Your search keyword '"Schaefer, Sydney Y."' showing total 19 results

1. Generalizing the predictive relationship between 1-month motor skill retention and Rey–Osterrieth Delayed Recall scores from nondemented older adults to individuals with chronic stroke: a short report

Author

Lingo VanGilder, Jennapher, Hooyman, Andrew, Bosch, Pamela R., and Schaefer, Sydney Y.

Published

2021

2. How Common Is the Exponential Decay Pattern of Motor Skill Acquisition? A Brief Investigation.

Author

Olivier, Geneviève N., Walter, Christopher S., Paul, Serene S., Dibble, Leland E., and Schaefer, Sydney Y.

Subjects

MOTOR ability, OLDER people, YOUNG adults, ADULTS, EXPONENTIAL functions, PARKINSON'S disease

Abstract

Motor performance is classically described as improving nonlinearly with practice, demonstrating rapid improvements early in practice with stabilization later, which is commonly modeled by exponential decay functions. However, retrospective analyses of our previously collected data challenge this theoretical model of motor skill acquisition, suggesting that a majority of individual learners actually demonstrate patterns of motor improvement different from this classical model. A convenience sample of young adults, older adults, and people with Parkinson disease trained on the same functional upper-extremity task. When fitting three-parameter exponential decay functions to individual participant data, the authors found that only 13.3% of young adults, 40.9% of older adults, and 66.7% of adults with Parkinson disease demonstrated this "classical" skill acquisition pattern. Thus, the three-parameter exponential decay pattern may not well-represent individuals' skill acquisition of complex motor tasks; instead, more individualized analysis methods may be warranted for advancing a theoretical understanding of motor skill acquisition. [ABSTRACT FROM AUTHOR]

Published

2021

3. Age and sex effects on Super G performance are consistent across internet devices.

Author

Hooyman, Andrew and Schaefer, Sydney Y.

Subjects

MOBILE learning, MOTOR learning, OLDER people, INTERNET access, MOTOR ability, DISEASE risk factors

Abstract

There have been recent advances in the application of online games that assess motor skill acquisition/learning and its relationship to age and biological sex, both of which are associated with dementia risk. While this online motor learning assessment (called Super G), along with other computer-based cognitive tests, was originally developed to be completed on a computer, many people (including older adults) have been shown to access the internet through a mobile device. Thus, to improve the generalizability of our online motor skill learning game, it must not only be compatible with mobile devices but also yield replicable effects of various participant characteristics on performance relative to the computer-based version. It is unknown if age and sex differentially affect game performance as a function of device type (keyboard versus touchscreen control). Thus, the purpose of this study was to investigate if device type modifies the established effects of age and sex on performance. Although there was a main effect of device on performance, this effect did not alter the overall relationship between performance vs. age or sex. This establishes that Super G can now effectively be extended to both computer and mobile platforms to further test for dementia risk factors. [ABSTRACT FROM AUTHOR]

Published

2023

4. Mediation Analysis of the Effect of Visuospatial Memory on Motor Skill Learning in Older Adults.

Author

Hooyman, Andrew, Lingo VanGilder, Jennapher, and Schaefer, Sydney Y.

Subjects

MOTOR learning, OLDER people, GROSS motor ability, YOUNG adults, MEMORY, CAUSAL inference, INDIVIDUAL differences

Abstract

There is high inter-individual variability in motor skill learning among older adults. Identifying the nature of these individual differences remains challenging due to interactions between participant characteristics (e.g., age, cognition) and task-related factors (e.g., nature of task, level of skill pre-training), making it difficult to determine plausibly causal relationships. This study addresses these competing explanations by using mediation analysis to examine plausible causal inference between visuospatial memory and one-month retention of both gross and fine motor components of a functional upper-extremity task following training. Results suggest that better visuospatial memory results in more retention of fine but not gross motor skill, expanding on previous correlational studies in older adults and informing future interventions for maximizing motor learning in geriatric populations. [ABSTRACT FROM AUTHOR]

Published

2023

5. Using whole-brain diffusion tensor analysis to evaluate white matter structural correlates of delayed visuospatial memory and one-week motor skill retention in nondemented older adults: A preliminary study.

Author

Lingo VanGilder, Jennapher, Bergamino, Maurizio, Hooyman, Andrew, Fitzhugh, Megan C., Rogalsky, Corianne, Stewart, Jill C., Beeman, Scott C., and Schaefer, Sydney Y.

Subjects

WHITE matter (Nerve tissue), MOTOR ability, CALCULUS of tensors, OLDER people, MNEMONICS, MOTOR learning

Abstract

Skill retention is important for motor rehabilitation outcomes. Recent work has demonstrated that delayed visuospatial memory performance may predict motor skill retention in older and neuropathological populations. White matter integrity between parietal and frontal cortices may explain variance in upper-extremity motor learning tasks and visuospatial processes. We performed a whole-brain analysis to determine the white matter correlates of delayed visuospatial memory and one-week motor skill retention in nondemented older adults. We hypothesized that better frontoparietal tract integrity would be positively related to better behavioral performance. Nineteen participants (age>58) completed diffusion-weighted imaging, then a clinical test of delayed visuospatial memory and 50 training trials of an upper-extremity motor task; participants were retested on the motor task one week later. Principal component analysis was used to create a composite score for each participant's behavioral data, i.e. shared variance between delayed visuospatial memory and motor skill retention, which was then entered into a voxel-based regression analysis. Behavioral results demonstrated that participants learned and retained their skill level after a week of no practice, and their delayed visuospatial memory score was positively related to the extent of skill retention. Consistent with previous work, neuroimaging results indicated that regions within bilateral anterior thalamic radiations, corticospinal tracts, and superior longitudinal fasciculi were related to better delayed visuospatial memory and skill retention. Results of this study suggest that the simple act of testing for specific cognitive impairments prior to therapy may identify older adults who will receive little to no benefit from the motor rehabilitation regimen, and that these neural regions may be potential targets for therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2022

6. Delays in the Reticulospinal System Are Associated With a Reduced Capacity to Learn a Simulated Feeding Task in Older Adults.

Author

Rangarajan, Vishvak, Schreiber, Joseph J., Barragan, Beatriz, Schaefer, Sydney Y., and Honeycutt, Claire F.

Subjects

OLDER people, MOTOR learning, RETICULAR formation, TRANSCRANIAL magnetic stimulation, STARTLE reaction, EVOKED potentials (Electrophysiology)

Abstract

Learning declines with age. Recent evidence indicates that the brainstem may play an important role in learning and motor skill acquisition. Our objective was to determine if delays in the reticular formation, measured via the startle reflex, correspond to age-related deficits in learning and retention. We hypothesized that delays in the startle reflex would be linearly correlated to learning and retention deficits in older adults. To determine if associations were unique to the reticulospinal system, we also evaluated corticospinal contributions with transcranial magnetic stimulation. Our results showed a linear relationship between startle onset latency and percent learning and retention but no relationship between active or passive motor-evoked potential onsets or peak-to-peak amplitude. These results lay the foundation for further study to evaluate if (1) the reticular formation is a subcortical facilitator of skill acquisition and (2) processing delays in the reticular formation contribute to age-related learning deficits. [ABSTRACT FROM AUTHOR]

Published

2022

7. Predicting Motor Skill Learning in Older Adults Using Visuospatial Performance.

Author

Wang, Peiyuan, Infurna, Frank J., and Schaefer, Sydney Y.

Subjects

MOTOR learning, OLDER people, PERCEPTUAL motor learning, MONTREAL Cognitive Assessment, EXECUTIVE function, ADULT learning, COGNITIVE testing

Abstract

Between-group comparisons of older and younger adults suggest that motor learning decreases with advancing age. However, such comparisons do not necessarily account for group differences in cognitive function, despite the co-occurrence of aging and cognitive decline. As such, cognitive differences may explain the observed age effects on motor learning. Recent work has shown that the extent to which a motor task is learned is related to visuospatial function in adults over age 65. The current study tested whether this relationship is replicable across a wider age range and with a brief, widely available cognitive test. Thirty-three adults (aged 39–89 years old) completed the Montreal Cognitive Assessment (MoCA) prior to practicing a functional upper extremity motor task; performance on the motor task was assessed 24 hours later to quantify learning. Backward elimination stepwise linear regression identified which cognitive domains significantly predicted retention. Consistent with previous findings, only the Visuospatial/Executive subtest score predicted change in performance 24 hours later, even when accounting for participant age. Thus, the age-related declines in motor learning that have been reported previously may be explained in part by deficits in visuospatial function that can occur with advancing age. [ABSTRACT FROM AUTHOR]

Published

2020

8. Predicting Motor Sequence Learning in People With Parkinson Disease.

Author

Olivier, Geneviève N., Paul, Serene S., Lohse, Keith R., Walter, Christopher S., Schaefer, Sydney Y., and Dibble, Leland E.

Abstract

Supplemental Digital Content is Available in the Text. Background and Purpose: Skill acquisition (ie, performance changes during practice) occurs in a nonlinear fashion. Despite this, motor learning is typically measured by comparing discrete timepoints. Thus, typical measures of motor learning do not detect skill acquisition characteristics that may be clinically meaningful. Reliable prediction of motor skill learning in people with Parkinson disease (PD) would allow therapists to more effectively individualize practice doses to fit specific patients' needs. The purposes of this study were to (a) characterize postural skill acquisition in people with PD, and identify factors (such as acquisition rate and practice dose to plateau) that predict learning, and (b) investigate whether levodopa medication (l -dopa) status during practice impacted learning. Methods: Twenty-seven adults with PD practiced a postural motor task over 3 days, followed by 2 retention tests. Participants were randomized to practice either ON or OFF l -dopa. Data for repeating and random sequences were each analyzed using nonlinear curve-fitting and mixed-effects regressions. Learning was defined as pretest minus retention test performance. Results: Participants with less physical impairment demonstrated less learning on the repeating and random sequence tasks compared with participants with more impairment. Participants who improved faster during practice demonstrated less learning on the repeating sequence task compared with participants who improved more slowly. Reaching plateau during practice was not related to learning. l -dopa did not impair learning. Discussion and Conclusions: Participants' skill acquisition characteristics were related to learning a postural motor task. Patient-specific factors, such as the rate of skill acquisition, level of physical function, and medication status, may influence how postural motor practice is delivered during balance rehabilitation. Video Abstract available for more insights from the authors (see the Video, Supplemental Digital Content 1, available at: http://links.lww.com/JNPT/A250). [ABSTRACT FROM AUTHOR]

Published

2019

9. Evidence for startle as a measurable behavioral indicator of motor learning.

Author

Kirkpatrick, Nathan J., Ravichandran, Vengateswaran J., Perreault, Eric J., Schaefer, Sydney Y., and Honeycutt, Claire F.

Subjects

MOTOR learning, FINGER physiology, TASK performance, HUMAN mechanics, NEUROSCIENTISTS

Abstract

The ability of the classic startle reflex to evoke voluntarily prepared movement involuntarily has captured the attention of neuroscientists for its wide-ranging functional utility and potential uses in patient populations. To date, there is only one documented task resistant to the startReact phenomenon–index finger abduction. Previous reports have suggested the lack of startReact is due to different neural mechanisms driving individuated finger movement and more proximal joint control (e.g. elbow, wrist movement). However, an alternative hypothesis exists. Though not particularly difficult to execute, isolated index finger abduction is rarely performed during activities of daily living and is not a natural correlate to common individuated finger tasks. We propose that startReact can be evoked during individuated finger movements but only during tasks that are highly trained or familiar. The objective of this study was to determine the impact of a 2-week training regimen on the ability to elicit startReact. We found evidence in support of our hypothesis that following training, individuated movements of the hands (specifically index finger abduction) become susceptible to startReact. This is significant not only because it indicates that individuated finger movements are in fact amenable to startReact, but also that startle has differential response characteristics in novel tasks compared to highly trained tasks suggesting that startle is a measurable behavioral indicator of motor learning. [ABSTRACT FROM AUTHOR]

Published

2018

10. Within-session and one-week practice effects on a motor task in amnestic mild cognitive impairment.

Author

Schaefer, Sydney Y. and Duff, Kevin

Subjects

*AMNESTIC mild cognitive impairment, *NEUROPSYCHOLOGICAL tests, *COGNITION disorders in old age, *MOTOR ability, *MEDICAL rehabilitation

Abstract

Practice effects on neuropsychological tests, which are improvements in test scores due to repeated exposure to testing materials, are robust in healthy elders, but muted in older adults with cognitive disorders. Conversely, few studies have investigated practice effects on motor tasks involving procedural memory, particularly across test–retest periods exceeding 24 hours. The current study examined one-week practice effects on a novel upper extremity motor task in 54 older adults with amnestic mild cognitive impairment. Results indicate that these individuals with primary memory deficits did improve on this motor task within a brief training session as well as across one week. These practice effects were unrelated to demographic characteristics or global cognition. One-week practice effects were, however, negatively related to delayed memory function, with larger practice effects being associated with poorer delayed memory and potentially better visuospatial ability. The presence of longer term practice effects on a procedural motor task not only has implications for how longitudinal assessments with similar measures involving implicit memory might be interpreted, but may also inform future rehabilitative strategies for patients with more severe declarative memory deficits. [ABSTRACT FROM PUBLISHER]

Published

2017

11. Lateralized motor control processes determine asymmetry of interlimb transfer.

Author

Sainburg, Robert L., Schaefer, Sydney Y., and Yadav, Vivek

Subjects

*CEREBRAL dominance, *MOTOR ability, *BRAIN function localization, *BRAIN anatomy, *NEUROSCIENCES

Abstract

This experiment tested the hypothesis that interlimb transfer of motor performance depends on recruitment of motor control processes that are specialized to the hemisphere contralateral to the arm that is initially trained. Right-handed participants performed a single-joint task, in which reaches were targeted to 4 different distances. While the speed and accuracy was similar for both hands, the underlying control mechanisms used to vary movement speed with distance were systematically different between the arms: the amplitude of the initial acceleration profiles scaled greater with movement speed for the right-dominant arm, while the duration of the initial acceleration profile scaled greater with movement speed for the left-non-dominant arm. These two processes were previously shown to be differentially disrupted by left and right hemisphere damage, respectively. We now hypothesize that task practice with the right arm might reinforce left-hemisphere mechanisms that vary acceleration amplitude with distance, while practice with the left arm might reinforce right-hemisphere mechanisms that vary acceleration duration with distance. We thus predict that following right arm practice, the left arm should show increased contributions of acceleration amplitude to peak velocities, and following left arm practice, the right arm should show increased contributions of acceleration duration to peak velocities. Our findings support these predictions, indicating that asymmetry in interlimb transfer of motor performance, at least in the task used here, depends on recruitment of lateralized motor control processes. [ABSTRACT FROM AUTHOR]

Published

2016

12. Beside the point: motor adaptation without feedback-based error correction in task-irrelevant conditions.

Author

Schaefer, Sydney Y., Shelly, Iris L., and Thoroughman, Kurt A.

Subjects

*NERVOUS system, *FEEDBACK control systems, *MOTOR learning, *ERROR correction (Information theory), *NEURAL transmission

Abstract

Adaptation of movement may be driven by the difference between planned and actual motor performance, or the difference between expected and actual sensory consequences of movement. To identify how the nervous system differentially uses these signals, we asked: does motor adaptation occur when movement errors are irrelevant to the task goal? Participants reached on a digitizing tablet from a fixed start location to one of three targets: a point, an arc, or a ray. For the arc, reaches could be in any direction, but to a specific extent. For the ray, reaches could be to any distance, but in a targeted direction. After baseline reaching to the point, the direction or extent of continuous visual feedback was perturbed during training with either a cursor rotation or gain, respectively, while reaching to either the ray (goal = direction) or the arc (goal = extent). The perturbation, therefore, was either relevant or irrelevant to the task goal, depending on target type. During interspersed catch trials, the perturbation was removed and the target switched back to the point, identical to baseline. Although the goal of baseline and catch trials was the same, significant aftereffects in catch trials indicated behavioral adaptation in response to the perturbation. Adaptation occurred regardless of whether the perturbation was relevant to the task, and it was independent of feedback control. The presence of adaptation orthogonal to task demands supports the hypothesis that the nervous system can rely on sensory prediction to drive motor learning that can generalize across tasks. [ABSTRACT FROM AUTHOR]

Published

2012

13. The feasibility and efficacy of a serial reaction time task that measures motor learning of anticipatory stepping.

Author

Olivier, Geneviève N., Paul, Serene S., Walter, Christopher S., Hayes, Heather A., Foreman, K. Bo, Duff, Kevin, Schaefer, Sydney Y., and Dibble, Leland E.

Subjects

*MOTOR learning, *SCREEN time, *REHABILITATION, *OLDER people, *ADVERSE health care events, *RESEARCH, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *LEARNING, *COMPARATIVE studies, *WALKING, *RESEARCH funding, *REACTION time, *LONGITUDINAL method

Abstract

Background: Motor learning has been investigated using various paradigms, including serial reaction time tasks (SRTT) that examine upper extremity reaching and pointing while seated. Few studies have used a stepping SRTT, which could offer additional insights into motor learning involving postural demands. For a task to measure motor learning, naïve participants must demonstrate a) improved performance with task practice, and b) a dose-response relationship to learning the task.Research Question: Is a stepping SRTT feasible and efficacious for measuring motor learning?Methods: In this prospective study, 20 participants stood on an instrumented mat and were presented with stimuli on a computer screen. They stepped to the corresponding positions on the mat as quickly as possible. Presented stimuli included random sequences and a blinded imbedded repeating sequence. Three days after completing the randomly assigned practice dose [high dose group (n = 10) performed 4320 steps; low dose group (n = 10) performed 144 steps], a retention test of 72 steps was performed. Feasibility was measured as the proportion of participants who completed the assigned practice dose without adverse events. Efficacy was measured as within-group performance improvement on the random sequences and on the repeating sequence (paired t-tests), as well as a dose-response relationship to learning both types of sequences (independent t-tests).Results: All participants (mean age 26.8 years) completed all practice sessions without adverse events, indicating feasibility. High dose practice resulted in performance improvement while low dose did not; a dose-response relationship was found, with high dose practice resulting in greater learning of the task than low dose practice, indicating efficacy.Significance: This stepping SRTT is a feasible and efficacious way to measure motor learning, which could provide critical insights into anticipatory stepping, postural control, and fall risk. Future research is needed to determine feasibility, efficacy, and optimal practice dosages for older and impaired populations. [ABSTRACT FROM AUTHOR]

Published

2021

14. Declines in motor transfer following upper extremity task-specific training in older adults.

Author

Walter, Christopher S., Hengge, Caitlin R., Lindauer, Bergen E., and Schaefer, Sydney Y.

Subjects

*FUNCTIONAL loss in older people, *ACTIVITIES of daily living training, *MOTOR ability, *ARM, *GERIATRIC rehabilitation

Abstract

Abstract Background Age-related declines in function can limit older adults' independence with activities of daily living (ADLs). While task-specific training maybe a viable approach to improve function, limited clinical resources prevent extensive training on wide ranges of skills and contexts. Thus, training on one task for the benefit of another (i.e., transfer) is important in geriatric physical rehabilitation. The purpose of this study was to test whether motor transfer would occur between two functionally different upper extremity tasks that simulate ADLs in a sample of older adults following task-specific training. Methods Ninety community dwelling adults ages 43 to 94 years old performed two trials of a functional dexterity and functional reaching task at baseline, and were then assigned to one of two groups. The training group completed 3 days of task-specific training (150 trials) on the functional reaching task, whereas the no-training group received no training on either task. Both groups were re-tested on both tasks at the end of Day 3. Results No significant interactions were observed between group (training vs. no-training) and time (baseline vs. re-test) on the functional dexterity task (i.e. transfer task), indicating no difference in the average amount of change from baseline to re-test between the groups. However, post hoc bivariate linear regression revealed an effect of age on motor transfer within the training group. For those who trained on the functional reaching task, the amount of transfer to the dexterity task was inversely related to age. There was no significant relationship between age and motor transfer for the no-training group. Discussion and conclusions Results of our a priori group analysis suggest that functional reaching training did not, on average, transfer to the dexterity task. However, post hoc regression analysis showed that motor transfer was both experience- and age-dependent, such that motor transfer may decline with advanced age. Future research will consider how functional and cognitive aging influences transfer of motor skills across different activities of daily living. Highlights • No group difference in transfer between those who did vs. did not undergo task-specific training. • Amount of transfer following task-specific training is inversely related to age. • Transfer in older adults appears to be age- and experience-dependent. [ABSTRACT FROM AUTHOR]

Published

2019

15. Placebo effects of transcranial direct current stimulation on motor skill acquisition.

Author

Haikalis, Nicole K., Hooyman, Andrew, Wang, Peiyuan, Daliri, Ayoub, and Schaefer, Sydney Y.

Subjects

*TRANSCRANIAL direct current stimulation, *MOTOR ability, *PLACEBOS, *BRAIN stimulation, *MOTOR cortex

Abstract

• Both active and sham tDCS enhanced motor skill acquisition. • More skill acquisition was associated with higher expectations of tDCS. • Analyses controlled for factors such as participant and experimenter sex. • Results suggest a significant placebo effect of tDCS on motor skill acquisition. Transcranial direct current stimulation (tDCS) is a non-invasive brain stimulation technique used in neurorehabilitation to enhance motor training. However, its benefits to motor training can be difficult to reproduce across research studies. It is possible that the observed benefits of tDCS are not directly related to the intervention itself but rather to the brain-mind responses elicited by the treatment context, commonly known as a placebo effect. This study investigated the presence of a placebo effect of tDCS on motor training and explored potential underlying factors. Sixty-eight participants who were right-handed were randomly assigned to active tDCS, sham tDCS, or a no-stimulation control group. Double-blind active or sham tDCS was applied to the right primary motor cortex, while the unblinded control group received no stimulation. All participants completed 30 training trials of a functional upper-extremity motor task. Participants' beliefs of tDCS, along with their prior knowledge of tDCS, were also collected. There was no significant difference in the amount of improvement on the motor task between the active and sham tDCS groups; however, both active and sham tDCS groups improved more than the control group, indicating a placebo effect. More motor task improvement was also associated with higher beliefs of tDCS (regardless of whether active or sham tDCS was received). This demonstrates a measurable placebo effect of tDCS on motor training, driven at least in part by treatment expectations or beliefs. Future tDCS studies should control for beliefs and other placebo-related factors. [ABSTRACT FROM AUTHOR]

Published

2023

16. Volumetric regional MRI and neuropsychological predictors of motor task variability in cognitively unimpaired, Mild Cognitive Impairment, and probable Alzheimer's disease older adults.

Author

Malek-Ahmadi, Michael, Duff, Kevin, Chen, Kewei, Su, Yi, King, Jace B., Koppelmans, Vincent, and Schaefer, Sydney Y.

Subjects

*MAGNETIC resonance imaging, *NEUROPSYCHOLOGY, *MILD cognitive impairment, *OLDER people, *ALZHEIMER'S disease

Abstract

The mechanisms linking motor function to Alzheimer's disease (AD) progression have not been well studied, despite evidence of AD pathology within motor brain regions. Thus, there is a need for new motor measure that is sensitive and specific to AD. In a sample of 121 older adults (54 cognitive unimpaired [CU], 35 amnestic Mild Cognitive Impairment [aMCI], and 32 probable mild AD), intrasubject standard deviation (ISD) across six trials of a novel upper-extremity motor task was predicted with volumetric regional gray matter and neuropsychological scores using classification and regression tree (CART) analyses. Both gray matter and neuropsychological CART models indicated that motor task ISD (our measure of motor learning) was related to cortical regions and cognitive test scores associated with memory, executive function, and visuospatial skills. CART models also accurately distinguished motor task ISD of MCI and probable mild AD from CU. Variability in motor task performance across practice trials may be valuable for understanding preclinical and early-stage AD. • Our motor learning test may help screen for Alzheimer's Disease (AD). • Data justify studying variability of a motor assessment across multiple attempts. • Classification and regression tree (CART) analyses are valuable for aging research. • Future research will validate motor task variability against AD biomarkers. [ABSTRACT FROM AUTHOR]

Published

2023

17. Rey-Osterrieth complex figure recall scores and motor skill learning in older adults: A non-linear mixed effect model-based analysis.

Author

Wang, Peiyuan, Lingo VanGilder, Jennapher, Schweighofer, Nicolas, and Schaefer, Sydney Y.

Subjects

*MOTOR learning, *GERIATRIC psychology, *PHYSICAL therapists, *REY-Osterrieth Complex Figure Test, *DATA analysis

Abstract

Age-related declines in motor learning are well documented. Visuospatial memory has been proposed as a key factor explaining age-related declines in sensorimotor adaptation, but most studies have not used standardized visuospatial memory tests nor controlled for age-related visuospatial memory declines. The present study explores the relationship between visuospatial memory and motor learning in older adults while also controlling for age and utilizing a standardized visuospatial memory test. Forty-nine nondemented older adults repetitively practiced a functional upper-extremity motor task and were re-assessed one week later. Training data were modeled with mixed-effect exponential decay functions, with parameters representing amount of performance change, rate of improvement, and final performance. Age and visuospatial memory were included as possible covariates for the parameter measuring rate of improvement (τ). After controlling for age, higher visuospatial memory scores were associated with faster rates of skill acquisition and better short-term retention one week later. These associations with visuospatial memory were dependent, however, on the level of initial skill. These findings suggest that the extent of re-learning motor skills in geriatric physical rehabilitation may depend on intact visuospatial memory. [ABSTRACT FROM AUTHOR]

Published

2022

18. Evidence for associations between Rey-Osterrieth Complex Figure test and motor skill learning in older adults.

Author

Lingo VanGilder, Jennapher, Lohse, Keith R., Duff, Kevin, Wang, Peiyuan, and Schaefer, Sydney Y.

Subjects

*MOTOR learning, *OLDER people, *ADULT learning, *MOTOR ability, *PRINCIPAL components analysis

Abstract

Age-related declines in motor learning may be related to poor visuospatial function. Thus, visuospatial testing could evaluate older adults' potential for motor learning, which has implications for geriatric motor rehabilitation. To this end, the purpose of this study was to identify which visuospatial test is most predictive of motor learning within older adults. Forty-five nondemented older adults completed six standardized visuospatial tests, followed by three weekly practice sessions on a functional upper-extremity motor task. Participants were re-tested 1 month later on the trained task and another untrained upper-extremity motor task to evaluate the durability and generalizability of motor learning, respectively. Principal component analysis first reduced the dimensions of the visuospatial battery to two principal components for inclusion in a mixed-effects model that assessed one-month follow-up performance as a function of baseline performance and the principal components. Of the two components, only one was related to one-month follow-up. Factor loadings and post hoc analyses suggested that of the six visuospatial tests, the Rey-Osterrieth test (visual construction and memory) was related to one-month follow-up of the trained and untrained tasks. Thus, it may be plausible that older adults' long-term motor learning capacity could be evaluated using the Rey-Osterrieth test, which would be feasible to administer prior to motor rehabilitation to indicate risk of non-responsiveness to therapy. • We investigate if clinical visuospatial tests can predict one-month skill retention. • The Rey-Osterrieth test may predict older adults' long-term motor learning ability. • Motor learning may recruit neural pathways for visual construction and memory. [ABSTRACT FROM AUTHOR]

Published

2021

19. Dopamine replacement improves motor learning of an upper extremity task in people with Parkinson disease.

Author

Paul, Serene S., Dibble, Leland E., Olivier, Genevieve N., Walter, Christopher, Duff, Kevin, and Schaefer, Sydney Y.

Subjects

*ARM, *MOTOR learning, *PARKINSON'S disease, *DOPAMINE agents, *DOPAMINE

Abstract

• People with PD learned a functional motor task following practice "on" levodopa. • People who practiced "off" levodopa worsened task performance during practice. • There were no between group differences in skill decrement or skill transfer. • Upper extremity task practice should be performed while "on" levodopa medication. Dopamine replacement medication has positive effects on existing motor skills for people with Parkinson disease (PD), but may have detrimental effects on the learning of motor skills necessary for effective rehabilitation according to the dopamine overdose hypothesis. This study aimed to determine whether dopamine replacement medication (i.e. levodopa) affects: learning of a novel upper extremity task, decrements in skill following withdrawal of practice, the rate of learning, and the transfer of movement skill to untrained upper extremity tasks compared to training "off" medication, in people with PD. Participants with mild-moderate PD (Hoehn and Yahr stage 2) were randomized to train "on" (n = 12) or "off" (n = 11) levodopa medication. Participants practiced 10 blocks of five trials of a functional motor task with their non-dominant upper extremity over three consecutive days (acquisition period), followed by a single block of five trials two and nine days later. Participants were also assessed "on" levodopa with two transfer tasks (the nine-hole peg test and a functional dexterity task) prior to any practice and nine days after the end of the acquisition period. Participants who practiced "on" levodopa medication learned the upper extremity task to a greater extent that those who practiced "off" medication, as determined by retained performance two days after practice. Skill decrement and skill transfer were not significantly different between groups. Rate of learning was unable to be modelled in this sample. Levodopa medication improved the learning of an upper extremity task in people with mild-moderate PD. [ABSTRACT FROM AUTHOR]

Published

2020