Your search keyword '"Demers, Marika"' showing total 7 results

1. Understanding stroke survivors’ preferences regarding wearable sensor feedback on functional movement: a mixed-methods study

Author

Demers, Marika, Cain, Amelia, Bishop, Lauri, Gunby, Tanisha, Rowe, Justin B., Zondervan, Daniel K., and Winstein, Carolee J.

Published

2023

2. Wearable Technology to Capture Arm Use of People With Stroke in Home and Community Settings: Feasibility and Early Insights on Motor Performance.

Author

Demers, Marika, Bishop, Lauri, Cain, Amelia, Saba, Joseph, Rowe, Justin, Zondervan, Daniel K, and Winstein, Carolee J

Subjects

*HAND physiology, *ARM physiology, *COMMUNITY health services, *MOTOR ability, *SELF-efficacy, *DATA analysis, *RESEARCH funding, *SCIENTIFIC observation, *ACCELEROMETERS, *QUESTIONNAIRES, *WEARABLE technology, *HOME environment, *SEVERITY of illness index, *DESCRIPTIVE statistics, *PSYCHOLOGY of movement, *STROKE rehabilitation, *STATISTICS, *STROKE patients

Abstract

Objective The objectives of this study were to establish the short-term feasibility and usability of wrist-worn wearable sensors for capturing the arm and hand activity of people with stroke and to explore the association between factors related to the use of the paretic arm and hand. Methods Thirty people with chronic stroke were monitored with wrist-worn wearable sensors for 12 hours per day for a 7-day period. Participants also completed standardized assessments to capture stroke severity, arm motor impairments, self-perceived arm use, and self-efficacy. The usability of the wearable sensors was assessed using the adapted System Usability Scale and an exit interview. Associations between motor performance and capacity (arm and hand impairments and activity limitations) were assessed using Spearman correlations. Results Minimal technical issues or lack of adherence to the wearing schedule occurred, with 87.6% of days procuring valid data from both sensors. The average sensor wear time was 12.6 (standard deviation [SD] = 0.2) hours per day. Three participants experienced discomfort with 1 of the wristbands, and 3 other participants had unrelated adverse events. There were positive self-reported usability scores (mean = 85.4/100) and high user satisfaction. Significant correlations were observed for measures of motor capacity and self-efficacy with paretic arm use in the home and the community (Spearman correlation coefficients = 0.44–0.71). Conclusions This work demonstrates the feasibility and usability of a consumer-grade wearable sensor for capturing paretic arm activity outside the laboratory. It provides early insight into the everyday arm use of people with stroke and related factors, such as motor capacity and self-efficacy. Impact The integration of wearable technologies into clinical practice offers new possibilities to complement in-person clinical assessments and to better understand how each person is moving outside of therapy and throughout the recovery and reintegration phase. Insight gained from monitoring the arm and hand use of people with stroke in the home and community is the first step toward informing future research with an emphasis on causal mechanisms with clinical relevance. [ABSTRACT FROM AUTHOR]

Published

2024

3. Clinical Motor Coordination Scales in Adult Neurology: A Scoping Review Protocol

Author

Schwartz, Elka, Guidry, Kathryn, Lee, Amanda, Dinh, Danny, Demers, Marika, and Levin, Mindy

Subjects

coordination, outcome measure, neurology, Medicine and Health Sciences, protocol, scoping review, rehabilitation

Abstract

Background: Sensorimotor coordination is an important construct to assess in clinical neurological practice but is often assessed subjectively by therapists. Current clinical outcome measures have been criticized for not capturing movements in both spatial and temporal domains. Objectives: To identify (1) clinical outcome measures of upper limb, lower limb and trunk motor coordination, (2) whether and to what extent scales have been validated and in which neurological population(s), (3) how each outcome measure assesses coordination. Methods: MEDLINE and EMBASE databases will be searched using a combination of keywords related to movement quality, motor performance, motor coordination, assessment, psychometrics and reproducibility of results. Two reviewers will first screen the titles and abstracts and then, screen the full-text to determine eligibility criteria. Publications that describe the development and/or psychometric testing of a clinical outcome measure of coordination will be included. For each included publication, the name of the outcome measure, the body part assessed, the neurological population in which the measure is used, the psychometric properties, and the spatial and/or temporal coordination metrics will be extracted. Discussion: This scoping review will help clinicians identify and select outcome measures to assess sensorimotor coordination. It can also help to highlight the gaps in the literature with regards to sensorimotor coordination assessment in the clinical setting.

Published

2022

4. Motor learning in neurological rehabilitation.

Author

Levin, Mindy F. and Demers, Marika

Subjects

*NEUROLOGICAL disorders, *VIRTUAL reality, *PHYSICAL therapy, *NEUROPLASTICITY, *LEARNING strategies, *OCCUPATIONAL therapy, *KINEMATICS, *DOSE-response relationship in biochemistry

Abstract

While most upper limb training interventions in neurological rehabilitation are based on established principles of motor learning and neural plasticity, recovery potential may be improved if the focus includes remediating an individual's specific motor impairment within the framework of a motor control theory. This paper reviews current theories of motor control and motor learning and describes how they can be incorporated into training programs to enhance sensorimotor recovery in patients with neurological lesions. An emphasis is placed on dynamical systems theory and the use of new technologies such as virtual, augmented and mixed reality applications for rehabilitation to facilitate learning. Kinematic abundance allows the healthy nervous system to produce different combinations of joint rotations to perform a desired task. The structure of practice to improve the movement repertoire in rehabilitation should take into account the kinematic abundance of the system. Learning can be enhanced by varied practice with feedback about key movement elements. Virtual reality environments provide opportunities to manipulate the structure and schedule of practice and feedback. [ABSTRACT FROM AUTHOR]

Published

2021

5. A perspective on the use of ecological momentary assessment and intervention to promote stroke recovery and rehabilitation.

Author

Demers, Marika and Winstein, Carolee J.

Subjects

CONVALESCENCE, MEDICAL care, STROKE rehabilitation, STATISTICAL sampling, BEHAVIOR modification

Abstract

Motivated by recent advances in technologies, ecological momentary assessment (EMA), and ecological momentary intervention (EMI) have seen a rise in behavioral medicine research that in real-time, informs the context for the behavior and prompts interventions to change that behavior in the natural setting when necessary. However, EMA and EMI have yet to be fully embraced in the field of stroke rehabilitation. Our objective is to provide a theoretically based perspective for the combined and synergistic use of EMA and EMI to promote person-centered, recovery-based durable changes in functional movement behaviors of stroke survivors. Research abounds for non-stroke populations with emerging evidence for the benefits of using real-time data capture techniques (i.e. EMA) coupled with EMI to better customize the content and timing of interventions to the inherent fluctuations in state and context that encompass the target behavior. We review existing EMA and EMI literature broadly in behavioral medicine and psychological science to identify how real-time repeated sampling technology has been used in the context of stroke rehabilitation and to delineate the pros and cons of this approach in general with non-stroke populations. We propose a coupled EMA and EMI strategy be used in conjunction with existing stroke recovery and rehabilitation practices. There is tremendous potential to effectively personalize recovery-promoting interventions to achieve durable behavior change, and importantly, shift the focus of rehabilitation practice from the health-care provider and clinical environment to the individual and their lived experience in the home and community. [ABSTRACT FROM AUTHOR]

Published

2021

6. Kinematic Validity of Reaching in a 2D Virtual Environment for Arm Rehabilitation After Stroke.

Author

Demers, Marika and Levin, Mindy F.

Subjects

VIRTUAL reality, STROKE, REHABILITATION, PHYSICAL environment, ARM

Abstract

Increasing evidence supports the use of virtual reality for stroke rehabilitation. However, movement performance and quality may be diminished by the attributes of the virtual environment (VE), which may be detrimental to motor relearning. Our aim was to determine whether reach-to-grasp movements made in a low-cost 2DVE were kinematically similar to those made in a comparable physical environment (PE) in healthy subjects and subjects with stroke. Subjects (healthy = 15, stroke = 22) made unilateral and bilateral reach-to-grasp movements in a 2DVE and a similar PE. Arm and trunk kinematics were recorded with an optoelectronic measurement system (23 markers; 120 Hz). Temporal and spatial characteristics of the endpoint trajectory, arm and trunk movement patterns were compared between environments and groups. In each group, hand positioning at object contact time and trunk displacement were unaffected by the environment. Compared to PE, in VE, unilateral movements were less smooth and time to peak velocity was prolonged. In healthy subjects, bilateral movements were simultaneous and symmetrical in both environments. In subjects with stroke, movements were less symmetrical in VE. Aside from differences in endpoint displacement between environments, movement quality variables were unaffected by the 2DVE. Thus, using a low-cost 2DVE may be a valid approach for sensorimotor rehabilitation following stroke. [ABSTRACT FROM AUTHOR]

Published

2020

7. Feasibility of incorporating functionally relevant virtual rehabilitation in sub-acute stroke care: perception of patients and clinicians.

Author

Demers, Marika, Chan Chun Kong, Daniel, and Levin, Mindy F.

Subjects

*STROKE treatment, *ARM, *TASK performance, *FOCUS groups, *QUALITATIVE research, *DATA analysis, *REHABILITATION, *PILOT projects, *INTERVIEWING, *QUESTIONNAIRES, *JUDGMENT sampling, *QUANTITATIVE research, *DESCRIPTIVE statistics, *EXPOSURE therapy, *SUBACUTE care, *OCCUPATIONAL therapy, *THEMATIC analysis, *ATTITUDES of medical personnel, *RESEARCH methodology, *VIRTUAL reality therapy, *PATIENTS' attitudes, RESEARCH evaluation

Abstract

Purpose: To determine user satisfaction and safety of incorporating a low-cost virtual rehabilitation intervention as an adjunctive therapeutic option for cognitive-motor upper limb rehabilitation in individuals with sub-acute stroke. Methods: A low-cost upper limb virtual rehabilitation application incorporating realistic functionally-relevant unimanual and bimanual tasks, specifically designed for cognitive-motor rehabilitation was developed for patients with sub-acute stroke. Clinicians and individuals with stroke interacted with the intervention for 15–20 or 20–45 minutes, respectively. The study had a mixed-methods convergent parallel design that included a focus group interview with clinicians working in a stroke program and semi-structured interviews and standardized assessments (Borg Perceived Exertion Scale, Short Feedback Questionnaire) for participants with sub-acute stroke undergoing rehabilitation. The occurrence of adverse events was also noted. Results: Three main themes emerged from the clinician focus group and patient interviews: Perceived usefulness in rehabilitation, satisfaction with the virtual reality intervention and aspects to improve. All clinicians and the majority of participants with stroke were highly satisfied with the intervention and perceived its usefulness to decrease arm motor impairment during functional tasks. No participants experienced major adverse events. Conclusions: Incorporation of this type of functional activity game-based virtual reality intervention in the sub-acute phase of rehabilitation represents a way to transfer skills learned early in the clinical setting to real world situations. This type of intervention may lead to better integration of the upper limb into everyday activities. • Use of a cognitive-motor low-cost virtual reality intervention designed to remediate arm motor impairments in sub-acute stroke is feasible, safe and perceived as useful by therapists and patients for stroke rehabilitation. • Input from end-users (therapists and individuals with stroke) is critical for the development and implementation of a virtual reality intervention. [ABSTRACT FROM AUTHOR]

Published

2019