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3. Postural Control in Older Adults during and Following a 12-Week Balance Training Intervention with Attentional Focus Instructions

Author

Higgins, Lauren Q., Labban, Jeffrey D., Stout, Ruth D., Fairbrother, Jeffrey T., Rhea, Christopher K., and Raisbeck, Louisa D.

Abstract

Adults (N = 54, 80.78 ± 6.08 years) who reported falling during the previous 12 months participated in a 12-week wobble board training program with internal focus or external focus (EF) instructions. Verbal manipulation checks were performed after training sessions as a self-report of the attentional foci used. The percentage of sessions in which participants reported using an EF (EF[subscript SR]) was subsequently calculated. Mean velocity and mean power frequency in the anterior-posterior (MVELO[subscript AP] and MPF[subscript AP]) and medial-lateral (MVELO[subscript ML] and MPF[subscript ML]) direction were assessed during a 35-s wobble board task at Weeks 0, 6, 12, 13, 16, and 20, with the latter three as retention tests. Piecewise linear growth models estimated treatment effects on individual growth trajectories of MVELO[subscript AP] and [subscript ML] and MPF[subscript AP] and [subscript ML] during intervention and retention periods. Regardless of condition, MVELOML significantly decreased ([pi] = -0.0019, p = 0.005) and MPF[subscript ML] increased ([pi] = 0.025, p < 0.02) during the intervention period. In analyses including interaction terms, participants in the EF group who reported greater EF[subscript SR] had superior progression of MPF[subscript AP] during the intervention ([pi] = 0.0013, p = 0.025). Verbal manipulation checks suggest a preference for and advantage of EF for facilitating postural control performance and automaticity.

Published
2021
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4. Sensory Reweighting System Differences on Vestibular Feedback With Increased Task Constraints in Individuals With and Without Chronic Ankle Instability.

Author

Sugimoto, Yuki A., McKeon, Patrick O., Rhea, Christopher K., Schmitz, Randy J., Henson, Robert, Mattacola, Carl G., and Ross, Scott E.

Subjects
RESEARCH funding, DATA analysis, DESCRIPTIVE statistics, ANKLE injuries, CASE-control method, STATISTICS, ONE-way analysis of variance, ANKLE joint, DATA analysis software, CONFIDENCE intervals, JOINT instability, POSTURAL balance, VESTIBULAR function tests
Abstract

Chronic ankle instability (CAI) is associated with a less flexible and adaptable sensorimotor system. Thus, individuals with CAI may present an inadequate sensory reweighting system, inhibiting their ability to place more emphasis (upweight) on reliable sensory feedback to control posture. However, how individuals with CAI reweight sensory feedback to maintain postural control in bilateral and unilateral stances has not been established. To examine (1) group differences in how the sensory reweighting system changes to control posture in a simple double-limb stance and a more complex single-limb stance (uninjured limb and injured limb) under increased environmental constraints manipulating somatosensory and visual information for individuals with and without CAI and (2) the effect of environmental and task constraints on postural control. Case-control study. Laboratory. A total of 21 individuals with CAI (age = 26.4 ± 5.7 years, height = 171.2 ± 9.8 cm, mass = 76.6 ± 15.17 kg) and 21 individuals without CAI (control group; age = 25.8 ± 5.7 years, height = 169.5 ± 9.5 cm, mass = 72.4 ± 15.0 kg) participated. We examined the equilibrium scores based on the first 10 seconds of trials in which participants completed 6 environmental conditions of the Sensory Organization Test during 3 tasks (double-limb and single-limb [uninjured and injured] stances). Sensory reweighting ratios for sensory systems (somatosensory, vision, and vestibular) were computed from paired equilibrium scores based on the first 10 seconds of the trials. We observed 3-factor interactions between groups, sensory systems, and tasks (F4,160 = 3.754, P =.006) and for group, task, and environment (F10,400 = 2.455, P =.007). The CAI group did not downweight vestibular feedback compared with the control group while maintaining posture on the injured limb (P =.03). The CAI group demonstrated better postural stability than the control group while standing with absent vision (ie, eyes closed), fixed surroundings, and a moving platform on the injured limb (P =.03). The CAI group relied on vestibular feedback while maintaining better postural stability than the control group in injured-limb stance. Group differences in postural control depended on both environmental (absent vision and moving platform) and task (injured limb) constraints. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Mimicking an Asymmetrically Walking Visual Cue Alters Gait Symmetry in Healthy Adults.

Author

Clark, Krista G., Raisbeck, Louisa D., Ross, Scott E., and Rhea, Christopher K.

Subjects
GAIT in humans, TREADMILL exercise, HUMAN mechanics, WEARABLE technology, WALKING speed
Abstract

Gait asymmetries are a common problem in clinical populations, such as those with a history of stroke or Parkinson's disease. The use of a split-belt treadmill is one way to enhance gait symmetry but relies on specialty (and typically expensive) equipment. Alternatively, visual cues have been shown as a method to alter gait mechanics, but their utility in altering gait symmetry has been relatively understudied. Before deploying this method to clinical populations, a proof-of-concept study is needed to explore using visual cues to alter gait symmetry in healthy adults. Therefore, the purpose of this study was to examine the extent to which healthy adults could synchronize to an asymmetric visual cue with a small or large gait asymmetry using wearable sensors to measure gait asymmetries. Seventy-two healthy adults (ages: 23.89 ± 6.08 years) walked on the treadmill for two conditions: with and without the visual cue. Each walking condition lasted 10 min at the participant's preferred walking speed. Inertial sensors were used to measure gait asymmetries. Some participants did not respond to the visual cue, and groups were separated into responders and non-responders. Participants in the small and large asymmetry-responder groups exhibited statistically significant increased asymmetries in single limb support % (p < 0.01) and step duration (s) (p < 0.05, p < 0.01, respectively). Only the large asymmetry-responder group showed statistically significant (p < 0.01) increased asymmetries in stride length. Overall, asymmetrical walking visual cues can alter gait asymmetries, and inertial sensors were sensitive enough to detect small changes in gait asymmetries. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Toward Evidence-Based Smartphone Apps to Enhance Human Health: Adoption of Behavior Change Techniques

Author

Rhea, Christopher K., Felsberg, Danielle T., and Maher, Jaclyn P.

Abstract

There has been a substantial increase in the number of health-related smartphone applications (apps) available to consumers in recent years. How does one decide which apps have scientific evidence backing their claims and which are "fake news"? In this Commentary, we explore the hierarchy of scientific claims and review recent literature to identify areas of Health Education and health promotion in which evidence-based smartphone apps are available. Further, we present a theory-based framework to help app developers optimize their potential to enhance human health.

Published
2018
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12. A Dynamical Systems Approach to Characterizing Brain–Body Interactions during Movement: Challenges, Interpretations, and Recommendations.

Author

Monroe, Derek C., Berry, Nathaniel T., Fino, Peter C., and Rhea, Christopher K.

Subjects
DYNAMICAL systems, PHILOSOPHY of science, SCIENTIFIC method, MOTION, NEUROANATOMY, SIGNAL processing, RESEARCH questions
Abstract

Brain–body interactions (BBIs) have been the focus of intense scrutiny since the inception of the scientific method, playing a foundational role in the earliest debates over the philosophy of science. Contemporary investigations of BBIs to elucidate the neural principles of motor control have benefited from advances in neuroimaging, device engineering, and signal processing. However, these studies generally suffer from two major limitations. First, they rely on interpretations of 'brain' activity that are behavioral in nature, rather than neuroanatomical or biophysical. Second, they employ methodological approaches that are inconsistent with a dynamical systems approach to neuromotor control. These limitations represent a fundamental challenge to the use of BBIs for answering basic and applied research questions in neuroimaging and neurorehabilitation. Thus, this review is written as a tutorial to address both limitations for those interested in studying BBIs through a dynamical systems lens. First, we outline current best practices for acquiring, interpreting, and cleaning scalp-measured electroencephalography (EEG) acquired during whole-body movement. Second, we discuss historical and current theories for modeling EEG and kinematic data as dynamical systems. Third, we provide worked examples from both canonical model systems and from empirical EEG and kinematic data collected from two subjects during an overground walking task. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Sex-Specific Dependence of Linear and Nonlinear Postural Control Metrics on Anthropometrics During Clinical Balance Tests in Healthy Young Adults.

Author

Glass, Stephen M., Cone, Brian L., Rhea, Christopher K., Duffy, Donna M., and Ross, Scott E.

Subjects
ANTHROPOMETRY, BODY weight, CHAOS theory, COLLEGE students, POSTURAL balance, SEX distribution, STATURE, T-test (Statistics), MULTIPLE regression analysis, CROSS-sectional method, DATA analysis software, STATISTICAL models, ADULTS
Abstract

Context: Previous work suggests that balance behavior is a sex-dependent, complex process that can be characterized by linear and nonlinear metrics. Although a certain degree of center of pressure variability may be expected based on sexual dimorphism, there is evidence to suggest that these effects are obscured by potential interactions between sex and anthropometric factors. To date, no study has accounted for such interactive effects using both linear and nonlinear measures. Objective: This investigation sought to analyze interactive models featuring sex, height, and weight as predictors of linear and nonlinear aspects of postural control. Design: Cross-sectional study. Setting: Controlled laboratory. Participants: A total of 26 males (23.80 [3.44] y, 177.87 [6.44] cm, 81.70 [10.80] kg) and 28 females (21.14 [2.03] y, 169.57 [8.80] cm, 64.48 [8.86] kg) were sampled from a healthy university population. MainOutcomeMeasures: Linear (range [RNG], velocity [VEL], and SD) and nonlinear (detrended fluctuation analysis scaling exponent, multivariate multiscale sample entropy [MMSECI]) summary metrics of center of pressure time series. Procedure: Participants stood on a force plate for 20 seconds in 3 conditions: double (D), single (S), and tandem (T) stance. Data for each stance condition were analyzed using regression models with interaction terms for sex × height and sex × weight. In D, weight had a positive, significant main effect on VELy, MMSECId, and MMSECIv. In men, height was observed to have a positive effect on SDy (S), RNGy (S), and RNGx (T) and a negative effect on MMSECIv (T). In women, weight was observed to have a positive effect on SDy and VELx (both T). Conclusions: Our findings suggest that men and women differ with respect to certain linear and nonlinear aspects of balance behavior, and that these differences may reflect sex-specific behavioral patterns in addition to effects related to sexual dimorphism. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Neuromotor changes in participants with a concussion history can be detected with a custom smartphone app.

Author

Rhea, Christopher K., Yamada, Masahiro, Kuznetsov, Nikita A., Jakiela, Jason T., LoJacono, Chanel T., Ross, Scott E., Haran, F. J., Bailie, Jason M., and Wright, W. Geoffrey

Subjects
*BRAIN concussion, *EQUILIBRIUM testing, *MOBILE apps, *ANGULAR velocity, *MILITARY personnel, *TIME series analysis
Abstract

Neuromotor dysfunction after a concussion is common, but balance tests used to assess neuromotor dysfunction are typically subjective. Current objective balance tests are either cost- or space-prohibitive, or utilize a static balance protocol, which may mask neuromotor dysfunction due to the simplicity of the task. To address this gap, our team developed an Android-based smartphone app (portable and cost-effective) that uses the sensors in the device (objective) to record movement profiles during a stepping-in-place task (dynamic movement). The purpose of this study was to examine the extent to which our custom smartphone app and protocol could discriminate neuromotor behavior between concussed and non-concussed participants. Data were collected at two university laboratories and two military sites. Participants included civilians and Service Members (N = 216) with and without a clinically diagnosed concussion. Kinematic and variability metrics were derived from a thigh angle time series while the participants completed a series of stepping-in-place tasks in three conditions: eyes open, eyes closed, and head shake. We observed that the standard deviation of the mean maximum angular velocity of the thigh was higher in the participants with a concussion history in the eyes closed and head shake conditions of the stepping-in-place task. Consistent with the optimal movement variability hypothesis, we showed that increased movement variability occurs in participants with a concussion history, for which our smartphone app and protocol were sensitive enough to capture. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Postural Control Entropy Is Increased When Adopting an External Focus of Attention.

Author

Rhea, Christopher K., Diekfuss, Jed A., Fairbrother, Jeffrey T., and Raisbeck, Louisa D.

Subjects
POSTURE disorders, ENTROPY, ATTENTION, MEDICAL care costs, OLDER people, POSTURAL balance, PHYSICS
Abstract

Falls in older adults are a public health challenge due to their influence on well-being and health-care costs. One way to address this challenge is to discover new methods to enhance postural control in older adults so they are better prepared to maintain an upright stance. Older and younger adults (N = 32) performed a static balance task on a force plate with no instructions, internal focus instructions, or external focus instructions. Center of pressure displacement time series were analyzed using sample entropy and standard deviation. Only the external focus condition significantly increased postural control entropy, which was observed across both age groups. This study showed that an external focus of attention can be used to increase postural control entropy within a single session of testing. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Changes in Posture Following a Single Session of Long-Duration Water Immersion.

Author

Glass, Stephen M., Rhea, Christopher K., Wittstein, Matthew W., Ross, Scott E., Florian, John P., and Haran, F.J.

Subjects
EYE physiology, ANKLE physiology, DIVING, VETERANS, NATURE, POSTURE, RESPIRATION, SENSES, TIME, VISUAL fields, IMMERSION in liquids, MALE athletes
Abstract

Transitioning between different sensory environments is known to affect sensorimotor function and postural control. Water immersion presents a novel environmental stimulus common to many professional and recreational pursuits, but is not well-studied with regard to its sensorimotor effects upon transitioning back to land. The authors investigated the effects of long-duration water immersion on terrestrial postural control outcomes in veteran divers. Eleven healthy men completed a 6-hour thermoneutral pool dive (4.57 m) breathing diver air. Center of pressure was observed before and 15 minutes after the dive under 4 conditions: (1) eyes open/stable surface (Open-Stable); (2) eyes open/foam surface (Open-Foam); (3) eyes closed/stable surface (Closed-Stable); and (4) eyes closed/foam surface (Closed-Foam). Postdive decreases in postural sway were observed in all testing conditions except for Open-Stable. The specific pattern of center of pressure changes in the postdive window is consistent with (1) a stiffening/overregulation of the ankle strategy during Open-Foam, Closed-Stable, and Closed-Foam or (2) acute upweighting of vestibular input along with downweighting of somatosensory, proprioceptive, and visual inputs. Thus, our findings suggest that postimmersion decreases in postural sway may have been driven by changes in weighting of sensory inputs and associated changes in balance strategy following adaptation to the aquatic environment. [ABSTRACT FROM AUTHOR]

Published
2018
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21. Practice—Not Task Difficulty—Mediated the Focus of Attention Effect on a Speed-Accuracy Tradeoff Task.

Author

Yamada, Masahiro, Lohse, Keith R., Rhea, Christopher K., Schmitz, Randy J., and Raisbeck, Louisa D.

Subjects
FOCUS groups, TASK performance, CONCEPTUAL structures, ABILITY, TRAINING, ATTENTION, DESCRIPTIVE statistics, MOTOR ability
Abstract

External focus (attention to the movement effect) has been found effective in motor performance and learning. However, while some investigators have suggested that the effect of attentional focus varies with task difficulty, others reported external focus benefits regardless of difficulty. We hypothesized that attentional focus effects would vary with practice, due to changes in the individual's processing efficiency. We had three 20-person participant groups (external focus instructions, internal focus instructions, control) practice three difficulty levels of a Fitts reciprocal tapping task over two days. Participants in the external/internal focus groups were instructed to "mentally focus on moving the pen/your hand as fast and accurately as possible," while control participants were instructed to "mentally focus only on doing your best to achieve the task goal." We then analyzed the effect of attentional focus by task difficulty at the initial performance (the beginning of the practice) and after learning (the retention/transfer phase), using movement time (MT) and number of error taps (Err) as performance measures. The internal focus group made more errors than the control group only at the retention/transfer phase. We found no error differences between the external and internal focus groups, and there were no MT differences between any groups. Our primary hypothesis about the differential effect of attentional focus by practice was supported. The attentional focus effect on Err differed in the retention/transfer phase from the immediate phase, suggesting that practice mediated the attentional focus effect. We discuss how information theory may supplement understanding of attentional focus interventions in motor skill acquisition. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Cardio-Hypothalamic-Pituitary Coupling during Rest and in Response to Exercise.

Author

Berry, Nathaniel T., Rhea, Christopher K., and Wideman, Laurie

Subjects
*EXERCISE intensity, *ROOT-mean-squares, *SOMATOTROPIN
Abstract

The objective of this study was to examine cardio hypothalamic-pituitary coupling and to better understand how the temporal relations between these systems are altered during rest and exercise conditions. An intensive within subjects study design was used. Seven adult males completed two visits, each consisting of either a 24 h period of complete rest or a 24 h period containing a high-intensity exercise bout. An intravenous catheter was used to collect serum samples every 10 min throughout the 24 h period (i.e., 145 samples/person/condition) to assess growth hormone (GH) dynamics throughout the 24 h period. Cardiac dynamics were also collected throughout the 24 h period and epoched into 3 min windows every 10 min, providing serial short-time measurements of heart rate variability (HRV) concurrent to the GH sampling. The standard deviation of the normal RR interval (SDNN), the root mean square of successive differences (rMSSD), and sample entropy (SampEn) was calculated for each epoch and used to create new profiles. The dynamics of these profiles were individually quantified using SampEn and recurrence quantification analysis (RQA). To address our central question, the coupling between these profiles with GH was assessed using cross-SampEn and cross-RQA (cRQA). A comparison between the epoched HRV profiles indicated a main effect between profiles for sample entropy (p < 0.001) and several measures from RQA. An interaction between profile and condition was observed for cross-SampEn (p = 0.04) and several measures from cRQA. These findings highlight the potential application of epoched HRV to assess changes in cardiac dynamics, with specific applications to assessing cardio hypothalamic-pituitary coupling. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Postural Control in Older Adults During and Following a 12-Week Balance Training Intervention With Attentional Focus Instructions.

Author

Higgins, Lauren Q., Labban, Jeffrey D., Stout, Ruth D., Fairbrother, Jeffrey T., Rhea, Christopher K., and Raisbeck, Louisa D.

Subjects
OLDER people, SELF-evaluation, TREATMENT effectiveness, AUTOMATICITY (Learning process)
Abstract

Adults (N = 54, 80.78 ± 6.08 years) who reported falling during the previous 12 months participated in a 12-week wobble board training program with internal focus or external focus (EF) instructions. Verbal manipulation checks were performed after training sessions as a self-report of the attentional foci used. The percentage of sessions in which participants reported using an EF (EFSR) was subsequently calculated. Mean velocity and mean power frequency in the anterior–posterior (MVELOAP and MPFAP) and medial–lateral (MVELOML and MPFML) direction were assessed during a 35-s wobble board task at Weeks 0, 6, 12, 13, 16, and 20, with the latter three as retention tests. Piecewise linear growth models estimated treatment effects on individual growth trajectories of MVELOAP and ML and MPFAP and ML during intervention and retention periods. Regardless of condition, MVELOML significantly decreased (π = −.0019, p =.005) and MPFML increased (π =.025, p <.02) during the intervention period. In analyses including interaction terms, participants in the EF group who reported greater EFSR had superior progression of MPFAP during the intervention (π =.0013, p =.025). Verbal manipulation checks suggest a preference for and advantage of EF for facilitating postural control performance and automaticity. [ABSTRACT FROM AUTHOR]

Published
2021
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26. Acute neurocognitive deficits in active duty service members following subconcussive blast exposure.

Author

Haran, F. J., Handy, Justin D., Servatius, Richard J., Rhea, Christopher K., and Tsao, Jack W.

Subjects
MILITARY personnel, MEMBER services, COGNITIVE ability, NEUROPSYCHOLOGICAL tests, BLAST effect, COGNITION disorders, COGNITION, BLAST injuries, BRAIN concussion, DISEASE complications
Abstract

Military service members are frequently subjected to subconcussive blast events during training and deployment. Emerging evidence suggests blast exposures of these magnitudes may have long-term consequences for dimensions of cognitive function. Less is known about cognitive sequelae acutely following deployment-related subconcussive blast events. The current study addressed this knowledge gap by assessing the extent to which subconcussive blast exposure affected performance on the Automated Neuropsychological Assessment Metrics 4 TBI-MIL (ANAM). Baseline-referenced and normative comparisons of archival ANAM data were analyzed for a cohort of personnel who were exposed to blast (blast group; n = 27) and personnel who were not exposed to blast (no-blast group; n = 36) that were otherwise asymptomatic for a concussion. The blast group exhibited statistically significant lower scores compared to the no-blast group (between-subjects), baseline assessments (within-subjects), and an age-matched normative population. Normative comparisons revealed that the scores for the reaction time subtests (i.e., procedural and both simple reaction time tasks) were outside the range of normal functioning (1 SD) and reliable change indices revealed clinically meaningful change only for simple reaction time. The results highlight covert effects of subconcussive blast exposure that may warrant further monitoring in the immediate aftermath of a blast event. [ABSTRACT FROM AUTHOR]

Published
2021
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27. Characteristics of Stride Behavior During Treadmill Walking and Stationary Stepping.

Author

Rhea, Christopher K. and Wittstein, Matthew W.

Subjects
BEHAVIOR, BODY weight, STATISTICAL correlation, STATURE, T-test (Statistics), WALKING, TASK performance, TREADMILLS, DATA analysis software, STATISTICAL models, DESCRIPTIVE statistics
Abstract

Much has been learned about the characteristics of gait in overground and treadmill walking. However, there are many contexts in which overground or treadmill walking might not be possible, such as in home-based physical therapy. In those cases, a surrogate task to index gait behavior would be a valuable tool. Thus, the purpose of this study was to evaluate the stride behavior characteristics of stationary stepping compared with treadmill walking. Healthy young adults (N = 10) preformed two 15-minute tasks: (1) treadmill walking and (2) stationary stepping. Several stride behavior characteristics were recorded, including the number of strides taken, minimum and maximum knee angle, stride interval mean, stride interval standard deviation, and detrended fluctuation analysis (DFA) alpha of the stride interval time series. The results showed that stride behavior was similar between tasks when examined at the group level. However, when individual level analyses were used to examine the reliability of each metric between tasks, poor reliability was observed in most metrics, indicating that stationary stepping may not be an appropriate surrogate task for overground or treadmill walking. These results are discussed in the context of a gait dynamics framework, with attention to task constraints that may have influenced the findings. [ABSTRACT FROM AUTHOR]

Published
2014
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28. Does an External Focus Improve Single-Leg Jump Distance for Individuals With Chronic Ankle Instability?

Author

Raisbeck, Louisa D., Diekfuss, Jed A., and Rhea, Christopher K.

Subjects
LEG physiology, ANKLE, ATTENTION, BIOMECHANICS, CHRONIC diseases, JOINT hypermobility, JUMPING, PSYCHOLOGY of movement, HEALTH outcome assessment, STATISTICAL sampling, RANDOMIZED controlled trials
Abstract

Purpose: To investigate the influence of attentional focus on motor performance and single-leg jump distance in individuals with chronic ankle instability. Methods: Participants were randomly assigned to an external or internal focus condition and completed a series of single-leg jumps on their injured and uninjured limbs. Participants in the internal focus condition were asked to: "... think about extending [their] knees as rapidly as possible," whereas participants in the external focus condition were asked to: "... think about jumping as close to the cone as possible." A cone was placed at a distance of 4.57 m for this condition. Participants also completed a series of single-leg jumps 24 hours later with no focus instruction and the cone was removed (retention). Results: The results revealed significantly enhanced single-leg jump distances on the uninjured limb for the external focus condition (The results revealed significantly enhanced single-leg jump distances on the uninjured limb for the external focus condition (P <.05) and an improvement for the injured limb (partial η2 =.18) relative to an internal focus. However, no significant differences were observed between the conditions for retention. Conclusions: The authors report the utility of an external focus and suggest that intrinsic factors should be addressed before conclusively adopting external focus instruction for patients with chronic ankle instability. [[Athletic Training & Sports Health Care. 2020;12(6):265–271.] [ABSTRACT FROM AUTHOR]

Published
2020
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29. Variability and Complexity of Non-stationary Functions: Methods for Post-exercise HRV.

Author

Berry, Nathaniel T., Wideman, Laurie, and Rhea, Christopher K.

Subjects
COOLDOWN, HEART beat, ROOT-mean-squares, EXERCISE, STANDARD deviations
Abstract

Heart rate variability (HRV) is a noninvasive marker of cardiac autonomic function that has been extensively studied in a variety of populations. However, HRV analyses require stationarity--thus, limiting the conditions in which these data can be analyzed in physiologic and health research (e.g. postexercise). To provide evidence and clarity on how non-stationarity affects popular indices of variability and complexity. Simulations within physiologic (restricted to values similar to exercise and recovery RR-intervals) and non-physiologic parameters, with homoscedastic and heteroscedastic variances, across four sample lengths (200, 400, 800, and 2000), and four trends (stationary, positivelinear, quadratic, and cubic) were detrended using 1-3 order polynomials and sequential differencing. Measures of variability [standard deviation of normal intervals (SDNN) and root mean square of successive differences (rMSSD)] as well as complexity [sample entropy (SampEn)] were calculated on each of the raw and detrended time-series. Differential effects of trend, length, and fit were observed between physiologic and non-physiologic parameters. rMSSD was robust against trends within physiologic parameters while both SDNN and SampEn were positively and negatively biased by trend, respectively. Within nonphysiologic parameters, the SDNN, rMSSD, and SampEn of the raw time-series were all biased, highlighting the effect of the scale between these two sets of parameters. However, indices of variability and complexity on the original (trended) times-series were furthest from those of the stationary time-series, with indices coming closer to the known values as fit become more optimal. Detrending with polynomial functions provide reliable and accurate methods of assessing the variability and complexity of non-stationary time-series--such as those immediately following exercise. [ABSTRACT FROM AUTHOR]

Published
2020

30. Neuromotor and Neurocognitive Performance in Female American Football Players.

Author

Rhea, Christopher K., Schleich, Kristen N., Washington, Leah, Glass, Stephen M., Ross, Scott E., Etnier, Jennifer L., Wright, W. Geoffrey, Goble, Daniel J., and Duffy, Donna M.

Subjects
ATHLETES, FOOTBALL, NEUROPSYCHOLOGICAL tests, PSYCHOLOGY of movement, EFFECT sizes (Statistics)
Abstract

Purpose: To determine whether existing baseline data are appropriate for comparison with female collision sport athletes, neuromotor and neurocognitive data were recorded in the preseason from female athletes playing American tackle football and compared to previously published data of athletes participating in similar sports. Methods: Female football players (N = 31, mean age: 33.7 ± 6.9 years) were given assessments in the neuromotor (Modified Balance Error Scoring System [M-BESS] and BTrackS Balance Test) and neurocognitive (Standardized Assessment of Concussion [SAC] and Trail Making Test [TMT]) domains prior to the start of the season. Effect size comparisons were used to examine differences between the baseline data and appropriate comparison data. Results: Medium to very large effect size differences in neurocognitive performance and small to large effect size differences in neuromotor performance were observed. Conclusions: Previously published data from athletes participating in similar sports may be limited due to sex and age differences between the data sets. [[Athletic Training & Sports Health Care. 2019;11(5):224–233.] [ABSTRACT FROM AUTHOR]

Published
2019
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31. Obstacle Crossing in a Virtual Environment Transfers to a Real Environment.

Author

LoJacono, Chanel T., MacPherson, Ryan P., Kuznetsov, Nikita A., Raisbeck, Louisa D., Ross, Scott E., and Rhea, Christopher K.

Subjects
VIRTUAL reality, OLDER people, ECOLOGY, EXTRATERRESTRIAL resources, AGE groups
Abstract

Obstacle crossing, such as stepping over a curb, becomes more challenging with natural aging and could lead to obstacle-related trips and falls. To reduce fall-risk, obstacle training programs using physical obstacles have been developed, but come with space and human resource constraints. These barriers could be removed by using a virtual obstacle crossing training program, but only if the learned gait characteristics transfer to a real environment. We examined whether virtual environment obstacle crossing behavior is transferred to crossing real environment obstacles. Forty participants (n = 20 younger adults and n = 20 older adults) completed two sessions of virtual environment obstacle crossing, which was preceded and followed by one session of real environment obstacle crossing. Participants learned to cross the virtual obstacle more safely and that change in behavior was transferred to the real environment via increased foot clearance and alterations in foot placement before and after the real environment obstacle. Further, while both age groups showed transfer to the real environment task, they differed on the limb in which their transfer effects applied. This suggests it is plausible to use virtual reality training to enhance gait characteristics in the context of obstacle avoidance, potentially leading to a novel way to reduce fall-risk. [ABSTRACT FROM AUTHOR]

Published
2019
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32. The State of Behavior Change Techniques in Virtual Reality Rehabilitation of Neurologic Populations.

Author

Felsberg, Danielle T., Maher, Jaclyn P., and Rhea, Christopher K.

Subjects
BEHAVIOR modification, VIRTUAL reality, NEUROREHABILITATION, MEDICAL rehabilitation, QUALITY of life
Abstract

Background: Neurologic rehabilitation aims to restore function, address barriers to activity, and improve quality of life in those with injury to the nervous system. Virtual reality (VR) has emerged as a useful tool to enhance neurorehabilitation interventions and outcomes. However, the manner in which VR-based neurorehabilitation has been manipulated to optimize outcomes using theory-based frameworks has not been documented. Behavior Change Techniques (BCTs) are described as the smallest active ingredient in an intervention aimed to change behavior via theoretically-proposed pathways. The purpose of this review was to investigate the ways VR is being used in neurorehabilitation to improve upright mobility, and systematically code those VR interventions for active BCTs. Methods: Keyword searches were performed using database searches of PubMed, SPORTDiscus, and psycINFO. The search yielded 32 studies for inclusion. Coding for BCTs was conducted using the Behavior Change Techniques Taxonomy v1 (BCTTv1). Results: Behavioral Practice, Graded Tasks, Biofeedback, and Explicit Feedback were the most commonly used BCTs. All studies reported improvements in motor performance outcomes. However, none of the studies investigated the efficacy of each component of their VR intervention making it difficult to point to the most effective components of VR interventions overall. Conclusions: This review suggests that investigation into the specific components of VR interventions, along with purposeful implementation and reporting of BCTs will help improve understanding of the efficacy of VR as a neurorehabilitation tool. Future research could benefit from incorporating BCTs into the design process of VR interventions to produce optimal rehabilitation potential. [ABSTRACT FROM AUTHOR]

Published
2019
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33. The Influence of Attentional Focus on Balance Control over Seven Days of Training.

Author

Diekfuss, Jed A., Rhea, Christopher K., Schmitz, Randy J., Grooms, Dustin R., Wilkins, Robin W., Slutsky, Alexis B., and Raisbeck, Louisa D.

Subjects
*DYNAMIC balance (Mechanics), *INFLUENCE
Abstract

This study examined the training effect of attentional focus (external focus, internal focus, or no focus instructions) on a dynamic balance task. Participants completed baseline balance testing, seven consecutive days of dynamic balance board training, and retention testing 24 hours after the last session. The novel finding of this study was the presence of a training effect on balance control when adopting an external focus relative to an internal focus or no focus instructions. Further, we report the unique observation that more patterned behavior was adopted regardless of the focus instructions. These findings provide insight into how instructions can be altered to enhance human balance control and complement the constrained-action hypothesis. [ABSTRACT FROM AUTHOR]

Published
2019
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35. Potential Mediators of Load-Related Changes in Movement Complexity in Young, Healthy Adults.

Author

Glass, Stephen M., Rhea, Christopher K., Schmitz, Randy J., and Ross, Scott E.

Subjects
*BODY weight, *CROSSOVER trials, *POSTURAL balance, *EXERCISE physiology, *RANGE of motion of joints, *MUSCLE strength, *QUESTIONNAIRES, *STATURE, *SURVEYS, *T-test (Statistics), *WEIGHT lifting, *MULTIPLE regression analysis, *BODY movement, *WEIGHT-bearing (Orthopedics), *DESCRIPTIVE statistics, *ADULTS
Abstract

Context: Movement screening has become increasingly popular among tactical professionals. This popularity has motivated the design of interventions that cater to improving outcomes on the screens themselves, which are often scored in reference to an objective norm. In contrast to the assumptions underlying this approach, dynamical systems theory suggests that movements arise as a function of continuously evolving constraints and that optimal movement strategies may not exist. To date, few data address behavioral complexity in the fundamental movement tasks commonly used in clinical screenings. Objective: To provide evidence of complex variability during movement screens and test the role of modifiable--that is, trainable--constraints in mediating loss of complexity during experimental-task manipulations. Design: Crossover study. Setting: Research laboratory. Patients or Other Participants: Twenty-five male (age = 23.96 ± 3.74 years, height = 178.82 ± 7.51 cm, mass = 79.66 ± 12.66 kg) and 25 female (age = 22.00 ± 2.02 years, height = 165.40 ± 10.24 cm, mass = 63.98 ± 11.07 kg) recreationally active adults. Intervention(s): Participants performed tests of balance, range of motion, and strength. Additionally, they performed cyclical movement tasks under a control (C) condition and while wearing an 18.10-kg weight vest (W). Main Outcome Measure(s): Ground reaction forces were sampled at 1000 Hz and used to calculate center of pressure during cyclical movement tests. Multivariate multiscale entropy (MMSE) for the center-of-pressure signal was then calculated. Condition effects (C versus W) were analyzed using paired t tests, and penalized varying-coefficients regression was used to identify models predicting entropy outcomes from balance, range of motion, and strength. Results: The MMSE decreased during the W condition (MMSEC > MMSEW; t49 range = 3.17-5.21; all Pvalues < .01). Conclusions: Moderate evidence supported an association between modifiable constraints and behavioral complexity, but a role in mediating load-related loss of complexity was not demonstrated. [ABSTRACT FROM AUTHOR]

Published
2019
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36. Potential Mediators of Load-Related Decreases in Movement Quality in Young, Healthy Adults.

Author

Glass, Stephen M., Schmitz, Randy J., Rhea, Christopher K., and Ross, Scott E.

Subjects
STATISTICAL correlation, CROSSOVER trials, POSTURAL balance, RANGE of motion of joints, MUSCLE strength, REGRESSION analysis, RESEARCH evaluation, STATISTICS, LOGISTIC regression analysis, DATA analysis, BODY movement, INTER-observer reliability, FUNCTIONAL assessment, WEIGHT-bearing (Orthopedics), DESCRIPTIVE statistics
Abstract

Context: Predicting and promoting physical performance are important goals within the tactical professional community. Movement screens are frequently used in this capacity but are poor predictors of performance outcomes. It has recently been shown that prediction improved when movement quality was evaluated under load, but the mechanisms underlying this improvement remain unclear. Because balance, range of motion, and strength are mutually relevant to physical performance and movement quality, these attributes may mediate load-related decreases in movement quality and account for the resulting increase in performance prediction. Objective: To quantify the roles of balance, range of motion, and strength in mediating load-related decreases in clinical movement-screen scores. Design: Crossover study. Setting: Research laboratory. Patients or Other Participants: Twenty-five male (age = 23.96 ± 3.74 years, height = 178.82 ± 7.51 cm, mass = 79.66 ± 12.66 kg) and 25 female (age = 22.00 ± 2.02 years, height = 165.40 ± 10.24 cm, mass = 63.98 ± 11.07 kg) recreationally active adults. Intervention(s): Participants completed a clinical movement screen under a control condition and while wearing an 18.10-kg weighted vest as well as tests of balance, range of motion, and strength. Main Outcome Measure(s): Item score differences were assessed using Wilcoxon signed rank tests for matched pairs. Interactions between (1) balance, range of motion, and strength and (2) load condition were modeled using penalized varyingcoefficients regression with item scores as the dependent measure. Results: Except for the hurdle step, item scores were lower in the weighted-vest than in the control condition for all tests (P < .05). Except for rotary stability, F statistics were significant for all models (P values < .05, R² values = 0.22-0.77). Main effects of balance, range of motion, and strength on Functional Movement Screen scores were observed (P < .05); however, little evidence was found to suggest that these attributes mediated load-related decreases in Functional Movement Screen item scores. Conclusions: Balance, range of motion, and strength affected movement quality but did not mediate the effect of the load treatment. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Obstacle Crossing in a Virtual Environment Transfers to a Real Environment.

Author

LoJacono, Chanel T., MacPherson, Ryan P., Kuznetsov, Nikita A., Raisbeck, Louisa D., Ross, Scott E., and Rhea, Christopher K.

Subjects
VIRTUAL reality, OPTICAL information processing, VISUAL fields, MOTOR learning, OBSTACLE avoidance (Robotics)
Abstract

Obstacle crossing, such as stepping over a curb, becomes more challenging with natural aging and could lead to obstacle-related trips and falls. To reduce fall-risk, obstacle training programs using physical obstacles have been developed, but come with space and human resource constraints. These barriers could be removed by using a virtual obstacle crossing training program, but only if the learned gait characteristics transfer to a real environment. We examined whether virtual environment obstacle crossing behavior is transferred to crossing real environment obstacles. Forty participants (n = 20 younger adults and n = 20 older adults) completed two sessions of virtual environment obstacle crossing, which was preceded and followed by one session of real environment obstacle crossing. Participants learned to cross the virtual obstacle more safely and that change in behavior was transferred to the real environment via increased foot clearance and alterations in foot placement before and after the real environment obstacle. Further, while both age groups showed transfer to the real environment task, they differed on the limb in which their transfer effects applied. This suggests it is plausible to use virtual reality training to enhance gait characteristics in the context of obstacle avoidance, potentially leading to a novel way to reduce fall-risk. [ABSTRACT FROM AUTHOR]

Published
2018
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38. Toward Evidence-Based Smartphone Apps to Enhance Human Health: Adoption of Behavior Change Techniques.

Author

Rhea, Christopher K., Felsberg, Danielle T., and Maher, Jaclyn P.

Subjects
BEHAVIOR modification, HEALTH education, HEALTH promotion, PUBLIC health, SMARTPHONES, MOBILE apps, HEALTH education teachers, PSYCHOLOGY
Abstract

There has been a substantial increase in the number of health-related smartphone applications (apps) available to consumers in recent years. How does one decide which apps have scientific evidence backing their claims and which are “fake news”? In this Commentary, we explore the hierarchy of scientific claims and review recent literature to identify areas of Health Education and health promotion in which evidence-based smartphone apps are available. Further, we present a theory-based framework to help app developers optimize their potential to enhance human health. [ABSTRACT FROM AUTHOR]

Published
2018
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41. Modified proximal thigh kinematics captured with a novel smartphone app in individuals with a history of recurrent ankle sprains and altered dorsiflexion with walking.

Author

Sugimoto, Yuki A., Rhea, Christopher K., and Ross, Scott E.

Subjects
*DORSIFLEXION, *RANGE of motion of joints, *MOBILE apps, *ANKLE joint, *GAIT in humans, *JOINT instability, *THIGH, *SMARTPHONES, *SPRAINS, *DISEASE relapse, *COMPARATIVE studies, *WALKING, *DIAGNOSIS, *DESCRIPTIVE statistics, *KINEMATICS
Abstract

We examined sagittal-plane thigh angular kinematics in individuals with and without recurrent ankle sprains using a clinical smartphone app called AccWalker. Sagittal-plane ankle kinematics were also compared to ascertain that altered ankle dorsiflexion, which is typically displayed with chronic ankle instability, is also present in individuals with recurrent ankle sprains. Participants with (n = 22) and without (n = 22) recurrent ankle sprains were evaluated on average sagittal-plane ankle kinematics during walking and average sagittal-plane thigh angular kinematics during stepping-in-place with AccWalker. Significant group-by-limb interactions were found for sagittal-plane ankle kinematics (F (1,42) = 63.786, P <.010) during walking and sagittal-plane average thigh angular range-of-motion (F (1,42) = 6.166, P =.017) with AccWalker. Individuals with recurrent ankle sprains displayed more ankle dorsiflexion in affected (P <.001) and unaffected (P =.001) limbs during walking than healthy controls and exhibited more ankle dorsiflexion in their affected-limb compared to their unaffected-limb (P <.001). The average sagittal-plane thigh angular range-of-motion was lower in the unaffected-limb for recurrent ankle sprains compared to their affected-limb (P =.038) and the assigned unaffected-limb of healthy controls (P =.035). Increased dorsiflexion was present in both limbs of the recurrent ankle sprain group with walking. AccWalker does not assess ankle movement, but uniquely identified thigh motion impairments associated with recurrent ankle sprains in their unaffected-limb, potentially identifying central deficits associated with recurrent ankle sprains. This app has clinical implications for assessing potential pathological movement that can be corrected through rehabilitation. • The Recurrent Ankle Sprains group walked with more dorsiflexion in the affected-limb. • Lower sagittal thigh motion in the limb with ankle sprains was found with stepping-in-place. • The current study has set the groundwork for AcWalker's potential clinical application. [ABSTRACT FROM AUTHOR]

Published
2023
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43. LOAD-ENHANCED MOVEMENT QUALITY SCREENING AND TACTICAL ATHLETICISM: AN EXTENSION OF EVIDENCE.

Author

Glass, Stephen M., Schmitz, Randy J., Rhea, Christopher K., and Ross, Scott E.

Subjects
CONFIDENCE intervals, CROSSOVER trials, EXERCISE tests, MOTOR ability, PHYSICAL fitness, QUESTIONNAIRES, RESEARCH evaluation, RUNNING, BODY movement, DESCRIPTIVE statistics
Abstract

Background: Military organizations use movement quality screening for prediction of injury risk and performance potential. Currently, evidence of an association between movement quality and performance is limited. Recent work has demonstrated that external loading strengthens the relationship between movement screens and performance outcomes. Such loading may therefore steer us toward robust implementations of movement quality screens while maintaining their appeal as cost effective, field-expedient tools. Purpose: The purpose of the current study was to quantify the effect of external load-bearing on the relationship between clinically rated movement quality and tactical performance outcomes while addressing the noted limitations. Study Design: Crossover Trial. Methods: Fifty young adults (25 male, 25 female, 22.98±3.09 years, 171.95±11.46 cm, 71.77±14.03 kg) completed the Functional Movement Screen™ with (FMS™W) and without (FMS™C) a weight vest in randomized order. Following FMS™ testing, criterion measures of tactical performance were administered, including agility T-Tests, sprints, a 400- meter run, the Mobility for Battle (MOB) course, and a simulated casualty rescue. For each performance outcome, regression models were selected via group lasso with smoothed FMS™ item scores as candidate predictor variables. Results: For all outcomes, proportion of variance accounted for was greater in FMS™W (R² = 0.22 [T-Test], 0.29 [Sprint], 0.17 [400 meter], 0.29 [MOB], and 0.11 [casualty rescue]) than in FMS™C (R² = 0.00 [T-Tsst], 0.11 [Sprint], 0.00 [400 meter], 0.19 [MOB], and 0.00 [casualty rescue]). From the FMS™W condition, beneficial performance effects (p<0.05) were observed for Deep Squat (sprint, casualty rescue), Hurdle Step (T-Agility, 400 meter run), Inline Lunge (sprint, MOB), and Trunk Stability Push Up (all models). Similar effects for FMS™C item scores were limited to Trunk Stability Push Up (p<0.05, all models). Conclusions: The present study extends evidence supporting the validity of load-enhanced movement quality screening as a predictor of tactical performance ability. Future designs should seek to identify mechanisms explaining this effect. Level of Evidence: 3 [ABSTRACT FROM AUTHOR]

Published
2017

44. Power considerations for the application of detrended fluctuation analysis in gait variability studies.

Author

Kuznetsov, Nikita A. and Rhea, Christopher K.

Subjects
*NEUROMUSCULAR diseases, *GAIT in humans, *SIGNAL processing, *MONTE Carlo method, *TIME series analysis, *COMPUTER simulation
Abstract

The assessment of gait variability using stochastic signal processing techniques such as detrended fluctuation analysis (DFA) has been shown to be a sensitive tool for evaluation of gait alterations due to aging and neuromuscular disease. However, previous studies have suggested that the application of DFA requires relatively long recordings (600 strides), which is difficult when working with clinical populations or older adults. In this paper we propose a model for predicting DFA variance in experimental data and conduct a Monte Carlo simulation to estimate the sample size and number of trials required to detect a change in DFA scaling exponent. We illustrate the model in a simulation to detect a difference of 0.1 (medium effect) between two groups of subjects when using short gait time series (100 to 200 strides) in the context of between- and within-subject designs. We assumed that the variance of DFA scaling exponent arises due to individual differences, time series length, and experimental error. Results showed that sample sizes required to achieve acceptable power of 80% are practically feasible, especially when using within-subject designs. For example, to detect a group difference in the DFA scaling exponent of 0.1, it would require either 25 subjects and 2 trials per subject or 12 subjects and 4 trials per subject using a within-subject design. We then compared plausibility of such power predictions to the empirically observed power from a study that required subjects to synchronize with a persistent fractal metronome. The results showed that the model adequately predicted the empirical pattern of results. Our power simulations could be used in conjunction with previous design guidelines in the literature when planning new gait variability experiments. [ABSTRACT FROM AUTHOR]

Published
2017
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45. Development of a Portable Tool for Screening Neuromotor Sequelae From Repetitive Low-Level Blast Exposure.

Author

Rhea, Christopher K., Kuznetsov, Nikita A., Ross, Scott E., Long, Benjamin, Jakiela, Jason T., Bailie, Jason M., Yanagi, Matthew A., Haran, F. Jay, Wright, W. Geoffrey, Robins, Rebecca K., Sargent, Paul D., and Duckworth, Joshua L.

Subjects
*SYMPTOMS, *BLAST effect, *BOMB damage assessments, *MOBILE apps, *MOBILE app development, NEUROMUSCULAR disease diagnosis
Abstract

Blast exposure is a prevalent cause of mild traumatic brain injury (mTBI) in military personnel in combat. However, it is more common for a service member to be exposed to a low-level blast (LLB) that does not result in a clinically diagnosable mTBI. Recent research suggests that repetitive LLB exposure can result in symptomology similar to symptoms observed after mTBI. This manuscript reports on the use of an Android-based smartphone application (AccWalker app) to capture changes in neuromotor functioning after blast exposure. Active duty U.S. Navy personnel (N = 59) performed a stepping-in-place task before repetitive LLB exposure (heavy weapons training), and again immediately after, 24 hours after, and 72 to 96 hours after the completion of the training. The AccWalker app revealed that there are changes in neuromotor functioning after LLB exposure (slower self-selected movement pace and increased stride time variability) in participants who experienced neurocognitive decline. These data suggest that neurocognitive and neuromotor decline can occur after repeated LLB exposure. [ABSTRACT FROM AUTHOR]

Published
2017
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47. Using visual stimuli to enhance gait control.

Author

Rhea, Christopher K. and Kuznetsov, Nikita A.

Subjects
*VISUAL perception, *POSTURAL balance, *GAIT in humans, *VESTIBULAR function tests, *SENSORIMOTOR integration
Abstract

Gait control challenges commonly coincide with vestibular dysfunction and there is a long history in using balance and gait activities to enhance functional mobility in this population. While much has been learned using traditional rehabilitation exercises, there is a new line of research emerging that is using visual stimuli in a very specific way to enhance gait control. For example, avatars can be created in an individualized manner to incorporate specific gait characteristics. The avatar could then be used as a visual stimulus to which the patient can synchronize their own gait cycle. This line of research builds upon the rich history of sensorimotor control research in which augmented sensory information (visual, haptic, or auditory) is used to probe, and even enhance, human motor control. This review paper focuses on gait control challenges in patients with vestibular dysfunction, provides a brief historical perspective on how various visual displays have been used to probe sensorimotor and gait control, and offers some recommendations for future research. [ABSTRACT FROM AUTHOR]

Published
2017
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49. How Plantar Exteroceptive Efficiency Modulates Postural and Oculomotor Control: Inter-Individual Variability.

Author

Foisy, Arnaud, Kapoula, Zoï, Rhea, Christopher K., Smart, Leonard James, and Kuznetsov, Nikita

Subjects
PLANTAR fasciitis, FOOT diseases, EYE movement measurements, SOMATOSENSORY cortex, VERGENCE (Binocular vision)
Abstract

In a previous experiment, we showed that among young and healthy subjects, thin plantar inserts improve postural control and modify vergence amplitudes. In this experiment, however, significant inter-individual variability was observed. We hypothesize that its origin could be attributed to a different reliance upon feet cutaneous afferents. In order to test this hypothesis, we re-analyzed the data relative to 31 young (age 25.7 ± 3.8) and healthy subjects who participated in the first experiment after having classified them into two groups depending on their Plantar Quotient (PQ = Surface area of CoPfoam/Surface area of CoPfirm ground × 100). Foam decreases the information arising from the feet, normally resulting in a PQ > 100. Hence, the PQ provides information on the weight of plantar cutaneous afferents used in postural control. Twelve people were Plantar-Independent Subjects, as indicated by a PQ < 100. These individuals did not behave like the Normal Plantar Quotient Subjects: they were almost insensitive to the plantar stimulations in terms of postural control and totally insensitive in terms of oculomotor control. We conclude that the inter-individual variability observed in our first experiment is explained by the subjects' degree of plantar reliance. We propose that plantar independence is a dysfunctional situation revealing inefficiency in plantar cutaneous afferents. The latter could be due to a latent somatosensory dysfunction generating a noise which prevents the CNS from correctly processing and using feet somatosensory afferents both for balance and vergence control: Plantar Irritating Stimulus. Considering the non-noxious nature and prevalence of this phenomenon, these results can be of great interest to researchers and clinicians who attempt to trigger postural or oculomotor responses through mechanical stimulation of the foot sole. [ABSTRACT FROM AUTHOR]

Published
2016
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50. Multiplanar Knee Laxity and Perceived Function During Activities of Daily Living and Sport.

Author

Taylor, Jeffrey B., Hsin-Min Wang, Schmitz, Randy J., Rhea, Christopher K., Ross, Scott E., and Shultz, Sandra J.

Subjects
JOINT hypermobility, RANGE of motion of joints, KNEE, KNEE injuries, RESEARCH methodology, HEALTH outcome assessment, SENSORY perception, PROBABILITY theory, REGRESSION analysis, ROTATIONAL motion, SEX distribution, SPORTS, T-test (Statistics), ACTIVITIES of daily living, SECONDARY analysis, DATA analysis software
Abstract

Context: Greater knee-joint laxity may lead to a higher risk of knee injury, yet it is unknown whether results of self-reported outcome measures are associated with distinct knee-laxity profiles. Objective: To identify the extent to which multiplanar knee laxity is associated with patient-reported outcomes of knee function in healthy individuals during activities of daily living and sport. Design: Descriptive laboratory study. Setting: University research laboratory. Patients or Other Participants: Forty healthy individuals (20 men, 20 women; age = 18-31 years). Main Outcome Measure(s): All participants were given the Knee Outcome Survey Activities of Daily Living Scale (KOSADL) and Sports Activities Scale (KOS-SAS) and subsequently measured for knee laxity in the sagittal, frontal, and transverse planes. Separate backward stepwise regression analyses were performed to determine the extent to which multiplanar kneelaxity values predicted KOS-ADL and KOS-SAS scores within each sex. Results: Women had higher magnitudes of anterior, posterior (POSTLAX), varus (VARLAX), valgus (VALLAX), and internal-rotation laxity than men and trended toward greater external rotation (ERLAX) laxity. Greater POSTLAX, less VALLAX, and greater VARLAX was associated with lower KOS-ADL scores (KOS-ADL = -4.8 [POSTLAX], + 3.3 [VALLAX] - 2.2 [VARLAX] + 100.4, R² = 0.74, P < .001) and greater POSTLAX and less VALLAX was associated with lower KOS-SAS scores (KOS-SAS = -8.2 [POSTLAX],+3.6 [VALLAX]+96.4, R²=0.67, P < .001) in women. In men, greater POSTLAX and less ERLAX was associated with lower KOS-SAS scores (KOS-ADL = -4.7 [POSTLAX], + 0.9 [ERLAX] + 96.4, R² = 0.49, P < .001). Conclusions: The combination of POSTLAX with less relative VALLAX (women) or less relative ERLAX (men) was a strong predictor of KOS scores, suggesting that a self-reported outcome measure may be beneficial as part of a preparticipation screening battery to identify those with perceived functional deficits associated with their knee laxity. [ABSTRACT FROM AUTHOR]

Published
2015
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