Your search keyword '"BODY movement"' showing total 663 results

1. The science of deceptive human movement.

Author

Güldenpenning, Iris, Jackson, Robin C., and Cañal-Bruland, Rouwen

Subjects

*BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *PHYSICAL activity, *HUMAN mechanics

Published

2023

2. Granger Geweke Causality reveals information exchange during physical interaction is modulated by task difficulty.

Author

Colomer, Clémentine, Dhamala, Mukesh, Ganesh, Gowrishankar, and Lagarde, Julien

Subjects

*INFORMATION sharing, *BODY movement, *COMMUNICATION, *COOPERATION, *MOTION control devices

Abstract

The haptic sense is an important mode of communication during physical interactions, and it is known to enable humans to estimate key features of their partner's behavior. It is proposed that such estimations are based upon the exchange of information mediated by the interaction forces, resulting in role distribution and coordination between partners. In the present study, we examined whether the information exchange is functionally modified to adapt to the task, or whether it is a fixed process, leaving the adaptation to individual's behaviors. We analyzed the forces during an empirical dyadic interaction task using Granger-Geweke causality analysis, which allowed us to quantify the causal influence of each individual's forces on their partner's. The dynamics of relative phase were also examined. We observed an increase of inter-partner influence with an increase in the spatial accuracy required by the task, demonstrating an adaptation of information flow to the task. This increase of exchange with the spatial accuracy constraint was accompanied by an increase of errors and of the variability of the relative phase between forces. The influence was dominated by participants in a specific role, showing a clear role division as well as task division between the dyad partners. Moreover, the influence occurred in the [2.15–7] Hz frequency band, demonstrating its importance as a frequency band of interest during cooperation involving haptic interaction. Several interpretations are introduced, ranging from sub-division of motion control to phase–amplitude coupling. [ABSTRACT FROM AUTHOR]

Published

2023

3. Trunk resistance to mechanical perturbations, associations with low back pain, pain-related cognitions and movement precision.

Author

Wildenbeest, Meta H., Kiers, Henri, Tuijt, Matthijs, Prins, Maarten R., and van Dieën, Jaap H.

Subjects

*APRAXIA, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

Pain-related cognitions are associated with motor control changes in people with chronic low-back pain (CLBP). The mechanism underlying this association is unclear. We propose that perceived threat increases muscle-spindle-reflex-gains, which reduces the effect of mechanical perturbations, and simultaneously decreases movement precision. Aim: To evaluate effects of CLBP and pain-related cognitions on the impact of mechanical perturbations on trunk movement, and associations between these perturbation effects and movement precision. 30 participants with CLBP and 30 healthy controls, performed two consecutive trials of a seated repetitive reaching task. During both trials participants were warned for mechanical perturbations, which were only administered during the second trial. The perturbation effect was characterized by the deviation of the trajectory of the T8 vertebra relative to the sacrum. Trunk movement precision was expressed as tracking error during a trunk movement target tracking task. We assessed pain-related cognitions with the task-specific 'Expected Back Strain'-scale (EBS). We used a two-way-Anova to assess the effect of Group (CLBP vs back-healthy) and dichotomized EBS (higher vs lower) on the perturbation effect, and a Pearson's correlation to assess associations between perturbation effects and movement precision. Higher EBS was associated with smaller perturbation effects (p ≤ 0.011). A negative correlation was found between the perturbation effect and the tracking error, in the higher EBS-group (r = −0.5, p = 0.013). These results demonstrate that pain-related cognitions influence trunk movement control and support the idea that more negative pain-related cognitions lead to an increased resistance against perturbations, at the expense of movement precision. • People expecting higher back strain (HBS), resist trunk perturbation more strongly. • Expected back strain, not low back pain, is associated with trunk resistance (TR). • In people expecting HBS, TR correlates negatively with movement precision (MP). • Increased muscle spindle reflex gain could cause both increased TR and decreased MP. [ABSTRACT FROM AUTHOR]

Published

2023

4. Motion sense sensitivity of the ankle is abnormal and correlated with motor performance in children with and without a probable developmental coordination disorder.

Author

Tseng, Yu-Ting, Tsai, Chia-Liang, and Chen, Fu-Chen

Subjects

*APRAXIA, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

This study systematically examined ankle motion sense sensitivity and its relation to motor functions in children with and without a probable developmental coordination disorder (pDCD). Seventy-two children aged 10–11 years were recruited, including thirty-six children with pDCD and 36 age- and sex-matched typically developing (TD) children. Children placed their dominant foot on a passive ankle motion apparatus that induced plantar flexion of the ankle under nine constant velocities ranging between 0.15 and 1.35°/s. The adjusted movement detection time (ADT) to passive ankle motion was obtained to measure ankle motion sense sensitivity. The results showed that, in comparison to that in the TD group, ankle ADT was significantly increased by 22–59% for the range of velocities in the pDCD group. A correlation analysis showed that mean ADTs were significantly correlated with the manual dexterity (r = −0.33, p = 0.005) and balance (r = −0.24, p = 0.046) scores on the Movement Assessment Battery for Children (MABC-2) in the combined group. Similar correlations were found between the ADTs and the manual dexterity (r = −0.37, p = 0.028) and total motor (r = −0.34, p = 0.047) scores in the TD group. This study documents that ankle motion sense sensitivity to passive foot motion is reduced and is likely to contribute to poor motor performance in children with and without pDCD. • Motion sense of the lower limb is altered in children with probable DCD. • Ankle motion sense sensitivity was reduced by 22–59% in children with probable DCD. • Children with probable DCD take longer times to detect passive ankle motion than TD children. • Reduced ankle motion sense sensitivity is associated with reduced motor function in children. [ABSTRACT FROM AUTHOR]

Published

2023

5. No effects of different perturbations on the performance in a mental body-rotation task (MBRT) with egocentric perspective transformations and object-based transformations.

Author

Budde, Kirsten and Weigelt, Matthias

Subjects

*PERTURBATION theory, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

The present study investigates participants' performance in two different mental body-rotation tasks (MBRTs) under conditions in which dynamic stability is challenged in two different balancing conditions: active balance control (Experiment 1), where participants actively maneuver, and re-active balance control (Experiment 2), where participants react to an external perturbation. The two MBRTs induced either an object-based spatial transformation (based on a same-different judgment) or an egocentric transformation (based on a left-right judgment). In Experiment 1, 48 participants were tested while standing on an even ground (low balancing requirements) or on a balance board (high balancing requirements). In Experiment 2, 32 participants performed while either standing still on a vibration plate or with the vibration plate moving in a low (20 Hz) or high (180 Hz) frequency. In both experiments, the results for response time and response error revealed effects of rotation angle and type of task. An effect of balancing condition was only observed for response error in Experiment 1. More precisely, response times and response errors increased for higher rotation angles. Also, performance was better for egocentric than for object-based spatial transformations. However, the different challenges to dynamic stability in Experiments 1 and 2 did not influence performance in the two MBRTs (except for response errors in Experiment 1) nor in a control condition (Experiment 1) without mental rotation. [ABSTRACT FROM AUTHOR]

Published

2023

6. Kinesthetic vs. visual focus: No evidence for effects of practice modality in representation types after action imagery practice and action execution practice.

Author

Dahm, Stephan F. and Rieger, Martina

Subjects

*MOTOR imagery (Cognition), *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

Action-imagery practice (AIP) is assumed to result in partly different action representations than action-execution practice (AEP). The present study investigated whether focusing on either kinesthetic or visual aspects of a task during practice amplifies or diminishes such differences between AIP and AEP. In ten sessions, four groups, using either AIP or AEP with either kinesthetic or visual focus, practiced a twelve-element sequence in a unimanual serial reaction time task. Tests involved the practice sequence, a mirror sequence, and a different sequence, each performed with the practice and transfer hand. In AIP and AEP, in both hands, reaction times (RTs) were shorter in the practice sequence than in the different sequence, indicating effector-independent visual-spatial sequence representations. Further, RTs were shorter in the practice hand than in the transfer hand in the practice sequence (but not in the different sequence), indicating effector-dependent representations in AEP and AIP. Although the representation types did not differ, learning effects were stronger in AEP than in AIP. Thus, although to a lower extent than in AEP, effector-dependent representations can be acquired using AIP. Contrary to the expectations, the focus manipulation did not have an impact on the acquired representation types. Hence, modality instructions in AIP may not have such a strong impact as commonly assumed, at least in implicit sequence learning. [ABSTRACT FROM AUTHOR]

Published

2023

7. Weighting of visual and auditory inputs in dancers with and without previous ankle injury.

Author

Coker, Elizabeth, Harel, Daphna, Roginska, Agnieszka, and Lubetzky, Anat V.

Subjects

*ANKLE injuries, *DANCERS, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

Elite dance requires highly controlled balance performance in dynamic visual and auditory environments characterized by the use of stage lighting and music. Perturbing visual input is known to influence balance in dancers, but the effects of sounds have not been clearly established. Ankle inversion injuries are common in dancers and may also play a role in dancers' ability to respond to sensory perturbations. The aims of this study were to identify changes in static balance in response to visual or auditory perturbation in elite collegiate dancers with and without a history of ankle injury, and to describe coupling of measurements obtained from the waist and head during balance. Thirty-seven dancers: 22 controls and 15 with a history of ankle sprain, performed single-leg balance under static and dynamic visual and auditory conditions. Dancers demonstrated increased waist sway when viewing a dynamic visual scene and when presented with moving sounds and increased head sway with dynamic visuals. These results did not vary by history of ankle sprain. While dancers appear to dampen the impact of waist sway on head motion during single leg stance, even highly trained dancers may experience challenges controlling balance under perturbing visual and auditory conditions like those present during stage performance. • Dancers increased waist sway with dynamic visuals and dynamic sounds. • Dancers increased anterior-posterior head sway with dynamic visuals. • Sensory integration did not differ with previous ankle injury. • Dancers appear able to dampen head motion during single leg stance. • Dancers show challenges to balance control under dynamic stage-like conditions. [ABSTRACT FROM AUTHOR]

Published

2023

8. Diabetic older women without peripheral neuropathy amplify body sway but are capable of improving postural stability during a saccadic gaze task.

Author

Rodrigues, Sérgio Tosi, Delacosta, Thaís Cristina, Barbieri, Fabio Augusto, Paschoalino, Gabriel Palmeira, Gotardi, Gisele Chiozi, Barela, José Angelo, Monteiro, Henrique Luís, Bosqueiro, José Roberto, and Polastri, Paula Fávaro

Subjects

*NEUROPATHY, *EYE movements, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

Diabetic older people tend to present deteriorated performance in balance and locomotion activities, even those without peripheral neuropathy. There is evidence that saccadic eye movements are used to reduce body sway in young and older healthy adults, but it has not been shown that diabetic older people preserve this visuomotor adaptation capacity. Are diabetic older women without peripheral neuropathy capable of improving postural stability during a saccadic gaze task? Seventeen type 2 diabetic older women (68.2 ± 10.7 years old) and seventeen healthy women, age-matched controls (66.0 ± 8.4 years old) voluntarily participated in the study. All participants were instructed to stand upright, barefoot, as stable as possible, for 30 s. Participants maintained their feet parallel to each other, at standard and narrow bases of support, while either fixating on a stationary target (fixation condition) or performing horizontal saccadic eye movements to follow a target (eccentricity of 11° of visual angle), which continuously disappeared and reappeared immediately on the opposite side (saccade 0.5 Hz and saccade 1.1 Hz conditions). Results indicated that the diabetic group clearly had deteriorated postural control, as shown by increased values of mean sway amplitude and mean sway velocity. However, diabetic and control groups were similarly capable of using saccadic eye movements to improve their postural stability, reducing their sway velocity compared to a gaze fixation condition. Diabetes per se (without peripheral neuropathy) amplifies postural sway of older women as compared to their healthy age-matched controls. However, diabetic older women without peripheral neuropathy are capable of improving postural stability during a saccadic gaze task. • Diabetic older women without peripheral neuropathy show amplified body sway. • Diabetes does not affect use of saccadic eye movements to improve postural stability. • Saccadic gaze tasks may support development of oculomotor training for diabetics. [ABSTRACT FROM AUTHOR]

Published

2023

9. Good times, bad times? An evaluation of event detection strategies in time to boundary postural assessments.

Author

Dames, Kevin D. and Richmond, Sutton B.

Subjects

*ADULTS, *BIOMECHANICS, *BODY movement, *PHYSICAL fitness, *HUMAN mechanics

Abstract

Time-to-boundary (TtB) is a popular balance metric that identifies minimum reaction times available to correct balance challenges during quiet standing. Minimum event criteria is a critical methodological consideration to determine physiologically relevant TtB outcomes yet selection methodology appears inconsistent and/or vaguely defined across studies. This study aimed to identify a robust, objective methodology to select meaningful TtB outcomes. Ninety-seven healthy adults stood quietly on a force platform with eyes open and feet together. Anterior-posterior (AP) and medial-lateral (ML) center-of-pressure data from 150 s were utilized to compute a TtB series. The MATLAB findpeaks function identified minima with and without a time delay following selected events and/or a vertical axis threshold. An individualized time delay excluded excessively large values that hold no clinically relevant information, and this effect was enhanced by a vertical threshold at 22 s. The absolute minimum TtB was unaffected by any findpeaks criteria. The recommendations implicated by these results will help improve clarity and consistency among TtB studies, thereby enhancing the applicability of clinical findings. • An objective algorithm excludes excessive values in the time to boundary series. • The minimum time to boundary is unaffected by event selection criteria. • Eliminating unrealistic events increases clinical applicability of time to boundary. [ABSTRACT FROM AUTHOR]

Published

2023

10. Time series modeling characterizes stride time variability to identify individuals with neurodegenerative disorders.

Author

Halkiadakis, Yannis, Davidson, Noah, and Morgan, Kristin D.

Subjects

*NEURODEGENERATION, *HUNTINGTON disease, *BIOMECHANICS, *BODY movement, *PHYSICAL fitness, *HUMAN mechanics

Abstract

The progressive death and dysfunction of neurons causes altered stride-to-stride variability in individuals with Amyotrophic Lateral Sclerosis (ALS) and Huntington's Disease (HD). Yet these altered gait dynamics can manifest differently in these populations based on how and where these neurodegenerative disorders attack the central nervous system. Time series analyses can quantify differences in stride time variability which can help contribute to the detection and identification of these disorders. Here, autoregressive modeling time series analysis was utilized to quantify differences in stride time variability amongst the Controls, the individuals with ALS, and the individuals with HD. For this study, fifteen Controls, 12 individuals with ALS and 15 individuals with HD walked up and down a hallway continuously for 5-min. Participants wore force sensitive resistors in their shoes to collect stride time data. A second order autoregressive (AR) model was fit to the time series created from the stride time data. The mean stride time and two AR model coefficients served as metrics to identify differences in stride time variability amongst the three groups. The individuals with HD walked with significantly greater stride time variability indicating a more chaotic gait while the individuals with ALS adopted more ordered, less variable stride time dynamics (p < 0.001). A plot of the stride time metrics illustrated how each group exhibited significantly different stride time dynamics. The stride time metrics successfully quantified differences in stride time variability amongst individuals with neurodegenerative disorders. This work provided valuable insight about how these neuromuscular disorders disrupt motor coordination leading to the adoption of new gait dynamics. • Gait variability differs in individuals with different neurodegenerative disorders. • Differences in stride time variability can be quantified via time series analysis. • Stride time variability was analyzed using autoregressive modeling. • Model coefficients detected gait differences amongst the two neurodegenerative groups. • Time series analysis can aid in the classification of neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published

2023

11. Biomechanical role can vary depending on the conditions of the motor task.

Author

Kimura, Arata, Nakashima, Hirotaka, and Inaba, Yuki

Subjects

*BIOMECHANICS, *BODY movement, *PHYSICAL fitness, *HUMAN mechanics, *ELECTROMYOGRAPHY

Abstract

Expert players in throwing sports may reduce the variability of projectile arrival position by systematically relating release parameters (e.g., release position, velocity, and angular velocity of the projectile). Reducing the variability of the projectile arrival position is often believed to increase the success rate of throwing task, but it may not be always true. Here, we experimentally illustrate that the systematic relationship between release parameters that reduce the variability of the ball arrival position may not increase the number of hitting trials during a throwing task. Furthermore, we demonstrate that the role of the release parameters in increasing successful trials can vary depending on the target size. Each participant threw balls at two different-sized targets (small and large target conditions). Additionally, they alternately threw balls with overhead and sidearm throwing for both the small and large targets. Our results showed that the release position and velocity in the left-right direction reduced the variability of the ball arrival position and increased the successful trials in the small target condition. In the large target condition, the two release parameters reduced the variability of the ball arrival position, but they did not increase the successful trials. Consequently, reducing the variability of the ball arrival position did not always equate to an increase in successful trials, as it depended on the target size. These findings indicate that the role of the release parameters in increasing hitting trials is not constant but varies depending on the condition of the motor task. • Reducing variability may not increase hitting trials of throwing task. • Correspondence between them depended on target size. • Role of release parameters on increasing hitting trials is not constant but varies. [ABSTRACT FROM AUTHOR]

Published

2023

12. The effects of hand dominance, fatigue, and sex on muscle activation during a repetitive overhead fatiguing task.

Author

Renda, Erika, Lamanuzzi, Samuel, Dal Maso, Fabien, and Côté, Julie N.

Subjects

*ELECTROMYOGRAPHY, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *HUMAN mechanics

Abstract

Previous studies have shown that the dominant arm is generally stronger and more resistant to fatigue. However, whether there are side differences in shoulder muscle activation during a fatiguing upper limb task, and whether this varies according to sex, is unknown. Thirty right-handed adults (15 females) were recruited to complete two sessions of an overhead repetitive fatiguing task (shoulder flexion between 90 and 135° at 1 Hz), performed in two separate sessions with their dominant arm (DA) and non-dominant arm (NDA) until exhaustion. Electromyographic (EMG) data was collected from 11 shoulder muscles of the moving arm, and their activation amplitude (RMS) and activation variability (SD) were assessed. Results show that time to exhaustion was not affected by arm or by sex. There were some main arm effects on EMG activity amplitude, with higher activity on the DA's pectoralis major (p < 0.001), and on the NDA's middle (p = 0.009) and posterior deltoid (p = 0.001) and infraspinatus (p < 0.001). The pectoralis major was affected by arm and fatigue mostly in males. Their DA's pectoralis major activity amplitude was higher, and the amplitude variability was lower, compared to the NDA, with both parameters showing fatigue-dependent decreases at the NDA only (arm x sex x fatigue: RMS: p = 0.007; SD: p = 0.001). As for females, the DA variability of their lower trapezius was smaller, and that of their subscapularis was higher, compared to the NDA (sex x arm, p = 0.028, p = 0.05). There was also more EMG variability on the supraspinatus' dominant side, and on the posterior deltoid and infraspinatus ND side. Results show an overhead shoulder flexion task dependency on pectoralis major control in males, and on lower trapezius and shoulder girdle stabilizers in females, which could be related to both sex- and gender-based factors. This knowledge can help identify side-specific injury risk factors due to overhead work in males and females, and help determine the appropriateness of implementing sex-specific workplace protocols, including alternating arms as fatigue compensatory and recovery strategies. • We compared activation patterns of the dominant and non-dominant arm during an overhead fatiguing shoulder task. • The activation of the task agonist muscle (i.e. deltoid) was not affected by hand dominance. • The pectoralis major was the muscle most affected by arm, sex and fatigue. • Females showed fewer effects of hand dominance. • Results can help determine the appropriateness of alternating arm use at work. [ABSTRACT FROM AUTHOR]

Published

2023

13. Phasic and tonic muscle synergies are different in number, structure and sparseness.

Author

Brambilla, Cristina, Russo, Marta, d'Avella, Andrea, and Scano, Alessandro

Subjects

*ELECTROMYOGRAPHY, *BODY movement, *BIOMECHANICS, *PHYSICAL fitness, *PHYSICAL activity, *HUMAN mechanics

Abstract

In the last two decades, muscle synergies analysis has been commonly used to assess the neurophysiological mechanisms underlying human motor control. Several synergy models and algorithms have been employed for processing the electromyographic (EMG) signal, and it has been shown that the coordination of motor control is characterized by the presence of phasic (movement-related) and tonic (anti-gravity and related to co-contraction) EMG components. Neural substrates indicate that phasic and tonic components have non-homogeneous origin; however, it is still unclear if these components are generated by the same set of synergies or by distinct synergies. This study aims at testing whether phasic and tonic components are generated by distinct phasic and tonic synergies or by the same set of synergies with phasic and tonic activation coefficients. The study also aims at characterizing the differences between the phasic and the tonic synergies. Using a comprehensive mapping of upper-limb point-to-point movements, synergies were extracted from phasic and tonic EMG signal separately, estimating the tonic components with a linear ramp model. The goodness of reconstruction (R2) as a function of the number of synergies was compared, and sets of synergies extracted from each dataset at three R2 threshold levels (0.80, 0.85, 0.90) were retained for further analysis. Then, shared, phasic-specific, and tonic-specific synergies were extracted from the two datasets concatenated. The dimensionality of the synergies shared between the phasic and the tonic datasets was estimated with a bootstrap procedure based on the evaluation of the distribution of principal angles between the subspaces spanned by phasic and tonic synergies due to noise. We found only few shared synergies, indicating that phasic and tonic synergies have in general different structures. To compare consistent differences in synergy composition, shared, phasic-specific, and tonic-specific synergies were clustered separately. Phasic-specific clusters were more numerous than tonic-specific ones, suggesting that they were more differentiated among subjects. The structure of phasic clusters and the higher sparseness indicated that phasic synergies capture specific muscle activation patterns related to the movement while tonic synergies show co-contraction of multiple muscles for joint stabilization and holding postures. These results suggest that in many scenarios phasic and tonic synergies should be extracted separately, especially when performing muscle synergy analysis in patients with abnormal tonic activity and for tuning devices with gravity support. • EMG signal is composed of phasic (movement related) and tonic (postural) components. • Phasic and tonic muscle synergies are extracted from EMG of upper limb movements. • Phasic and tonic EMG components are generated by specific synergies. • Phasic and tonic-specific synergies have different structures and sparseness. • The results suggest that phasic and tonic synergies should be extracted separately. [ABSTRACT FROM AUTHOR]

Published

2023

14. Cyclic relationship of mechanical likelihood: Coupling perception-action states in extended haptic accuracy.

Author

Park, Chulwook

Subjects

*BODY movement, *MAXIMUM likelihood statistics, *DIFFERENTIAL equations, *BIOMECHANICS, *PHYSICAL fitness, *PHYSICAL activity

Abstract

The present study investigates the dynamic nature of haptic accuracy in racket sports, specifically focusing on self-produced movements in participants with different skill levels (novice vs. expert). The study examines performance accuracy using indicators such as absolute error size and the coefficient of restitution as measures of haptic accuracy. To collect and analyze the data, custom-made devices, including shock and vibration sensors and Qualisys Track Manager, were used. The results indicate that skilled participants demonstrated higher accuracy, reflected by smaller absolute error sizes, and exhibited reduced variability in impulse vibration during self-produced movements. Moreover, employing maximum likelihood estimation and differential equations, we reveal cyclic relationships among these mechanical features. These findings provide valuable insights into perception-action coupling within different haptic skill levels, contributing to a comprehensive understanding of expertise in racket sports. By shedding light on the intricate relationship between haptic accuracy and performance, this research offers a valuable framework for studying perception-action coupling in racket sports and can potentially guide future investigations. [ABSTRACT FROM AUTHOR]

Published

2023

15. Single leg landing movement differences between male and female badminton players after overhead stroke in the backhand-side court.

Author

Zhao, Xiaoxue and Gu, Yaodong

Subjects

*BODY movement, *BADMINTON players, *ANTERIOR cruciate ligament, *GROUND reaction forces (Biomechanics), *DORSIFLEXION

Abstract

Females showed higher anterior cruciate ligament (ACL) injuries rate on the opposite side of dominant hand compared with males during single leg landing in the backhand-side court after overhead stroke. The purpose of this study was to conduct biomechanics testing including kinematics and kinetics to provide some insights on the ACL injuries risks during single leg landing in the backhand-side court after overhead stroke between females and males. Twenty collegiate badminton players (10 females, 10 males) voluntarily participated in this study. Sagittal plane kinematic and kinetic data of the lower limb, and their ground reaction forces during the single leg landing in the backhand-side court after overhead stroke were collected. Results shown that, at the peak posterior ground reaction force (GRF) moment, the ankle dorsiflexion, knee and hip flexion angles of the female were lower than that of male. Meantime, the knee extension moment of the female was lower than that of males but the hip extension moment of the female was larger compared to males at the peak posterior GRF moment. The peak vertical and posterior GRF of female badminton players were larger than that of males. Decreased hip, knee, and ankle flexion angles at the peak posterior GRF moment and greater peak vertical and posterior GRF may expose female badminton players to the higher risk ACL injuries compared to males during single leg landing after overhead stroke in the backcourt-side. Preventative training programs designed to prevent the ACL injuries rate of female badminton players should take these factors into consideration. [ABSTRACT FROM AUTHOR]

Published

2019

16. 3D feedback and observation for motor learning: Application to the roundoff movement in gymnastics.

Author

Le Naour, Thibaut, Ré, Chiara, and Bresciani, Jean-Pierre

Subjects

*MOTOR learning, *GYMNASTICS, *BODY movement, *ISOTONIC exercise, *EXECUTIVE function, *HUMAN kinematics

Abstract

In this paper, we assessed the efficacy of different types of visual information for improving the execution of the roundoff movement in gymnastics. Specifically, two types of 3D feedback were compared to a 3D visualization only displaying the movement of the expert (observation) as well as to a more 'traditional' video observation. The improvement in movement execution was measured using different methods, namely subjective evaluations performed by official judges, and more 'quantitative appraisals based on time series analyses. Video demonstration providing information about the expert and 3D feedback (i.e., using 3D representation of the movement in monoscopic vision) combining information about the movement of the expert and the movement of the learner were the two types of feedback giving rise to the best improvement of movement execution, as subjectively evaluated by judges. Much less conclusive results were obtained when assessing movement execution using quantification methods based on time series analysis. Correlation analyses showed that the subjective evaluation performed by the judges can hardly be predicted/ explained by the 'more objective' results of time series analyses. [ABSTRACT FROM AUTHOR]

Published

2019

17. Joint range of motion entropy changes in response to load carriage in military personnel.

Author

Morrison, A., Hale, J., and Brown, S.

Subjects

*RANGE of motion of joints, *BODY movement, *ENTROPY, *HEALTH of military personnel, *GAIT in humans, *HUMAN kinematics

Abstract

• Addition of load decreases spinal side bend range of motion while increasing entropy. • However, hip flexion range of motion increases and entropy decreases. • Entropy compensation may propagate at a joint level. Overuse accounts for 82% of injuries in military personnel, and these occur predominantly in the spine and lower limbs. While non-linear analyses have shown changes in overall stability of the movement during load carriage, individual joint contributions have not been studied. The concept of entropy compensation between task, organism and environmental constraints is studied at a joint level. The aim of this study was to investigate whether using different methods of loading by military personnel would have an effect on the sample entropy of the joint ranges of motion. Eleven male reserve infantry army soldiers (age: 22 ± 2 years; height: 1.80 ± 0.06 m; mass: 89.3 ± 14.4 kg) walked an outdoor, 800 m course under 5 load conditions: unloaded, 15 kg backpack, 25 kg backpack, 15 kg webbing and backpack and 25 kg webbing and backpack. Kinematic data was recorded at 240 Hz using the Xsens motion capture system. The ranges of motion (ROM) of the spine, hips and knee were calculated for each gait cycle. Mean ROM, coefficient of variation (CV) of the ROM and the sample entropy of the ROM were compared between conditions. Spine side flexion ROM decreased significantly from the control condition in all loaded conditions, while sample entropy of the spine side flexion ROM increased in some conditions with no significant change in CV. Conversely, the hip flexion ROM increased significantly from the control, while sample entropy of the hip flexion ROM decreased. These results suggest that entropy compensation may propagate at a joint level. Understanding that a decrease in certainty with which a joint angle is selected, may be accompanied by an increase at a neighbouring joint. This could be significant in monitoring injuries as a result of environmental or task constraints. [ABSTRACT FROM AUTHOR]

Published

2019

18. Are there attentional demands associated with haptic modalities while walking in young, healthy adults?

Author

Awdhan, Aaron P., Bone, Mackenzie D., Lanovaz, Joel L., Moraes, Renato, and Oates, Alison R.

Subjects

*REACTION time, *POSTURAL balance, *BODY movement, *DYNAMIC stability, *PHYSIOLOGICAL aspects of walking

Abstract

• Use of haptic anchors and light touch on a railing require attentional resources. • Walking stability declines when a VRT task is performed while using a haptic tool. • Attentional demands for light touch on a railing are greater than haptic anchors. A prospective, observational study. To assess the attentional demands of using haptic modalities during walking using a multi-task paradigm in young, healthy adults. Biomechanics of Balance and Movement (BBAM) Lab, University of Saskatchewan. Twenty-two (12 male) young, healthy adults performed walking trials with and without a verbal reaction time (VRT) task, as well as with and without the use of haptic anchors and light touch on a railing. Walking performance was evaluated using normalized stride velocity and step width, and dynamic stability was evaluated using step width variability and medial-lateral margin of stability (ML MOS) and its variability. There were no significant differences in VRT when walking with and without added haptic input and no interactions between the added VRT task and added haptic input. Step width increased and variability of the ML MOS increased during trials with the VRT task compared to trials without the VRT task. The ML MOS decreased when using both haptic tools with a greater decrease when using light touch on the railing compared to when using the haptic anchors. Normalized stride velocity and step width decreased when using light touch on the railing only. Both haptic tools affected stability during walking. Using the railing to add haptic input had a greater effect on walking stability and was the only haptic tool to affect walking performance. Attentional demands should be considered in future research and applications of adding haptic input during walking. [ABSTRACT FROM AUTHOR]

Published

2019

19. Complexity matching and coordination in individual and dyadic performance.

Author

Schloesser, Daniel S., Kello, Christopher T., and Marmelat, Vivien

Subjects

*DYADIC communication, *MOTOR ability, *INFORMATION sharing, *PERCEPTUAL-motor processes, *BODY movement, *PHYSIOLOGICAL control systems

Abstract

Complexity matching is a measure of coordination based on information exchange between complex networks. To date, studies have focused mainly on interpersonal coordination, but complexity matching may generalize to interacting networks within individuals. The present study examined complexity matching in a double, coordinated Fitts' perceptual-motor task with comparable individual and dyadic conditions. Participants alternated touching targets with their left and right hands in the individual condition, or analogously with the left hand of one partner and the right hand of another in the dyadic condition. In Experiment 1, response coupling was manipulated by making targets drift either randomly or contingently based on prior responses. Here, drift refers to the variability in the target movements between response locations. Long-range correlations in time series of inter-response intervals exhibited complexity matching between the left and right hands of dyads and individuals. Response coupling was necessary for complexity matching in dyads but not individuals. When response coupling was absent in the dyadic condition, the degree of complexity matching was significantly reduced. Experiment 2 showed that the effect of coupling was due to interactions between left and right responses. Results also showed a weak, negative relationship between complexity matching and performance as measured by total response time. In conclusion, principles and measures of complexity matching apply similarly within and between individuals, and perceptual-motor performance can be facilitated by loose response coupling. [ABSTRACT FROM AUTHOR]

Published

2019

20. Effect of mental calculus on the performance of complex movements.

Author

Khayat, Joy, Champely, Stéphane, Diab, Ahmad, Rifai Sarraj, Ahmad, and Fargier, Patrick

Subjects

*MENTAL arithmetic, *BRAIN imaging, *PREMOTOR cortex, *COGNITIVE ability, *BODY movement

Published

2019

21. The effects of instructional cues on performance and mechanics during a gross motor movement.

Author

Raisbeck, Louisa D. and Yamada, Masa

Subjects

*GROSS motor ability, *HUMAN mechanics, *MOTOR learning, *RANGE of motion of joints, *BODY movement

Abstract

• External focus for mechanics improved landing quality. • External focus instructions specific to performance resulted in better performance. • External focus instructions for performance did not hinder mechanics. Externally focused instructions specific to performance have shown to improve body mechanics (Gokeler et al., 2015; Welling, Benjaminse, Gokeler, & Otten, 2016). However, the effect of using an external focus instruction may have been more profound if the content of the instruction had been relevant to mechanics. Therefore, the present study examined the effects of externally focused instructions specific to performance and externally focused instructions specific to body mechanics on mechanics and performance. Twenty-four adults (n = 12 males; n = 12 females) performed a series of drop jumps following external focus cues that were specific to performance and landing mechanics. Participants completed a drop jump followed by a maximal effort vertical jump. The initial contact, maximal angle, and range of motion at the knee in the sagittal and frontal plane motion were measured for mechanics and the height of the second vertical jump was measured for performance. The results suggest external focus instructions specific to performance are beneficial for performance, but not for improving landing mechanics. This suggests that external focus instructions must be specific to the contents of the instruction. [ABSTRACT FROM AUTHOR]

Published

2019

22. Dissociative effects of normative feedback on motor automaticity and motor accuracy in learning an arm movement sequence.

Author

Zobe, Christina, Krause, Daniel, and Blischke, Klaus

Subjects

*MOTOR learning, *PSYCHOLOGICAL feedback, *BODY movement, *AUTOMATICITY (Learning process), *PHYSICAL education

Abstract

• Normative negative feedback is compared to normative positive feedback. • Feedback valence is supposed to induce attentional control processes. • Automaticity is tested in a secondary-task paradigm in a pre- and a retention test. • Motor automatization is facilitated by normative positive feedback. • Motor accuracy is facilitated by normative negative feedback. Within a pre-post-design, we scrutinized the effects of normative augmented feedback with positive and negative valence on learning motor accuracy, consistency as well as automaticity by means of a dual-task paradigm. Forty-two healthy physical education students were instructed to produce an arm-movement sequence as precisely as possible with regard to three spatial reversal points within a time limit of 1200 ms. Twenty-eight practiced an elbow-extension-flexion-sequence (690 trials) and 14 participants were tested as a control group without feedback practice. Valence of normative feedback was systematically manipulated by means of reference lines in a visual feedback display. The reference lines indicated performance of a putative peer-group either to be superior (negative valence, Normative-Negative-Group) or inferior (positive valence, Normative-Positive-Group) to participants' actual performance. As a result, dual-task costs (n-back error) significantly decreased solely in the Normative-Positive-Group , p =.003, η2 p =.51, but in no other group. Surprisingly, the mean absolute error for the motor task significantly decreased (i.e., precision increased) only in the Normative-Negative-Group with a large effect size, but in none of the other groups. Motor consistency was not significantly affected by the valence of normative feedback. According to the hypotheses of error-provoked attentional control, positive feedback-valence appears to enhance skill automatization, while – unexpectedly – only negative feedback-valence seems to enhance movement precision, which may be explained by effects of feedback valence on the learners aspiration level. [ABSTRACT FROM AUTHOR]

Published

2019

23. Central fatigue mechanisms are responsible for decreases in hand proprioceptive acuity following shoulder muscle fatigue.

Author

Sadler, Christin M. and Cressman, Erin K.

Subjects

*PROPRIOCEPTION, *MUSCLE fatigue, *MOTOR learning, *PHYSIOLOGICAL control systems, *BODY movement

Abstract

• Hand proprioceptive acuity assessed passively following shoulder muscle fatigue. • Proprioceptive acuity of both hands decreased after the right shoulder was fatigued. • Variability of proprioceptive estimates was not affected by shoulder muscle fatigue. • Central fatigue mechanisms drive proprioceptive changes in the distal limb. Muscle fatigue is a complex phenomenon, consisting of central and peripheral mechanisms which contribute to local and systemic changes in motor performance. In particular, it has been demonstrated that afferent processing in the fatigued muscle (e.g., shoulder), as well as in surrounding or distal muscles (e.g., hand) can be altered by fatigue. Currently, it is unclear how proximal muscle fatigue affects proprioceptive acuity of the distal limb. The purpose of the present study was to assess the effects of shoulder muscle fatigue on participants' ability to judge the location of their hand using only proprioceptive cues. Participants' (N = 16) limbs were moved outwards by a robot manipulandum and they were instructed to estimate the position of their hand relative to one of four visual reference targets (two near, two far). This estimation task was completed before and after a repetitive pointing task was performed to fatigue the shoulder muscles. To assess central versus peripheral effects of fatigue on the distal limb, the right shoulder was fatigued and proprioceptive acuity of the left and right hands were tested. Results showed that there was a significant decrease in the accuracy of proprioceptive estimates for both hands after the right shoulder was fatigued, with no change in the precision of proprioceptive estimates. A control experiment (N = 8), in which participants completed the proprioceptive estimation task before and after a period of quiet sitting, ruled out the possibility that the bilateral changes in proprioceptive accuracy were due to a practice effect. Together, these results indicate that shoulder muscle fatigue decreases proprioceptive acuity in both hands, suggesting that central fatigue mechanisms are primarily responsible for changes in afferent feedback processing of the distal upper limb. [ABSTRACT FROM AUTHOR]

Published

2019

24. Ipsilateral eye contributions to online visuomotor control of right upper-limb movements.

Author

Loria, Tristan, Manzone, Damian, Crainic, Valentin, and Tremblay, Luc

Subjects

*VISUOMOTOR coordination, *BODY movement, *NEUROPHYSIOLOGIC monitoring, *NEUROPHYSIOLOGY, *MOTOR learning

Abstract

• Vision from the ipsilateral eye yields more robust corrections to target jumps. • Such a pattern only emerged when the limb originated from right, ipsilateral space. • The frequent use of the ipsilateral eye and limb may account for this advantage. A limb's initial position is often biased to the right of the midline during activities of daily living. Given this specific initial limb position, visual cues of the limb become first available to the ipsilateral eye relative to the contralateral eye. The current study investigated online control of the dominant limb as a function of having visual cues available to the ipsilateral or contralateral eye, in relation to the initial start position of the limb. Participants began each trial with their right limb on a home position to the left or right of the midline. After movement onset, a brief visual sample was provided to the ipsilateral or contralateral eye. On one third of the trials, an imperceptible 3 cm target jump was introduced. If visual information from the eye ipsilateral to the limb is preferentially used to control ongoing movements of the dominant limb, corrections for the target jump should be observed when movements began from the right of the body's midline and vision was available to the ipsilateral eye. As expected, limb trajectory corrections for the target jump were only observed when participants started from the right home position and visual information was provided to the ipsilateral eye. We purport that such visuomotor asymmetry specialization emerges via neurophysiological developments, which may arise from naturalistic and probabilistic limb trajectory asymmetries. [ABSTRACT FROM AUTHOR]

Published

2019

25. Absence of differences in the learning rate of a speed–accuracy movement task between women patients with mild and major depression and healthy adult women.

Author

Mickeviciene, Dalia, Leleikiene, Aiste, Valanciene, Dovile, Vizbaraite, Daiva, Brazaitis, Marius, and Skurvydas, Albertas

Subjects

*DEPRESSION in women, *MOTOR learning, *REACTION time, *BODY movement, *HUMAN kinematics

Abstract

This study tested the hypothesis that women patients with depression should perform movements more slowly and with greater variability, and their learning rate should be lower compared with age-matched healthy adult women. Three groups of adult women subjects (aged 33–37 years, women patients with mild and major depression and healthy adult women, n = 20 in each group) performed five series (20 repetitions in each series) of a speed–accuracy hand-movement task (SAT). The mean movement speed (V a) of the SAT was lower and more stable (the coefficient of variation of V a was lower) in women patients with major depression compared with those with minor depression and healthy adult women during the first series of the SAT. Only the V a and movement accuracy (path of movement, S) of the SAT varied significantly in the five learning series regardless of the subject group (healthy women subjects and women patients with minor and major depression). The intraindividual variability of reaction time, V a , maximal movement velocity to the target (tV max), time to tV max , and S did not change significantly in any of the groups. Our research data showed that although women patients with depression performed speed–accuracy movements more slowly, the stability of the performance of their movements and their learning rate did not differ from those of age-matched healthy adult women. [ABSTRACT FROM AUTHOR]

Published

2019

26. Effects of foot progression angle adjustment on external knee adduction moment and knee adduction angular impulse during stair ascent and descent.

Author

Wang, Sizhong, Chan, Kitty H.C., Lam, Rachel H.M., Yuen, Daisy N.S., Fan, Carmen K.M., Chu, Thomas T.C., Baur, Heiner, and Cheung, Roy T.H.

Subjects

*ADDUCTION, *GAIT in humans, *STAIR climbing, *HUMAN kinematics, *BODY movement, *FOOT physiology, *KNEE physiology, *PHYSIOLOGICAL adaptation, *ANALYSIS of variance, *DYNAMICS, *EXPERIMENTAL design, *KINEMATICS, *POSTURE, *WALKING, *PHYSIOLOGY

Abstract

Foot progression angle adjustment was shown to reduce external knee adduction moment (EKAM) and knee adduction angular impulse (KAAI) during level ground walking. However, evidence on effects of foot progression angle adjustment on the above surrogate measures of medial knee loading during stair climbing is limited. Hence, this study examined the effects of toe-in and toe-out gait on EKAM and KAAI during stair ascent and descent. Kinematic and kinetic data were collected from thirty-two healthy adults during stair ascent and descent with toe-in, toe-out and natural gait. A repeated measures ANOVA indicated that toe-in gait significantly reduced the first EKAM peak (P < 0.001) and KAAI (P = 0.002), while toe-out gait significantly increased the first (P < 0.001) and second (P = 0.04) EKAM peaks and KAAI (P < 0.001) when compared with natural gait during stair ascent. During stair descent, toe-in gait significantly reduced the first (P < 0.001) and second (P = 0.032) EKAM peaks and KAAI (P < 0.001), whilst toe-out gait significantly increased the first EKAM peak (P = 0.022) and KAAI (P = 0.028) when compared with natural gait. In conclusion, toe-in gait was found to be a viable strategy in reducing medial knee loading during stair climbing. [ABSTRACT FROM AUTHOR]

Published

2019

27. An examination of muscle force control in individuals with a functionally unstable ankle.

Author

Yen, Sheng-Che, Chui, Kevin K., Wang, Ying-Chih, Corkery, Marie B., Nabian, Mohsen, and Farjadian, Amir Bahador

Subjects

*ANKLE injuries, *MUSCULAR sense, *MOTOR ability, *CONTROL groups, *SENSORY perception, *ANKLE physiology, *SKELETAL muscle physiology, *ANKLE, *COMPARATIVE studies, *JOINT hypermobility, *KINEMATICS, *RESEARCH methodology, *MEDICAL cooperation, *MUSCLE strength, *RESEARCH, *EVALUATION research, *BODY movement, *RANDOMIZED controlled trials, *PHYSIOLOGY

Abstract

Previous studies suggest that functional ankle instability (FAI) may be associated with deficits in the ability to sense muscle forces. We tested individuals with FAI to determine if they have reduced ability to control ankle muscle forces, which is a function of force sense. Our test was performed isometrically to minimize the involvement of joint position sense and kinesthesia. A FAI group and a control group were recruited to perform an ankle force control task using a platform-based ankle robot. They were asked to move a cursor to hit 24 targets as accurately and as fast as possible in a virtual maze. The cursor movement was based on the direction and magnitude of the forces applied to the robot. Participants underwent three conditions: pre-test (baseline), practice (skill acquisition), and post-test (post skill acquisition). The force control ability was quantified based on the accuracy performance during the task. The accuracy performance was negatively associated with the collision count of the cursor with the maze wall. The FAI group showed reduced ability to control ankle muscle forces compared to the control group in the pre-test condition, but the difference became non-significant in the post-test condition after practice. The change in performance before and after practice may be due to different degrees of reliance on force sense. [ABSTRACT FROM AUTHOR]

Published

2019

28. Anticipatory postural adjustments during a Fitts' task: Comparing young versus older adults and the effects of different foci of attention.

Author

Aloraini, Saleh M., Glazebrook, Cheryl M., Sibley, Kathryn M., Singer, Jonathan, and Passmore, Steven

Subjects

*ATTENTION, *POSTURAL balance, *MOTOR ability, *HUMAN kinematics, *MOTION capture (Human mechanics), *COMPARATIVE studies, *ELECTROMYOGRAPHY, *KINEMATICS, *RESEARCH methodology, *MEDICAL cooperation, *PSYCHOLOGY of movement, *RESEARCH, *TIME, *EVALUATION research, *BODY movement

Abstract

Anticipatory postural adjustments (APAs) are an integral part of standing balance. Previous research with balance control has shown that adopting an external focus of attention, compared to an internal focus of attention, yields better performance during motor skills. Despite the importance of APAs, especially among older adults, and the potential benefits of adopting an external focus of attention, studies investigating methods for improving APAs are limited. The aim of this study was to compare behavioral, kinematic and APAs measures while adopting different foci of attention among young and older adults when performing a lower extremity Fitts' task. Ten young adults (mean age 24 years ± 4.37) and ten older adults (mean age 75 years ± 5.85) performed a lower-extremity reaching task (Fitts' task) while adopting an external focus (focus on target) and an internal focus (focus on limb) in a within-subject design. A motion capture system was used to record participants' movement data. Custom software derived movement time (MT), peak velocity (PV), time to peak velocity (ttPV) and variability at target (SDT). Electromyography (EMG) was used to determine APAs onset and magnitude. The findings showed that an external focus of attention led to significantly shorter MT, higher PV, shorter ttPV and more accuracy when reaching the target (SDT) for both age groups. Also, EMG results showed that, with an external focus, APAs onset occurred earlier and APAs magnitude was more efficient. As predicted by Fitts' Law, participants spent more time executing movements to targets with higher indices of difficulty. Older adults compared to young adults were more adversely affected by the increase of difficulty of the Fitts' task, specifically, on measures of APAs. In conclusion, adopting an external focus of attention led to better overall movement performance when performing a lower extremity Fitts' task. The task used in the present study can distinguish between APAs for older and young adults. We recommend that future studies expand on our findings in order to establish a performance-based objective measure of APAs to assess clinical interventions for postural control impairment. [ABSTRACT FROM AUTHOR]

Published

2019

29. Practice variability promotes an external focus of attention and enhances motor skill learning.

Author

Chua, Lee-Kuen, Dimapilis, Maria Katrina, Iwatsuki, Takehiro, Abdollahipour, Reza, Lewthwaite, Rebecca, and Wulf, Gabriele

Subjects

*ATTENTION, *MOTOR ability, *BODY movement, *COGNITIVE interference, *THROWING (Sports), *COGNITION, *GOLF, *LEARNING, *POSTURE, *PROMPTS (Psychology)

Abstract

Variability in practice has been shown to enhance motor skill learning. Benefits of practice variability have been attributed to motor schema formation (variable versus constant practice), or more effortful information processing (random versus blocked practice). We hypothesized that, among other mechanisms, greater practice variability might promote an external focus of attention on the intended movement effect, while less variability would be more conducive to a less effective internal focus on body movements. In Experiment 1, the learning of a throwing task was enhanced by variable versus constant practice, and variable group participants reported focusing more on the distance to the target (external focus), while constant group participants focused more on their posture (internal focus). In Experiment 2, golf putting was learned more effectively with a random compared with a blocked practice schedule. Furthermore, random group learners reported using a more effective distal external focus (i.e., distance to the target) to a greater extent, whereas blocked group participants used a less effective proximal focus (i.e., putter) more often. While attentional focus was assessed through questionnaires in the first two experiments, learners in Experiment 3 were asked to report their current attentional focus at any time during practice. Again, the learning of a throwing task was more effective after random relative to blocked practice. Also, random practice learners reported using more external focus cues, while in blocked practice participants used more internal focus cues. The findings suggest that the attentional foci induced by different practice schedules might be at least partially responsible for the learning differences. [ABSTRACT FROM AUTHOR]

Published

2019

30. Task specificity and the timing of discrete aiming movements.

Author

Hsieh, Tsung-Yu, Liu, Yeou-Teh, and Newell, Karl M.

Subjects

*HUMAN mechanics, *HUMAN kinematics, *TRAJECTORIES (Mechanics), *MOTOR ability, *ACCELERATION (Mechanics), *ANALYSIS of variance, *PHYSIOLOGICAL control systems, *KINEMATICS, *PSYCHOLOGY of movement, *SPATIAL behavior, *TIME, *BODY movement, *HUMAN research subjects

Abstract

In discrete aiming movements the task criteria of time-minimization to a spatial target (e.g., Fitts, 1954) and time-matching to a spatial-temporal goal (e.g., Schmidt et al., 1979) tend to produce different functions of the speed-accuracy trade-off. Here we examined whether the task-related movement speed-accuracy characteristics were due to differential space-time trade-offs in time-matching, velocity-matching and time-minimizing task goals. Twenty participants performed 100 aiming trials for each of 15 combinations of task-type (3) and space-time condition (5). The prevalence of the primary types of sub-movement (none, pre-peak, post-peak, undershooting and overshooting) was determined from the kinematics of the movement trajectory. There were comparable distributions of trajectory sub-movement profiles and space-time movement outcomes across the three tasks at the short movement duration that became increasingly dissimilar over decreasing movement velocity and increasing movement time conditions. Movement time was the most influential variable in mediating sub-movement characteristics and the spatial/temporal outcome accuracy and variability of discrete aiming tasks - a role that was magnified in the explicit task demands of time-matching. The time-matching and time-minimization task goals in discrete aiming induce qualitatively different control processes that progressively contribute beyond the minimal time conditions to task-specific space-time accuracy and variability characteristics of the respective movement speed-accuracy functions. [ABSTRACT FROM AUTHOR]

Published

2019

31. Does limiting pre-movement time during practice eliminate the benefit of practicing while expecting to teach?

Author

Daou, Marcos, Rhoads, Jence A., Jacobs, Taylor, Lohse, Keith R., and Miller, Matthew W.

Subjects

*MOTOR ability, *ELECTROENCEPHALOGRAPHY, *STATISTICAL hypothesis testing, *EXPERIMENTAL design, *HUMAN mechanics, *PSYCHOLOGY of teaching, *COMPARATIVE studies, *GOLF, *LEARNING, *RESEARCH methodology, *MEDICAL cooperation, *MOTIVATION (Psychology), *RESEARCH, *THOUGHT & thinking, *EVALUATION research, *BODY movement, *RANDOMIZED controlled trials

Abstract

Past research has revealed practicing and studying a motor skill with the expectation of teaching it to another person increases the amount of time participants spend preparing for movement during practice trials of the skill. However, it is unknown whether the increased motor preparation time explains the benefit of expecting to teach on motor learning. To address this question, we had participants practice golf putting with the expectation of teaching the skill to another participant the following day or the expectation of being tested on the skill the following day. We limited the motor preparation time for half of the participants who expected to teach and half of the participants who expected to test, and allowed the remaining participants to take as much motor preparation time as they liked. All participants were tested on their putting the next day. We predicted that participants who expected to teach would exhibit superior posttest performance, but this benefit would be exclusive to those participants who also practiced with unlimited motor preparation. Although the current data did not support this hypothesis, we also conducted an exploratory analysis in which we aggregated data from two prior experiments. This cumulative analysis suggested that expecting to teach does indeed enhance motor learning, but not through motor preparation during practice. [ABSTRACT FROM AUTHOR]

Published

2019

32. The effect of aging on termination of voluntary movement while standing: A study on community-dwelling older adults.

Author

Kasahara, Satoshi and Saito, Hiroshi

Subjects

*AGING, *OLDER people, *MOTOR ability, *ACCIDENTAL falls, *POSTURE, *AGE distribution, *POSTURAL balance, *PRESSURE, *REACTION time, *BODY movement, *RELATIVE medical risk, *INDEPENDENT living, *HUMAN research subjects

Abstract

For older adults, falls often occur when transitioning from motion to a complete stop, as the motor control required during this phase is very complex and challenging. The purpose of this study was to clarify the effect of aging on the motor control required to terminate motion. Twenty-five healthy older adults (aged >65 years) and 25 healthy young adults (20-23 years) performed a rapid stopping task while standing on a force plate. The rapid stopping task was conducted by analyzing center of pressure (COP) on the force plate during a visually guided tracking experiment. To assess the ability to terminate motion, we measured the velocity waveform for the COP, along with the reaction, propulsion, braking, and total movement times. Both the reaction and movement times of the older-adult group were significantly longer than those of the younger-adult group (all, p < 0.05). There was no significant difference between the groups in regard to the initial backward propulsion time; however, in the subsequent sequence of backward braking, forward propulsion, and backward braking, all times were longer in the older-adult group than in the younger-adult group (p < 0.05). Our results show that the series of time delays shown by older adults when initiating and terminating motion is due to not only delayed reactions but also delayed stopping. Furthermore, our findings suggest that older adults have not only a diminished propulsion ability but also a diminished braking ability. [ABSTRACT FROM AUTHOR]

Published

2019

33. Effects of scapular retraction/protraction position and scapular elevation on shoulder girdle muscle activity during glenohumeral abduction.

Author

Contemori, Samuele, Panichi, Roberto, and Biscarini, Andrea

Subjects

*SHOULDER girdle, *GLENOHUMERAL joint, *ABDUCTION (Kinesiology), *DELTOID muscles, *SCAPULA, *DELTOID muscle physiology, *SKELETAL muscle physiology, *ELECTROMYOGRAPHY, *RANGE of motion of joints, *KINEMATICS, *ROTATIONAL motion, *SHOULDER joint, *BODY movement, *PHYSIOLOGY

Abstract

According to scapulohumeral rhythm, shoulder abduction is followed through scapular upward rotation to ensure joint mobility and stability. Of interest, the shoulder abduction can be performed holding the scapula in different positions and in association with scapular elevation, with possible effects on shoulder muscle activity. Therefore, the aim of the study was to analyze the activity of relevant shoulder muscles and the activity ratios between the scapulothoracic muscles, during shoulder abduction performed in different combinations of scapular position (neutral, retracted, protracted) and scapular elevation. The electromyographic activity of middle deltoid, serratus anterior, upper, middle and lower fibers of trapezius was recorded during shoulder abduction movements executed holding the scapula in neutral, retracted and protracted position, and subsequently a shoulder elevation movement. The activation of each muscle and the scapulothoracic muscles activity ratios were determined every 15 degrees, from 15° to 120° of abduction. Scapular retraction led to higher activation of the entire trapezius muscle, whereas protraction induced higher upper trapezius, middle deltoid and serratus anterior activity, along with lower activity of middle and lower trapezius. Shoulder elevation led to higher activity of the upper trapezius and middle deltoid. Moreover, it induced lower activation of the serratus anterior and middle and lower trapezius, thus leading to high ratios between the upper trapezius and the other scapulothoracic muscles, especially between 15 and 75 degrees of abduction. This study highlights that shoulder abduction performed with scapular protraction and in combination with scapular elevation leads to increased activity of the middle deltoid and upper trapezius, resulting in imbalances between the scapulothoracic muscles that could hamper the optimal scapulohumeral rhythm. The abduction performed in the aforementioned scapular conditions also induce potential reciprocal inhibition effects between the movers and stabilizers muscles of scapula, suggesting different motor control strategies of integrating a common shoulder movement with various modification of the scapular position. [ABSTRACT FROM AUTHOR]

Published

2019

34. Shoulder kinematics and kinetics of team handball throwing: A scoping review.

Author

Skejø, Sebastian Deisting, Møller, Merete, Bencke, Jesper, and Sørensen, Henrik

Subjects

*HUMAN kinematics, *THROWING (Sports), *HANDBALL, *BIOMECHANICS, *ABDUCTION (Kinesiology), *SHOULDER physiology, *DYNAMICS, *RANGE of motion of joints, *KINEMATICS, *ROTATIONAL motion, *SHOULDER joint, *SPORTS, *SYSTEMATIC reviews, *BODY movement, *PHYSIOLOGY

Abstract

In recent years a number of studies have investigated shoulder biomechanics in handball throwing. The purpose of this scoping review is to summarize the current handball research in terms of shoulder joint kinematics and kinetics and identify gaps in the current research. Nineteen articles relevant to this topic were identified and included. The handball throw is characterized by large external shoulder rotation followed by a rapid internal rotation with minor changes in shoulder flexion and abduction. Generally timing sequence, joint angles and joint velocities were not affected by different conditions such as throwing type, arm position, ball weight and gender. However, large differences in shoulder angles and angular velocities were found between studies, which most likely are explained by methodological differences. Unfortunately, the information provided in the articles did not make it possible to transform measurements from one study to another and thereby eliminate the methodological differences. Only one study reported shoulder kinetics and found that kinetics were not affected by fatigue. This scoping review highlights the need for better descriptions of the methods used to obtain shoulder kinematics and for studies investigating shoulder kinetics in handball throwing. [ABSTRACT FROM AUTHOR]

Published

2019

35. Rowing together: Interpersonal coordination dynamics with and without mechanical coupling.

Author

Cuijpers, Laura S., Den Hartigh, Ruud J.R., Zaal, Frank T.J.M., and de Poel, Harjo J.

Subjects

*MOTOR ability, *ROWING, *DYNAMOMETER, *ROWERS, *HUMAN mechanics, *PSYCHOLOGY of athletes, *COOPERATIVENESS, *KINEMATICS, *PSYCHOLOGY of movement, *BODY movement, *ERGOMETRY

Abstract

Although most research on interpersonal coordination focuses on perceptual forms of interaction, many interpersonal actions also involve interactions of mechanical nature. We examined the effect of mechanical coupling in a rowing task from a coupled oscillator perspective: 16 pairs of rowers rowed on ergometers that were physically connected through slides (mechanical coupling condition) or on separate ergometers (no mechanical coupling condition). They rowed in two patterns (in- and antiphase) and at two movement frequencies (20 and 30 strokes per minute). Seven out of sixteen pairs showed one or more coordinative breakdowns, which only occurred in the antiphase condition. The occurrence of these breakdowns was not affected by mechanical coupling, nor by movement frequency. For the other nine pairs, variability of steady state coordination was substantially lower in the mechanical coupling condition. Together, these results show that the increase in coupling strength through mechanical coupling stabilizes coordination, even more so for antiphase coordination. [ABSTRACT FROM AUTHOR]

Published

2019

36. Evaluating movement performance: What you see isn't necessarily what you get.

Author

McAllister, Megan and Costigan, Patrick

Subjects

*BIOMECHANICS, *HUMAN kinematics, *DEGREES of freedom, *MOTION capture (Human mechanics), *ELECTROMYOGRAPHY, *KNEE physiology, *ANKLE physiology, *HIP joint physiology, *SKELETAL muscle physiology, *DYNAMICS, *RANGE of motion of joints, *KINEMATICS, *POSTURE, *BODY movement, *PHYSIOLOGY

Abstract

With the goal of reducing injury and enhancing performance, movement screening tools score an individual's movements against a standard and because it is a predictor of injury symmetry is often included in the score. Movement quality screening tools only consider kinematic asymmetry, which may underestimate the degree of asymmetry present during movement. Consider joint forces: if these forces are atypical, additional stress is created and control is reduced, which can lead to injury if the asymmetry is not addressed. The purpose of this study is to investigate movement symmetry in the kinematic, kinetic and muscle activity components of movement during a parallel squat. Thirty-four healthy individuals completed five body-weight, parallel squats. A motion capture system, two portable force plates, and electromyography (EMG) sensors recorded the squat motion, ground reaction forces and muscle activity. The variables of interest were the joint angles, joint moments, and EMG waveforms. Cross-correlations and normalized root-mean-square values were calculated for the left and right ankles, knees, and hips for each variable. A repeated-measures analysis of variance (ANOVA) tested for differences in symmetry (cross-correlation and nRMS) between the kinematic, kinetic, and muscle activity components at the ankle, knee, and hip during the squat. At all joints the kinematic component had the highest degree of symmetry, and the kinetic and muscle activity components showed poorer symmetry, with the muscle activity component being the least symmetric. The differences in symmetry between movement components suggests that movement performance evaluations should not rely exclusively on kinematics and observation to identify potential movement faults. [ABSTRACT FROM AUTHOR]

Published

2019

37. Control of oscillatory force tasks: Low-frequency oscillations in force and muscle activity.

Author

Park, Seoung Hoon, Kim, Changki, Yacoubi, Basma, and Christou, Evangelos A.

Subjects

*OSCILLATIONS, *ELECTROMYOGRAPHY, *ISOMETRIC exercise, *ABDUCTION (Kinesiology), *MOTOR neurons, *FINGER physiology, *SKELETAL muscle physiology, *BIOLOGICAL rhythms, *MUSCLE contraction, *BODY movement, *PHYSIOLOGY

Abstract

Force variability during steady force tasks is strongly related to low-frequency oscillations (<0.25 Hz) in force. However, it is unknown whether low-frequency oscillations also contribute to the variability of oscillatory force tasks. To address this, twelve healthy young participants (21.08 ± 2.99 years, 6 females) performed a sinusoidal force task at 15% MVC at two different frequencies (0.5 and 1 Hz) with isometric abduction of the index finger. We recorded the force from the index finger and surface EMG from the first dorsal interosseous muscle and quantified the following outcomes: 1) trajectory variability and accuracy; 2) power spectrum of force and EMG bursting below 2 Hz; 3) power spectrum of the interference EMG from 4 to 60 Hz. The trajectory variability and error significantly increased from 0.5 to 1 Hz task (P < 0.01). Increased force oscillations <0.25 Hz contributed to greater trajectory variability and error for both the 0.5 and 1 Hz oscillatory task (R2 > 0.33; P < 0.05). The <0.25 Hz oscillations in force were positively associated with greater power in the <0.25 Hz for EMG bursting (R2 > 0.52; P < 0.01). The modulation of the interference EMG from 35 to 60 Hz was a good predictor of the <0.25 Hz force oscillations for both the 0.5 Hz task and 1 Hz task (R2 > 0.66; P < 0.01). These results provide novel evidence that, similar to steady contractions, low-frequency oscillations of the motor neuron pool appear to be a significant mechanism that controls force during oscillatory force tasks. [ABSTRACT FROM AUTHOR]

Published

2019

38. Differences in timing and magnitude of lumbopelvic rotation during active and passive knee extension in sitting position in people with and without low back pain: A cross-sectional study.

Author

Behdarvandan, Amin, Shaterzadeh-Yazdi, Mohammad Jafar, Negahban, Hossein, and Mehravar, Mohammad

Subjects

*LUMBAR pain, *MOTION capture (Human mechanics), *HUMAN kinematics, *DISPLACEMENT (Mechanics), *QUADRICEPS muscle, *KNEE physiology, *HIP joint physiology, *BACK physiology, *SKELETAL muscle physiology, *RANGE of motion of joints, *KINEMATICS, *ROTATIONAL motion, *TORSO, *BODY movement, *CROSS-sectional method

Abstract

Repetitive lumbopelvic rotation (LPR) during active limb movements has been indicated as a factor that contributes to low back pain (LBP). Prior studies suggest that people with LBP demonstrate greater and earlier LPR during limb movements in prone. We examined timing and magnitude of LPR during sitting active knee extension in people with and without LBP. We also investigated differences of LPR during active and passive knee extension in LBP group. 38 men (mean age: 38.4)10.6) years) with chronic mechanical LBP and 38 matched healthy men (mean age: 36.6(8.4) years) were examined. Kinematic data were collected by motion capture system and analyzed using OpenSim software. The difference between the start time of knee extension and start time of LPR was calculated and was normalized to knee extension movement time. Maximum angular displacement for LPR was also calculated across time. People with LBP demonstrated earlier LPR during knee extension than healthy subjects (P < 0.01). There was, however, no difference in maximum LPR between groups. LBP group also demonstrated greater and earlier LPR during active than during passive knee extension (P < 0.01). Earlier LPR during limb movements in sitting may be related to LBP. Quadriceps muscle activity and inefficient trunk muscles activation may contribute to early LPR in LBP group. A greater understanding of the factors that may contribute to early LPR during daily activities can provide information to guide rehabilitation treatment for people with LBP. [ABSTRACT FROM AUTHOR]

Published

2019

39. The effect of using paddles on hand propulsive forces and Froude efficiency in arm-stroke-only front-crawl swimming at various velocities.

Author

Tsunokawa, Takaaki, Mankyu, Hirotoshi, Takagi, Hideki, and Ogita, Futoshi

Subjects

*STROKE, *SWIMMING, *MOTION capture (Human mechanics), *PRESSURE measurement, *SWIMMERS, *ARM physiology, *HAND physiology, *ATHLETIC equipment, *KINEMATICS, *PRESSURE, *ROTATIONAL motion, *WATER, *BODY movement

Abstract

Through pressure measurement and underwater motion capture analysis, this study aimed to elucidate the effects of hand paddles on hand propulsive forces, mechanical power, and Froude efficiency in arm-stroke-only front-crawl swimming at various velocities. Eight male swimmers swam under two conditions in randomized order, once using only their hands and once aided by hand paddles on both hands. Each participant swam 10 times a distance of 16 m in each condition, for a total of 20 trials. To elucidate the relationship between propulsive forces and swimming velocity, each participant was instructed to swim each of the two sets of 10 trials at an arbitrarily different swimming velocity. During the trials, pressure sensors and underwater motion capture cameras were used together to analyze the pressure forces acting on the hand and hand kinematics, respectively. Six pressure sensors were attached to the right hand, and pressure forces acting on the right hand were estimated by multiplying the areas with the pressure differences between the palm and dorsal side of the hand. Acting directions of pressure forces were analyzed using a normal vector perpendicular to the hand or hand paddle, calculated from coordinates obtained using underwater motion capture analysis. As a result, there were no differences in propulsive forces and mechanical power to overcome water resistance (PD) with or without hand paddles at the same swimming velocities. However, the use of hand paddles decreased stroke rate and hand velocities, so mechanical power to push the water at the hand (PK) decreased. Using hand paddles thus increased Froude efficiency (ηF). These results suggest that training load decreases when swimmers swim at the same velocities while using hand paddles. This insight could prove useful for coaches and swimmers when using hand paddles for training to help ensure that they are used in accordance with their intended training purpose. If swimmers use hand paddles increasing propulsive force or PK, they should swim at a higher swimming velocity with hand paddles than without. [ABSTRACT FROM AUTHOR]

Published

2019

40. Upright standing after stroke: How loading-unloading mechanism participates to the postural stabilization.

Author

Rougier, Patrice R. and Pérennou, Dominic

Subjects

*STROKE, *HEMIPARESIS, *MOVEMENT disorders, *POSTURE, *REHABILITATION, *ANKLE, *BODY weight, *POSTURAL balance, *PRESSURE, *BODY movement, *CASE-control method

Abstract

Postural strategies employed by hemiparetic stroke patients need to be better understood to guide rehabilitation. Of the two complementary mechanisms used to stabilize the standing posture, loading-unloading (LU) and pressure distribution (PD), it is hypothesized that the former would be predominantly used. To this aim, posturographic assessments, through a dual force-platform, were performed in 30 Hemiparetics tested 3 months after a unilateral stroke, and 30 matched healthy Controls. Original indices (from 0 to 1) were calculated to assess LU and PD contributions. The results show that along the mediolateral axis, the LU contribution was very high and similar in Hemiparetics and in Controls (0.80 ± 0.07 vs 0.76 ± 0.09 a.u; p > 0.05), indicating a predominant hip involvement. Along the anteroposterior axis, the PD contribution was very close to 1 in controls (0.96 ± 0.03 a.u.) indicating an exclusive ankle involvement. Despite a lower contribution in Hemiparetics (0.88 ± 0.11 a.u.; p < 0.01), the indices were surprisingly always above 0.5, meaning that ankle movements remain predominant for controlling postural sways along the anteroposterior axis in all patients even those with severe clinical deficits. However the PD contribution appeared larger in patients with light or moderate deficits of the sensitivity (r = -0.532; p < 0.01) or the motor command (r = -0.513; p < 0.01). These results indicate that postural stabilization of hemiparetic persons remains controlled by a PD mechanism along the anteroposterior axis, even in those combining poor distal motor command and deep sensory loss. This ankle control, piloted by the more-loaded non-paretic limb, would therefore be preferred to a hip control through lateral trunk motion. This should be considered when defining the objectives of the postural rehabilitation after stroke. [ABSTRACT FROM AUTHOR]

Published

2019

41. Synergistic influences of sensory and central stimuli on non-voluntary rhythmic arm movements.

Author

Solopova, I.A., Zhvansky, D.S., Selionov, V.A., and Ivanenko, Y.

Subjects

*HUMAN mechanics, *SENSORY stimulation, *TRANSCRANIAL magnetic stimulation, *HUMAN locomotion, *MEDIAN nerve, *ARM innervation, *ARM physiology, *SPINAL cord physiology, *ELECTRIC stimulation, *ELECTROMYOGRAPHY, *FRONTAL lobe, *VIBRATION (Mechanics), *BODY movement, *HUMAN research subjects

Abstract

In recent years, neuromodulation of the cervical spinal circuitry has become an area of interest for investigating rhythmogenesis of the human spinal cord and interaction between cervical and lumbosacral circuitries, given the involvement of rhythmic arm muscle activity in many locomotor tasks. We have previously shown that arm muscle vibrostimulation can elicit non-voluntary upper limb oscillations in unloading body conditions. Here we investigated the excitability of the cervical spinal circuitry by applying different peripheral and central stimuli in healthy humans. The rationale for applying combined stimuli is that the efficiency of only one stimulus is generally limited. We found that low-intensity electrical stimulation of the superficial arm median nerve can evoke rhythmic arm movements. Furthermore, the movements were enhanced by additional peripheral stimuli (e.g., arm muscle vibration, head turns or passive rhythmic leg movements). Finally, low-frequency transcranial magnetic stimulation of the motor cortex significantly facilitated rhythmogenesis. The findings are discussed in the general framework of a brain-spinal interface for developing adaptive central pattern generator-modulating therapies. [ABSTRACT FROM AUTHOR]

Published

2019

42. Neck posture is influenced by anticipation of stepping.

Author

Baer, Jason L., Vasavada, Anita, and Cohen, Rajal G.

Subjects

*POSTURE, *WALKING, *STROOP effect, *ATTENTION, *HUMAN mechanics, *NECK physiology, *HEAD physiology, *BEHAVIOR, *HUMAN body, *NEUROPSYCHOLOGICAL tests, *NECK muscles, *THOUGHT & thinking, *BODY movement

Abstract

Background: Postural deviations such as forward head posture (FHP) are associated with adverse health effects. The causes of these deviations are poorly understood. We hypothesized that anticipating target-directed movement could cause the head to get "ahead of" the body, interfering with optimal head/neck posture, and that the effect may be exacerbated by task difficulty and/or poor inhibitory control.Method: We assessed posture in 45 healthy young adults standing quietly and when they anticipated walking to place a tray: in a simple condition and in conditions requiring that they bend low or balance an object on the tray. We defined FHP as neck angle relative to torso; we also measured head angle relative to neck and total neck length. We assessed inhibitory control using a Go/No-Go task, Stroop task, and Mindful Attention Awareness Scale (MAAS).Results: FHP increased when participants anticipated movement, particularly for more difficult movements. Worse Stroop performance and lower MAAS scores correlated with higher FHP. False alarms on the Go/No-Go task correlated with a more extended head relative to the neck and with shortening of the neck when anticipating movement.Conclusions: Maintaining neutral posture may require inhibition of an impulse to put the head forward of the body when anticipating target-directed movement. [ABSTRACT FROM AUTHOR]

Published

2019

43. Influence of target uncertainty on reaching movements while standing in stroke.

Author

Lima, Camila Astolphi, Alouche, Sandra Regina, Baldan, Alessandra Maria Schiavinato, de Freitas, Paulo Barbosa, and Freitas, Sandra Maria Sbeghen Ferreira

Subjects

*STROKE, *HUMAN mechanics, *POSTURAL balance, *MOTOR ability, *BRAIN damage, *ARM physiology, *LEG physiology, *ANKLE physiology, *CEREBRAL dominance, *KINEMATICS, *PRESSURE, *UNCERTAINTY, *BODY movement, *PHYSIOLOGY

Abstract

Stroke individuals frequently have balance problems and impaired arm movements that affect their daily activities. We investigated the influence of target uncertainty and the side of the brain lesion on the performance of arm movements and postural adjustments during reaching in a standing position by stroke individuals. Participants stood on force plates and reached a target displayed on the center of a monitor screen under conditions differentiated by the prior knowledge of the target location at the beginning of the movement. Individuals who had a stroke in the right side of the brain performed the tasks with the ipsilesional, right upper limb while the individuals with a left stroke performed with the ipsilesional, left upper limb. Healthy individuals performed with right and left limbs, which data were later averaged for statistical analysis. Kinematic analysis of the arm and lower limb joints and displacements of the center of pressure of each lower limb were compared between target conditions and groups. Stroke individuals showed larger center of pressure displacements of the contralesional compared to the ipsilesional limb while these displacements were symmetrical between lower limbs for the healthy individuals, regardless of the target condition. The target uncertainty affected both the characteristics of the arm movements and postural adjustments before movement onset. Right stroke individuals used more ankle joint movements under the uncertain compared to the certain condition. The uncertainty in target location affects the arm reaching in upright standing, but the effects depend on the side of the brain lesion. [ABSTRACT FROM AUTHOR]

Published

2019

44. Effects of attentional focus on movement coordination complexity.

Author

Vaz, Daniela V., Avelar, Bruna S., and Resende, Renan A.

Subjects

*MOTOR ability, *ATTENTION, *BODY movement, *POSTURAL balance, *HUMAN mechanics, *COMPARATIVE studies, *EYE movements, *LEARNING, *RESEARCH methodology, *MEDICAL cooperation, *MOTION, *PSYCHOLOGY of movement, *PHYSICS, *RESEARCH, *EVALUATION research, *RANDOMIZED controlled trials

Abstract

Attentional focus affects performance and learning of motor tasks. An external attentional focus (on the effects of movement) can lead to more efficient and effective movements compared to an internal focus (on body movement itself). According to the "constrained action hypothesis", an external focus facilitates fast and reflexive movement control while an internal focus leads to disruption of automatic coordination processes. Such disruption should be apparent in the complexity of movement. In this study, multiscale entropy measures were used to investigate if the external focus is related to superior coordination complexity compared to internal focus. Twenty participants were divided in two groups that balanced over an unstable platform in fourteen trials over two days, either with internal or external focus of attention instructions, followed by seven retention trials on the third day. Multiscale entropy measures were used to quantify complexity of motions of the platform, the participant, and the composite of participant and platform motions. Results were contrary to expectations. For the external focus group, despite better overall performance, multiscale entropy values of participant and composite motions were lower in some scales compared to the internal focus group, especially in the first and last days. This may be consistent with previous findings that predictability increases during learning of a balance task. Results also indicate the need to identify the correct physiological interpretation of single or multiscale entropy measures. Further investigation is needed to establish if entropy differences are causally related to performance and learning advantages of the external focus. [ABSTRACT FROM AUTHOR]

Published

2019

45. Effect of taping and its conditions on electromyographic responses of knee extensor muscles.

Author

Watanabe, Kohei

Subjects

*TAPING & strapping, *QUADRICEPS muscle, *ELECTROMYOGRAPHY, *KINESIOLOGY, *KNEE physiology, *QUADRICEPS muscle physiology, *SKELETAL muscle physiology, *ELASTICITY, *MUSCLE contraction, *THIGH, *PRODUCT design, *BODY movement, *ATHLETIC tape, KNEE muscles

Abstract

Introduction: The present study investigated the effect of stretchable characteristics of elastic therapeutic tape and its elongation on surface electromyography (EMG) of knee extensor muscles during knee extension movements.Methods: Nine healthy men performed knee extension movement with the application of normal elastic tape or highly stretchable tape and without the tapes (control). Tapes were applied on the anterior thigh to cross the knee joint with no elongation and elongation of 50 and 75% of the maximum stretchability. Surface EMG was recorded from the vastus lateralis (VL) muscle and proximal (RFp) and distal (RFd) sites of the rectus femoris muscle.Results: Under the no-elongation conditions, decreases in the surface EMG amplitude of the VL and RFd muscles were observed with normal tape during the isometric contraction phase and with highly stretchable tape during isometric and eccentric contraction phases, compared with the control (p < 0.05). There were no significant differences in surface EMG among the different elongation conditions in any muscles (p > 0.05).Discussion: These results suggest that the stretchable characteristics of tapes change the effect of elastic tape application on neuromuscular activation of the applied muscles and these effects are not dependent on the elongation of the tape. [ABSTRACT FROM AUTHOR]

Published

2019

46. Motion planning strategies in human control of non-rigid objects with internal degrees of freedom.

Author

Svinin, Mikhail, Goncharenko, Igor, Kryssanov, Victor, and Magid, Evgeni

Subjects

*EXTENSION (Physiology), *TRAJECTORIES (Mechanics), *HAND, *HUMAN mechanics, *DYNAMICS, *HAND physiology, *ALGORITHMS, *BIOLOGICAL models, *GRIP strength, *MOTOR ability, *PSYCHOLOGY of movement, *BODY movement

Abstract

The paper deals with modeling of human-like reaching movements in dynamic environments. A simple but not trivial example of reaching in a dynamic environment is the rest-to-rest manipulation of a multi-mass flexible object with the elimination of residual vibrations. Two approaches to the prediction of reaching movements are formulated in position and force actuation settings. In the first approach, either the position of the hand or the hand force is specified by the lowest order polynomial satisfying the boundary conditions of the reaching task. The second approach is based on the minimization of either the hand jerk or the hand force-change, with taking into account the dynamics of the flexible object. To verify the resulting four mathematical models, an experiment on the manipulation of a ten-masses flexible object of low stiffness is conducted. The experimental results show that the second approach gives a significantly better prediction of human movements, with the minimum hand force-change model having a slight but consistent edge over the minimum hand jerk one. [ABSTRACT FROM AUTHOR]

Published

2019

47. Multi-person and multisensory synchronization during group dancing.

Author

Chauvigné, Léa A.S., Walton, Ashley, Richardson, Michael J., and Brown, Steven

Subjects

*DANCE, *SYNCHRONIZATION, *JOINTS (Anatomy), *TOUCH, *VISION, *HEARING, *MOTOR ability, *AUDITORY perception, *INTERPERSONAL relations, *PSYCHOLOGY of movement, *MUSIC, *PSYCHOTHERAPY, *VISUAL perception, *GROUP process, *BODY movement

Abstract

Synchronized group dancing is one of the hallmarks of both coordination and cooperation in the humans species. While a large amount of research has focused on joint action in dyads, the mechanisms of coordination in larger groups are not well understood. In the present study, we explored the coordination dynamics of a group of folk dancers by examining the influence of three sensory-coupling channels on the stability of group coordination. Using 3D motion capture, we recorded a group of 13 expert folk dancers performing to the beat of music (auditory coupling) while holding hands in a circle (haptic coupling) and seeing their fellow dancers (visual coupling). Analyses of group synchrony using cluster phase analysis demonstrated that selective elimination of any one of the three types of sensory coupling significantly reduced group synchrony, where haptic coupling had the strongest effect on movements in the horizontal plane, but also impacted the vertical axis. This study provides some of the first evidence of how sensory couplings support multi-person coordination in a large group, and in particular the effect of body contact on this coordination. [ABSTRACT FROM AUTHOR]

Published

2019

48. Specificity and variability of trunk kinematics on a mechanical horse.

Author

Goodworth, Adam D., Barrett, Cody, Rylander, Jonathan, and Garner, Brian

Subjects

*TORSO, *POSTURE, *HEAD, *HUMAN kinematics, *RIDING therapy, *PELVIC physiology, *TORSO physiology, *POSTURAL balance, *EQUESTRIANISM, *HORSES, *KINEMATICS, *RESEARCH funding, *BODY movement, *HUMAN research subjects, *PHYSIOLOGY

Abstract

As perturbation training is gaining popularity, it is important to better understand postural control during complex three-dimensional stimuli. One clinically relevant and commonly used three-dimensional stimulus is found in hippotherapy and simulated hippotherapy on a mechanical horse. We tested nine healthy participants on a horse simulator, measured head and trunk kinematics, and characterized data in time (root-mean-square and variability) and frequency (amplitude spectra, gains, and phases) domains. We addressed three fundamental questions: 1) What is the specificity of postural responses to the simulator? 2) Which plane of motion is associated with the most and least variability (repeatable movements across repeated stimuli and across participants)? 3) To what extent are postural responses influenced by different degrees of stability (addition of pelvis straps and trunk support)? We found head and trunk responses were highly specific to the three-dimensional simulator perturbation direction and frequency. Frontal plane responses had the least variability across repetitions and participants whereas transverse motion was most variable. Head motion was more variable than the trunk at low frequencies and exhibited a marked decrease in tilt in the sagittal plane. Finally, the inclusion of pelvis straps had minimal effect on kinematics at low frequencies but altered higher frequencies; whereas added trunk support reduced head and trunk responses to perturbations and altered timing characteristics in all three planes. In conclusion, the present study suggests that frontal plane motion was under a high level of control, and results support the idea that specific head and trunk postural responses can be elicited from a complex three-dimensional stimuli, such as those found in hippotherapy. Researchers and clinicians can use results from this study to help interpret variability, implement mechanical adjustments to stability, and assess responses in pathological populations. [ABSTRACT FROM AUTHOR]

Published

2019

49. The role of regulatory focus and expectation on creative decision making.

Author

Hüttermann, Stefanie, Nerb, Josef, and Memmert, Daniel

Subjects

*CREATIVE ability, *EXPECTATION (Psychology), *BODY movement, *ATTENTION, *DECISION making, *PSYCHOLOGY of athletes, *MOTIVATION (Psychology), *PSYCHOLOGICAL tests, *SOCCER

Abstract

According to regulatory focus theory, individuals generally regulate movements towards goals differently-using either a promotion- or a prevention-focused strategy. Recent research has found a close connection between regulatory focus and performance expectation. The current study explored their role on creative decision making. In an experimental setting, regulatory focus and expectation were manipulated and brief video clips of real football games were interrupted at a critical moment when the player with the ball faced a couple of possible actions. Experienced football players were asked to generate options to continue the game situations. The players' creativity was measured by performance indices for fluency, flexibility, and originality. Results revealed a benefit for players with an induced situational promotion focus as well as negative expectations to their performances on the generation of creative solutions. The findings might have implications for different complex real-life situations in which creativity is attributed to a performance-determining role. [ABSTRACT FROM AUTHOR]

Published

2018

50. Qualitative and quantitative change in the kinematics of learning a non-dominant overarm throw.

Author

Palmer, Hannah A., Newell, Karl M., Gordon, Dan, Smith, Lee, and Williams, Genevieve K.R.

Subjects

*PSYCHOLOGY of learning, *KINEMATICS, *MOTOR ability, *WRIST, *DEGREES of freedom, *ARM physiology, *ELBOW, *RANGE of motion of joints, *LEARNING, *SHOULDER, *TORSO, *BODY movement

Abstract

This study investigated changes in non-dominant overarm throw technique over practice from the perspective of three distinct though potentially complementary approaches to motor skill acquisition. Ten participants (mean ± SD age 22 ± 2 yrs, stature 1.71 ± 0.60 m, mass 73 ± 14 kg) completed 9-practice sessions (each 10 trials), during which whole-body kinematic data were collected. In line with the motor learning model of Newell (1985), we examined changes in the coupling between the centre-of-mass (CoM) and wrist motion. During initial practice, coupling was initially in-phase moving to wrist-led coupling with whole-body motion. With practice a more complex backwards wrist-led coupling that progressed to forward wrist-led coupling was observed. Secondly, in line with Bernstein's (1967) notion of freezing before freeing degrees of freedom; a significant increase in joint angle range of motion (ROM) at the lower limb joints and shoulder, and significant decrease in elbow and wrist ROM was observed. Thirdly, ROM changes coincided with the time course of changes in the four components of technique change in overarm throwing action proposed by Robertson and Halverson (1984). Participants began in mid to high action levels for the torso/arm components, while the step component progressed to higher action levels with practice. Common practice induced changes in the collective posture-ball release dynamics and were supported by individual strategies at the joint ROM level revealing the complementarity nature of the three approaches and their key dependent variables to the analysis of learning to throw. [ABSTRACT FROM AUTHOR]

Published

2018