. However, more caution is needed when measuring peak power.

Published

2024

26. Sensor-Based Balance Training with Exergaming Feedback in Subjects with Chronic Stroke: A Pilot Randomized Controlled Trial

Author

Alex Martino Cinnera, Irene Ciancarelli, Serena Marrano, Massimiliano Palagiano, Elisa Federici, Alessio Bisirri, Marco Iosa, Stefano Paolucci, Giacomo Koch, and Giovanni Morone

Subjects

IMU, rehabilitation, inertial measurement units, force platform, biofeedback, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: As one of the leading causes of disability in the world, stroke can determine a reduction of balance performance with a negative impact on daily activity and social life. In this study, we aimed to evaluate the effects of sensor-based balance training with exergaming feedback on balance skills in chronic stroke patients. Methods: 21 individuals (11F, 57.14 ± 13.82 years) with a single event of ischemic stroke were randomly assigned to the sensor-based balance training group (SB-group) or the usual care balance training group (UC-group). Both groups received 10 add-on sessions with exergaming feedback (SB-group) or conventional training (UC-group). Clinical and instrumental evaluation was performed before (t0), after (t1), and after one month (t2) from intervention. Participation level was assessed using the Pittsburgh Rehabilitation Participation Scale at the end of each session. Results: The SB-group showed an improvement in postural stability (p = 0.02) when compared to the UC-group. In the evaluation of motivational level, the score was statistically higher in the SB-group with respect to the UC-group (p < 0.01). Conclusion: Except for the improvement in postural stability, no difference was recorded in clinical score, suggesting a comparable gain in both groups. However, patients undergoing sensor-based training exhibited a higher participation score, ultimately indicating the use of this training to improve the adherence to rehabilitation settings, especially in patients with lower compliance.

Published

2024

27. Evaluation of the Ground Reaction Force in Basketball Shooting, with and Without Opposition

Author

Amaro, C. M., Mendes, R., Gomes, B. B., Castro, M. A., Lovell, Nigel H., Advisory Editor, Oneto, Luca, Advisory Editor, Piotto, Stefano, Advisory Editor, Rossi, Federico, Advisory Editor, Samsonovich, Alexei V., Advisory Editor, Babiloni, Fabio, Advisory Editor, Liwo, Adam, Advisory Editor, Magjarevic, Ratko, Advisory Editor, Martins Amaro, Ana, editor, Roseiro, Luis, editor, Messias, Ana Lúcia, editor, Gomes, Beatriz, editor, Almeida, Henrique, editor, António Castro, Maria, editor, Neto, Maria Augusta, editor, de Fátima Paulino, Maria, editor, and Maranha, Vítor, editor

Published

2023

28. Mechanical Testing of Futsal Footwear: Friction Coefficient Under Different Sliding Direction

Author

Ismail, Shariman Ismadi, Nunome, Hiroyuki, Lysdal, Filip Gertz, Kersting, Uwe Gustav, Salleh, Ahmad Faizal, Hasan, Hosni, Lovell, Nigel H., Advisory Editor, Oneto, Luca, Advisory Editor, Piotto, Stefano, Advisory Editor, Rossi, Federico, Advisory Editor, Samsonovich, Alexei V., Advisory Editor, Babiloni, Fabio, Advisory Editor, Liwo, Adam, Advisory Editor, Magjarevic, Ratko, Advisory Editor, Syed Omar, Syed Faris, editor, Hassan, Mohd Hasnun Arif, editor, Casson, Alexander, editor, Godfrey, Alan, editor, and P. P. Abdul Majeed, Anwar, editor

Published

2023

29. Using Wearable Accelerometers to Develop a Vertical Ground Reaction Force Prediction Model during Running: A Sensitivity Study

Author

Thomas Provot, Samaneh Choupani, Maxime Bourgain, Laura Valdes-Tamayo, and Delphine Chadefaux

Subjects

running, wearable sensors, VGRFs, force platform, accelerometer, stepwise regression, Physics, QC1-999

Abstract

The estimation of vertical ground reaction forces (VGRFs) during running is necessary to understand running mechanisms. For this purpose, the use of force platforms is fundamental. However, to extend the study of VGRFs to real conditions, wearable accelerometers are a promising alternative to force platforms, whose use is often limited to the laboratory environment. The objective of this study was to develop a VGRF model using wearable accelerometers and a stepwise regression algorithm. Several models were developed and validated using the VGRFs and acceleration signals collected during 100 stances performed by one participant. The validated models were tested on eight participants. In a sensitivity study, the strongest correlations were observed at cut-off frequencies of ≤25 Hz and in models developed with 30 to 90 stances. After the validation phase, the 10 best models had, on average, low relative differences (≤10%) in the estimation of discrete VGRF parameters, i.e., the passive peak (εpp=6.26%), active peak (εap=2.22%), and loading rate (εlr=2.17%). The results indicate that the development of personalized models is more suitable for achieving the best estimates. The proposed methodology opens many perspectives for monitoring VGRFs under real conditions using a limited number of wearable sensors.

Published

2023

30. Postural balance disorders in sarcopenia based on surface electromyography

Author

Ting Zhang, Yang Huo, Wenjing Yin, and Jie Xiang

Subjects

Sarcopenia, Surface electromyography, Force platform, Postural balance, Muscle fatigue, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Sarcopenia is an intrinsic factor that leads to balance disorders and falls in older adults. However, the characterization of sarcopenia-related postural balance deficits remains unclear. Aims: This study aimed to explore the balance performance and postural control strategy in older adults with sarcopenia during static stance tasks using force platforms and surface electromyography. Methods: Older adults with right-sided dominance were recruited, including 27 adults with sarcopenia and 27 healthy counterparts. Postural sway was measured with eyes open/closed on rigid/compliant surfaces. The time- and frequency-domain indexes of bilateral lower extremity muscle activity were simultaneously recorded. Results: The postural sway and activity of multiple lower extremity muscles in the sarcopenia group were increased (P

Published

2024

31. The autologous chondral platelet-rich plasma matrix implantation. A new therapy in cartilage repair and regeneration: macroscopic and biomechanical study in an experimental sheep model.

Author

Peláez-Gorrea, Pau, Damiá-Giménez, Elena, Rubio-Zaragoza, Mónica, Cuervo-Serrato, Belén, Hernández-Guerra, Ángel María, Miguel-Pastor, Laura, Romero-Martínez, Ayla Del, Sopena-Juncosa, Joaquín, Torres-Torrillas, Marta, Santana, Angelo, Cugat-Bertomeu, Ramón, Vilar-Guereño, José Manuel, and Carrillo-Poveda, Jose Maria

Subjects

CARTILAGE regeneration, PLATELET-rich plasma, INTRA-articular injections, ARTICULAR cartilage, SHEEP, OSTEOCHONDRITIS

Abstract

Introduction: Articular cartilage injuries are a severe problem, and the treatments for these injuries are complex. The present study investigates a treatment for full-thickness cartilage defects called Autologous Chondral Platelet Rich Plasma Matrix Implantation (PACI) in a sheep model. Methods: Chondral defects 8 mm in diameter were surgically induced in the medial femoral condyles of both stifles in eight healthy sheep. Right stifles were treated with PACI and an intraarticular injection with a plasma rich in growth factors (PRGF) solution [treatment group (TRT)], while an intraarticular injection of Ringer's lactate solution was administered in left stifles [Control group (CT)]. The limbs' function was objectively assessed with a force platform to obtain the symmetry index, comparing both groups. After 9 and 18 months, the lesions were macroscopically evaluated using the International Cartilage Repair Society and Goebel scales. Results: Regarding the symmetry index, the TRT group obtained results similar to those of healthy limbs at 9 and 18 months after treatment. Regarding the macroscopic assessment, the values obtained by the TRT group were very close to those of normal cartilage and superior to those obtained by the CT group at 9 months. Conclusion: This new bioregenerative treatment modality can regenerate hyaline articular cartilage. High functional outcomes have been reported, together with a good quality repair tissue in sheep. Therefore, PACI treatment might be a good therapeutic option for full-thickness chondral lesions. [ABSTRACT FROM AUTHOR]

Published

2023

32. Elite performance monitoring of athletes using integrated systems

Author

Philpott, Lydia

Subjects

613.7, force platform, Elite performance, Counter Movement Jump, drop jump, Weight lifting, athletics, accelerometer sensors, motion analysis

Published

2020

33. Validity and Reliability of a Smartphone App for Vertical Jump Height Assessment Using the Marker Displacement Time Method

Author

Michał Murawa, Waldemar Krakowiak, and Jarosław Kabaciński

Subjects

validity, jump height, counter-movement jump, My Jump 2 app, force platform, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The correct assessment of the vertical jump height depends on an accurate and reliable measurement tool. This study aimed to determine the concurrent validity and reliability of the My Jump 2 app used for estimating the maximum height (MH) of the counter-movement jump (CMJ). Twenty-one male adults participated in this study. The MH of the CMJ was estimated based on the displacement of the jumper’s center of mass (force platform), the displacement time of the reflective marker placed on the jumper’s sacrum (smartphone, My Jump 2-DT) and the flight time of the jumper (smartphone, My Jump 2-FT). The assessment of the concurrent validity showed a poor agreement (ICC = 0.362; Bland–Altman bias = 12.4 cm) between the My Jump 2-FT and force platform (p < 0.001), and a good agreement (ICC = 0.858; Bland–Altman bias = −0.2 cm) between the My Jump 2-DT and force platform (p < 0.001). The ICC values for internal consistency (>0.9) indicated the excellent reliability of all measurement tools (p < 0.001). The findings revealed the high accuracy and good reliability of the My Jump 2 app for the new method of MH estimation for the CMJ, including the displacement time of the marker placed on the jumper’s sacrum.

Published

2024

34. The autologous chondral platelet-rich plasma matrix implantation. A new therapy in cartilage repair and regeneration: macroscopic and biomechanical study in an experimental sheep model

Author

Pau Peláez-Gorrea, Elena Damiá-Giménez, Mónica Rubio-Zaragoza, Belén Cuervo-Serrato, Ángel María Hernández-Guerra, Laura Miguel-Pastor, Ayla Del Romero-Martínez, Joaquín Sopena-Juncosa, Marta Torres-Torrillas, Angelo Santana, Ramón Cugat-Bertomeu, José Manuel Vilar-Guereño, and Jose Maria Carrillo-Poveda

Subjects

cartilage regeneration, regenerative medicine, plasma rich in growth factors, autologous platelet rich plasma matrix implantation, force platform, symmetry index, Veterinary medicine, SF600-1100

Abstract

IntroductionArticular cartilage injuries are a severe problem, and the treatments for these injuries are complex. The present study investigates a treatment for full-thickness cartilage defects called Autologous Chondral Platelet Rich Plasma Matrix Implantation (PACI) in a sheep model.MethodsChondral defects 8 mm in diameter were surgically induced in the medial femoral condyles of both stifles in eight healthy sheep. Right stifles were treated with PACI and an intraarticular injection with a plasma rich in growth factors (PRGF) solution [treatment group (TRT)], while an intraarticular injection of Ringer’s lactate solution was administered in left stifles [Control group (CT)]. The limbs’ function was objectively assessed with a force platform to obtain the symmetry index, comparing both groups. After 9 and 18 months, the lesions were macroscopically evaluated using the International Cartilage Repair Society and Goebel scales.ResultsRegarding the symmetry index, the TRT group obtained results similar to those of healthy limbs at 9 and 18 months after treatment. Regarding the macroscopic assessment, the values obtained by the TRT group were very close to those of normal cartilage and superior to those obtained by the CT group at 9 months.ConclusionThis new bioregenerative treatment modality can regenerate hyaline articular cartilage. High functional outcomes have been reported, together with a good quality repair tissue in sheep. Therefore, PACI treatment might be a good therapeutic option for full-thickness chondral lesions.

Published

2023

35. Öne Hamle Adım Egzersizlerinde Diz Açıları ve Yük İlişkisi: Deneysel Çalışma.

Author

GÜNAY, Ali and GÜLMEZ, İrfan

Subjects

KNEE physiology, EXPERIMENTAL design, RELIABILITY (Personality trait), STATURE, STATISTICS, SPORTS sciences, COMPARATIVE studies, LEG, BODY movement, EXERCISE, DESCRIPTIVE statistics, BODY mass index, DATA analysis, WEIGHT-bearing (Orthopedics), GROUND reaction forces (Biomechanics)

Abstract

Copyright of Turkiye Klinikleri Journal of Sports Sciences is the property of Turkiye Klinikleri and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

36. Knowledge of results during vertical jump testing: an effective method to increase the performance but not the consistency of vertical jumps.

Author

García-Ramos, Amador, Janicijevic, Danica, Cobo-Font, Juande, Marcos-Frutos, Daniel, Fernandes, John F. T., Taube, Wolfgang, and Pérez-Castilla, Alejandro

Subjects

*KNEE joint, *PHYSICAL training & conditioning, *EXERCISE physiology, *HEALTH literacy, *RANDOMIZED controlled trials, *BODY movement, *DESCRIPTIVE statistics, *JUMPING, *ATHLETIC ability, *BIOMECHANICS, *STATISTICAL sampling, RESEARCH evaluation

Abstract

This study aimed to determine whether the provision of jump height feedback (knowledge of result; KR) can increase the performance and the consistency of output variables. In a randomised order, sixteen participants performed six squat or countermovement jumps (three from a 90º knee angle and three from a self-preferred knee angle) with or without KR over four sessions. The provision of KR significantly increased peak force (p = 0.046, 1.83%), mean force (p = 0.037, 1.45%), peak velocity (p < 0.001, 3.71%), mean velocity (p = 0.004, 3.44%), peak power (p < 0.001, 4.22%) and mean power (p = 0.001, 4.69%). A high within-session reliability was observed for all variables (coefficient of variation [CV] ≤ 5.62%, intraclass correlation coefficient [ICC] ≥ 0.95). No systematic differences in reliability were detected between the jumps performed without KR (CV = 3.00 ± 1.38%, ICC = 0.97 ± 0.03) and with KR (CV = 3.04 ± 1.49%, ICC = 0.97 ± 0.04). These results suggest that the provision of jump height feedback during vertical jump testing is effective to enhance vertical jump performance but it does not reduce the variability between jumps. [ABSTRACT FROM AUTHOR]

Published

2023

37. Effect of a High-Intensity Handball-Specific Fatigue Protocol Focused on the Leg Contralateral to the Throwing Arm on Interlimb Asymmetries.

Author

Janicijevic, Danica, Pérez-Castilla, Alejandro, Miras-Moreno, Sergio, Ortega-Becerra, Manuel, Morenas-Aguilar, Maria Dolores, Smajla, Darjan, Sarabon, Nejc, and García-Ramos, Amador

Subjects

*ARM physiology, *HANDBALL, *MUSCLE fatigue, *THROWING (Sports), *DYNAMICS, *MUSCLE weakness, *LEG, *DESCRIPTIVE statistics, *HIGH-intensity interval training, *ATHLETIC ability

Abstract

This study aimed to elucidate which countermovement jump (CMJ) variant (unilateral or bilateral) is more sensitive to detect the decrement in kinetic CMJ-derived variables of the leg more actively involved in a handball-specific fatigue protocol. Seventeen female handball players (age: 20.6 ± 2.5 years) performed a fatigue protocol consisting of 8 repetitions of the following circuit separated by 10 seconds: 10 m sprint, 180° change of direction with the leg contralateral to the throwing arm, 10 m sprint with ball reception at 7 m, and handball throw preceded by a jump over a 40 cm hurdle with the leg contralateral to the throwing arm. Before and after the fatigue protocol, 6 unilateral CMJs (3 with each leg) and 3 bilateral CMJs were performed on a dual Kistler force platform (model 9260AA6). Bilateral CMJ height was reduced by 5.4% after the fatigue protocol (p < 0.001). However, the fatigue protocol did not promote any significant change in peak force, mean force, and propulsive impulse or in their asymmetry values (17 of 18 comparisons). The decrement of 6.1% during the unilateral CMJ in the propulsive impulse developed by the leg ipsilateral to the throwing arm (less involved in the fatigue protocol) was the only variable that reached statistical significance (p = 0.038). The pre-post fatigue changes in asymmetry values presented negligible correlations between both CMJ variants (rs = 0.01 to -0.19). These results suggest that neither unilateral nor bilateral CMJs are able to detect changes in interlimb asymmetries after a high-intensity handball-specific fatigue protocol. [ABSTRACT FROM AUTHOR]

Published

2023

38. Age, Gender, Body Mass Index, and Foot Loading During Gait.

Author

Alberto Castellini, Jorge Luis, Grande Ratti, María Florencia, and Mirta Chan, Débora

Subjects

GAIT in humans, AGE distribution, CROSS-sectional method, RETROSPECTIVE studies, REGRESSION analysis, SEX distribution, T-test (Statistics), INTER-observer reliability, DIAGNOSIS, STATISTICAL hypothesis testing, DESCRIPTIVE statistics, BODY mass index, DATA analysis software, GROUND reaction forces (Biomechanics), LONGITUDINAL method

Abstract

Background: The aim was to analyze changes in normal functional parameters of gait analysis by aging, sex, and body mass index (BMI). Methods: A cross-sectional study with a consecutive sample of asymptomatic subjects was performed between 2014 and 2020. Primary outcomes were time and force parameters (contact time and center of force [CoF] time), in the heel, midfoot, and metatarsal areas, measured using an in-office force platform. Results: A total of 156 subjects (312 feet) were included, including 67% of women with a mean age of 47 years. The mean of total contact time was similar in males and females (P = .695) and across BMI (P = .413). Contact time did not show differences by region (P = .648 heel, P = .286 midfoot, and P = .690 metatarsal). CoF time in the heel and metatarsal areas did not change between males and females (P = .288 and P = .879, respectively); meanwhile, it was different in midfoot (P = .002). Maximum force showed a reduction between sexes in the heel (P = .039) but did not in the midfoot and metatarsal areas. By age, differences were detected in the heel and metatarsal areas in females (P = .002 and P = .001) and the metatarsal area in males (P = .001). According to the age groups, total contact time increased in females (P = .001) but not in males (P = .018), and no differences were detected between foot areas. In females, CoF time did not change either foot areas or age groups. In males, CoF time values increased in the midfoot area in the older group (P = .001). Conclusion: Time variables did not change by foot region, independent of age, sex, and BMI. Heel maximum force decreased in females, probably linked to adaptive phenomena by aging. The midfoot remains stable, and acts as an undamaged "bridge." These parameters could be interpreted as normal in asymptomatic subjects. [ABSTRACT FROM AUTHOR]

Published

2023

39. Proposal of a Low Profile Piezoelectric Based Insole to Measure the Perpendicular Force Applied by a Cyclist

Author

Araújo, M. O., Balbinot, A., Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Bastos-Filho, Teodiano Freire, editor, de Oliveira Caldeira, Eliete Maria, editor, and Frizera-Neto, Anselmo, editor

Published

2022

40. Influence of the Use of Upper Limbs in the Vertical Jump on the Ground Reaction Force of Female Athletes from the Development Basketball Categories

Author

Xavier, A. P., Corrêa, S. C., Viana, E. R. S., Oliveira, C. S., Guimarães, C. P., Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Bastos-Filho, Teodiano Freire, editor, de Oliveira Caldeira, Eliete Maria, editor, and Frizera-Neto, Anselmo, editor

Published

2022

41. Changes in Body Mass and Movement Strategy Maintain Jump Height Immediately after Soccer Match.

Author

Spencer, Ryan, Sindall, Paul, Hammond, Kelly M., Atkins, Steve J., Quinn, Mark, and McMahon, John J.

Subjects

SOCCER tournaments, SOCCER players, SOCCER

Abstract

A countermovement jump (CMJ) performed on a force plate is commonly applied in soccer to quantify acute neuromuscular fatigue (NMF), which may manifest immediately following soccer match play. Jump height (JH) is the main outcome variable reported for this purpose; however, it is sensitive to alterations in movement strategy, which may act to mask JH and, therefore, mask any presence of NMF. Acute reductions in body mass (BM) during match play could also lead to the maintenance of JH, but this is yet to be explored. This study sought to explore soccer-match-induced alterations to JH, movement strategy, and BM to inform future variable selection for the study of acute NMF. Fourteen male English National League soccer players performed three CMJs on a dual-force plate system immediately before and after a competitive soccer match. Differences in jump height were non-significant and trivial (p = 0.924, g = 0.03) before and after soccer match play, but there was a large post-match decrease in BM (g = 1.66). Furthermore, moderate decreases in jump momentum (g = 0.56) and countermovement depth (g = 0.72) were noted. As JH was determined by the take-off velocity, reduced BM could have augmented it (less mass to accelerate); however, reduced countermovement depth seemingly counteracted this (less distance to attain velocity). It may, therefore, be beneficial to report these variables when monitoring acute NMF via the CMJ. [ABSTRACT FROM AUTHOR]

Published

2023

42. Identifying Consistent Metrics from the Force-Time Curve of the Countermovement Jump in Combat Fighters and Physically Active Men.

Author

FERREIRA, ALEXANDRE R. P., MACEDO, VICTOR O. C., BOULLOSA, DANIEL, and VIEIRA, AMILTON

Subjects

PHYSICAL fitness, GROUND reaction forces (Biomechanics), INTRACLASS correlation, MUSCLE strength, RELIABILITY (Personality trait)

Abstract

We investigated the consistency of metrics obtained from the unweighting, braking, propulsive, and landing phases of the countermovement (CMJ) force-time curve in combat fighters and physically active men. Combat fighters (n=21) and physically actives (n=21) were tested for three days (2-7 days apart). Participants performed four maximal CMJ separated by 1-min for between-day comparisons. From force-time recording, the consistency of 16 CMJ metrics (peak and mean ground reaction forces (GRF), net impulse, and duration from each phase) was investigated using the intraclass correlation coefficient (ICC) and typical error (CVTE). We considered as "consistent" those metrics showing no systematic differences, ICC = 0.75, and CVTE = 10%. We further compared the CVTE between groups and pairs of trials (days). Participants demonstrated more consistency in the braking and propulsive phases, while the unweighting phase did not show any consistent metric. There was no evidence of a learning effect (systematic changes), but analysis appointed more consistency on days 2-3 than on days 1-2 (18 metrics presented lower CVTE while 11 presented higher). We identified braking and propulsive GRF (peak and mean) and propulsive impulse as consistent metrics for combat fighters, while only propulsive impulse for physically actives. The between-group analyses showed that 24 comparisons favored the combat fighters against only five favoring the physically actives. In conclusion, forcetime metrics related to jumping strategy, like phase duration, are less consistent than those related to driven forces and jump output, probably because participants changed their jump strategy during testing days. [ABSTRACT FROM AUTHOR]

Published

2023

43. Center of Mass Estimation Using a Force Platform and Inertial Sensors for Balance Evaluation in Quiet Standing.

Author

Sonobe, Motomichi and Inoue, Yoshio

Subjects

*CENTER of mass, *MOTION capture (Human mechanics), *EQUATIONS of motion, *DETECTORS, *FOOT, *HUMAN body, *ANKLE, *EVALUATION methodology

Abstract

Accurate estimation of the center of mass is necessary for evaluating balance control during quiet standing. However, no practical center of mass estimation method exists because of problems with estimation accuracy and theoretical validity in previous studies that used force platforms or inertial sensors. This study aimed to develop a method for estimating the center of mass displacement and velocity based on equations of motion describing the standing human body. This method uses a force platform under the feet and an inertial sensor on the head and is applicable when the support surface moves horizontally. We compared the center of mass estimation accuracy of the proposed method with those of other methods in previous studies using estimates from the optical motion capture system as the true value. The results indicate that the present method has high accuracy in quiet standing, ankle motion, hip motion, and support surface swaying in anteroposterior and mediolateral directions. The present method could help researchers and clinicians to develop more accurate and effective balance evaluation methods. [ABSTRACT FROM AUTHOR]

Published

2023

44. Mechanical power production assessment during weightlifting exercises. A systematic review.

Author

Soriano, Marcos A., Kipp, Kristof, Lake, Jason P., Suchomel, Timothy J., Marín, Pedro J., Sainz De Baranda, María P., and Comfort, Paul

Subjects

*EXERCISE physiology, *KINEMATICS, *DYNAMICS, *DESCRIPTIVE statistics, *RESISTANCE training, *SYSTEMATIC reviews, *WEIGHT lifting, *QUALITY assurance, *RELIABILITY (Personality trait)

Abstract

The assessment of the mechanical power production is of great importance for researchers and practitioners. The purpose of this review was to compare the differences in ground reaction force (GRF), kinematic, and combined (bar velocity x GRF) methods to assess mechanical power production during weightlifting exercises. A search of electronic databases was conducted to identify all publications up to 31 May 2019. The peak power output (PPO) was selected as the key variable. The exercises included in this review were clean variations, which includes the hang power clean (HPC), power clean (PC) and clean. A total of 26 articles met the inclusion criteria with 53.9% using the GRF, 38.5% combined, and 30.8% the kinematic method. Articles were evaluated and descriptively analysed to enable comparison between methods. The three methods have inherent methodological differences in the data analysis and measurement systems, which suggests that these methods should not be used interchangeably to assess PPO in Watts during weightlifting exercises. In addition, this review provides evidence and rationale for the use of the GRF to assess power production applied to the system mass while the kinematic method may be more appropriate when looking to assess only the power applied to the barbell. [ABSTRACT FROM AUTHOR]

Published

2023

45. Effects of the Interference of Sensory Systems on Postural Control in Congenitally Blind Subjects.

Author

Parreira, Rodolfo Borges, Silva, Jamily Gomes da, Nascimento, Maiquilaine da Mata, Galli, Manuela, and Oliveira, Claudia Santos

Subjects

*POSTURAL muscles, *SENSE organs, *FOAM

Abstract

The postural system requires the sensory systems to maintain postural control (PC). Blind subjects use the somatosensory system to keep PC whereas sighted subjects use the visual system. So what happens to PC when challenging the sensory systems? We analyzed the center of pressure (COP) in ten blind and 10 sighted subjects under conditions: eyes open/closed (interference of visual system) and on firm/foam surfaces (interference of somatosensory system). We found that under the condition of eyes open on a firm surface, the blind subjects relied on the somatosensory system, whereas sighted subjects relied on the visual system. However, when eyes closed and on foam surface, similar behavior was found in both groups for all COP variables. In general blind subjects use their somatosensory system as the main sensory input to maintain PC. [ABSTRACT FROM AUTHOR]

Published

2023

46. Quiet standing postural control variables in subacute stroke: associations with gait and balance, falls prediction and responsiveness.

Author

Bower, Kelly J., Thilarajah, Shamala, Williams, Gavin, Pua, Yong-Hao, Tan, Dawn, and Clark, Ross A.

Subjects

*THERAPEUTICS, *REHABILITATION centers, *POSTURAL balance, *STANDING position, *GAIT in humans, *EFFECT sizes (Statistics), *MULTITRAIT multimethod techniques, *T-test (Statistics), *STROKE rehabilitation, *DIAGNOSIS, *ACCIDENTAL falls, *STROKE patients, *DESCRIPTIVE statistics, *RESEARCH funding, *PREDICTIVE validity, *VIDEO games, *DATA analysis software, *MEDICAL needs assessment, *DISCHARGE planning

Abstract

To examine the construct validity, predictive validity and responsiveness of standing centre of pressure variables in subacute stroke. Seventy-nine ambulatory individuals were assessed before inpatient rehabilitation discharge and three months later. Measures were: gait speed (6-metre walk), dynamic balance (step test), and quiet standing (Wii Balance Board). Centre of pressure speed, amplitude, standard deviation, root mean square, wavelet decomposition, and detrended fluctuation analysis were examined. Falls data were collected over a 12-month period post-discharge. Moderate strength correlations (r = −0.505 to −0.548) with gait speed and step test scores were shown for 3/26 centre of pressure variables (mediolateral speed, low and moderate frequency wavelet). Twenty-two participants fell and the prediction was significant for gait speed and step test (IQR-odds ratio (OR) = 4.00 & 3.21) and 3/26 centre of pressure variables (mediolateral low-frequency wavelet: IQR-OR = 2.71; mediolateral detrended fluctuation analysis: IQR-OR = 3.06; anteroposterior detrended fluctuation analysis: IQR-OR = 2.71). Significant changes over time occurred for gait speed and step test scores and 20/26 centre of pressure variables. Standing centre of pressure variables have limited validity to reflect dynamic balance and falls risk after stroke. Frequency and complexity measures warrant further exploration. Our findings indicate that quiet standing centre of pressure variables have limited validity to reflect dynamic balance tasks and predict falls after stroke. The mediolateral and higher frequency variables may be more strongly recommended than the commonly used total centre of pressure speed measure. Measures of signal frequency and complexity may provide insight into postural control mechanisms and how these change over time following stroke. [ABSTRACT FROM AUTHOR]

Published

2023

47. Influence of unilateral and bilateral knee extension fatigue protocols on inter-limb asymmetries assessed through countermovement jumps.

Author

Janicijevic, Danica, Gu, Yaodong, Sarabon, Nejc, Smajla, Darjan, Kozinc, Žiga, and García-Ramos, Amador

Subjects

*LEG physiology, *KNEE physiology, *RANGE of motion of joints, *MEDICAL protocols, *EXERCISE, *DESCRIPTIVE statistics, *RESEARCH funding, *EXERCISE intensity, *FATIGUE (Physiology), *JUMPING, *BIOMECHANICS, *SENSITIVITY & specificity (Statistics)

Abstract

This study explores the sensitivity of jump type (unilateral and bilateral) and output variable (mean force, propulsive impulse, and jump height) to detect the changes in inter-limb asymmetries induced by unilateral and bilateral fatigue protocols. Thirty-eight individuals performed two testing sessions that consisted of (I) nine "pre-fatigued" countermovement jumps (CMJs; three bilateral and six unilateral [three with each leg]), (II) fatigue protocol and (III) nine "post-fatigued" CMJs. The testing sessions only differed in the fatigue protocol (five sets to failure against the 15-repetition maximum load using either the unilateral or bilateral knee extension exercise). The magnitude of all CMJ-derived variables (mean force, impulse, and jump height) decreased following both unilateral (p ≤ 0.002) and bilateral fatigue protocols (p ≤ 0.018). However, only unilateral protocol accentuated inter-limb asymmetries, which was detected for all variables during the unilateral CMJ (from −4.33% to −2.04%; all p < 0.05) but not during the bilateral CMJ (from −0.64% to 0.54%; all p > 0.05). The changes in inter-limb asymmetries following the unilateral and bilateral fatigue protocols were not significantly correlated between the unilateral and bilateral CMJs (rs ≤ 0.172). The unilateral CMJ should be recommended for the testing purposes over the bilateral CMJ due to its greater sensitivity to detect the selective effects of fatigue. [ABSTRACT FROM AUTHOR]

Published

2023

48. Assessing Jump Performance: Intra- and Interday Reliability and Minimum Difference of Countermovement Jump and Drop Jump Outcomes, Kinetics, Kinematics, and Jump Strategy

Author

Jaime González-García, Manuel Conejero, and Jorge Gutiérrez-Hellín

Subjects

reliability, force platform, countermovement jump, drop jump, volleyball, CV, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Understanding the reliability of jump testing is essential to determine the neuromuscular progress of athletes and make informed decisions. This study aimed to assess the reliability of several countermovement jump (CMJ) and drop jump (DJ) test metrics in female volleyball players. Sixteen (n = 16) semi-professional female volleyball players participated in this test-retest study. Intrasession and intersession reliability of CMJ and DJ metrics were evaluated using a randomized cross-over design. A dual force platform was used to collect CMJ and DJ data, and several dependent variables were calculated using forward dynamics. Intraclass correlation coefficients (ICC), coefficients of variation (CV), and minimum difference (MD) were calculated to assess intra- and interday reliability. During the same testing, the third attempt consistently yielded the highest values for both tests in jump height but presented excellent reliability (CMJ: ICC [95%CI] = 0.97 [0.93–0.99]; CV [95%CI] = 4.1% [1.2–7.0]; MD95 = 3.5 cm; MD90 = 2.9 cm; DJ: ICC [95%CI] = 0.91 [0.77–0.97]; CV [95%CI] = 6.7% [1.9–11.5]; MD95 = 6.0 cm; MD90 = 5.0 cm). CMJ height exhibited excellent reliability between sessions (ICC [95%CI] = 0.93 [0.81–0.97]; CV [95%CI] = 3.8% [1.1–6.4]; MD95 = 3.5 cm; MD90 = 3.0 cm), whereas DJ height demonstrated slightly lower but still acceptable intersession reliability (ICC [95%CI] = 0.81 [0.55–0.93]; CV [95%CI] = 6.1% [1.7–10.4]; MD95 = 5.2 cm; MD90 = 4.4 cm). Intersession reliability for CMJ kinetics and kinematics was excellent for 13 of the 24 metrics assessed. For DJ, only concentric (ICC [95%CI] = 0.91 [0.76–0.97]; CV [95%CI] = 3.0% [0.9–5.2]; MD95 = 15 Ns; MD90 = 12.6 Ns) and eccentric impulses (ICC [95%CI] = 0.99 [0.96–0.99]; CV [95%CI] = 1.7% [0.5–2.9]; MD95 = 9.2 Ns; MD90 = 7.7 Ns) demonstrated excellent intersession reliability. Most CMJ variables showed excellent reliability within sessions, while DJ had lower reliability in most metrics. These findings provide valuable information to physical trainers to select the metrics to assess athletes’ performance as well as to identify a minimum cut-off value that serves as a reference for each of the metrics reported in both tests.

Published

2024

49. Validating Virtual Time to Contact With Home-Based Technology in Young and Older Adults.

Author

Hsieh, Katherine L., Moon, Yaejin, Ramkrishnan, Vignesh, Ratnam, Rama, and Sosnoff, Jacob J.

Subjects

BIOSENSORS, POSTURAL balance, ACCIDENTAL falls, KINEMATICS, RESEARCH evaluation, STATISTICS, DATA analysis, HOME environment, TASK performance, RECEIVER operating characteristic curves

Abstract

Virtual time to contact (VTC) is a measure of postural stability that estimates the virtual time it would take to reach an individual's stability boundary. This study aimed to validate VTC as measured by a depth sensor and determine whether VTC from the depth sensor distinguishes between older adult fallers and nonfallers compared with a force platform. VTC was assessed in 10 young and 20 older adults by having participants lean in a circular direction followed by 5 balance tests: eyes open, dual task, eyes open foam, eyes closed, and eyes closed foam. Spearman rank correlations and Bland–Altman plots were conducted to determine validity, and receiver operating characteristic curves were constructed to discriminate between fallers and nonfallers. Significant correlations were found in the dual task (P =.03), eyes open foam (P <.01), and eyes closed foam conditions (P =.05). The depth sensor discriminated between fallers and nonfallers in the eyes open (P =.02), dual task (P =.03), and eyes open foam conditions (P =.04). VTC was in agreement between the 2 devices, and VTC derived from a depth sensor can be used to discriminate between older adult fallers and nonfallers during challenging balance conditions. [ABSTRACT FROM AUTHOR]

Published

2019

50. Validity and Reliability of Kinvent Plates for Assessing Single Leg Static and Dynamic Balance in the Field.

Author

Meras Serrano, Hugo, Mottet, Denis, and Caillaud, Kevin

Subjects

*DYNAMIC balance (Mechanics), *ANKLE, *GROUND reaction forces (Biomechanics), *EQUILIBRIUM testing, *TIME pressure

Abstract

The objective of this study was to validate PLATES for assessing unipodal balance in the field, for example, to monitor ankle instabilities in athletes or patients. PLATES is a pair of lightweight, connected force platforms that measure only vertical forces. In 14 healthy women, we measured ground reaction forces during Single Leg Balance and Single Leg Landing tests, first under laboratory conditions (with PLATES and with a 6-DOF reference force platform), then during a second test session in the field (with PLATES). We found that for these simple unipodal balance tests, PLATES was reliable in the laboratory and in the field: PLATES gives results comparable with those of a reference force platform with 6-DOF for the key variables in the tests (i.e., Mean Velocity of the Center of Pressure and Time to Stabilization). We conclude that health professionals, physical trainers, and researchers can use PLATES to conduct Single Leg Balance and Single Leg Landing tests in the laboratory and in the field. [ABSTRACT FROM AUTHOR]

Published

2023