Browsing by Subject "Wheelchairs"

Now showing 1 - 2 of 2
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    Usability and Vibration Analysis of a Low-Profile Automatic Powered Wheelchair to Motor Vehicle Docking System
    (MDPI, 2023) Lee, Chang Dae; Daveler, Brandon J.; Candiotti, Jorge L.; Cooper, Rosemarie; Sivakanthan, Sivashankar; Deepak, Nikitha; Grindle, Garrett G.; Cooper, Rory A.
    The QLX is a low-profile automatic powered wheelchair docking system (WDS) prototype developed to improve the securement and discomfort of wheelchair users when riding in vehicles. The study evaluates the whole-body vibration effects between the proposed QLX and another WDS (4-point tiedown system) following ISO 2631-1 standards and a systematic usability evaluation. Whole-body vibration analysis was evaluated in wheelchairs using both WDS to dock in a vehicle while riding on real-world surfaces. Also, participants rated the usability of each WDS while driving a wheelchair and while riding in a vehicle in driving tasks. Both WDSs showed similar vibration results within the vibration health-risk margins; but shock values below health-risk margins. Fifteen powered wheelchair users reported low task load demand to operate both WDS; but better performance to dock in vehicles with the QLX (p = 0.03). Also, the QLX showed better usability (p < 0.01), less discomfort (p’s < 0.05), and greater security compared to the 4-point tiedown while riding in a vehicle (p’s < 0.05). Study findings indicate that both WDS maintain low shock exposure for wheelchair users while riding vehicles, but a better performance overall to operate the QLX compared to the 4-point tiedown system; hence enhancing user’s autonomy to dock in vehicles independently.
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    Wheeled mobility use outcomes: a systematic review protocol of measurement properties
    (Wolters Kluwer, 2024-09) Mendoza, Kiera; Loeser, Madison; Ouellet, Béatrice; Best, Krista L.; Paula, Rushton W.; Kenyon, Lisa K.; Hinrichs, Rachel J.; Chase, Tony
    Numerous tools have been developed to measure constructs related to wheelchair use. Currently, no toolkit comprehensively details assessments of wheeled mobility device use based on the quality of their measurement properties. The current review aims to systematically identify high-quality assessment tools that measure different aspects of wheeled mobility use. The objectives are two-fold: i) to synthesize outcome measures that assess use of wheeled mobility devices, and ii) to evaluate measurement properties of the assessment tools. The populations of interest are manual wheelchair users, power wheelchair users, and scooter users of any age, diagnosis, or setting. Instruments of any type will be included. The JBI methodology for systematic reviews of measurement properties will guide this review. A search strategy will be developed to search the following databases: MEDLINE (Ovid), Embase, CINAHL (EBSCOhost), PsycINFO (EBSCOhost), PsycTests (EBSCOhost), Web of Science, and Google Scholar. The article selection process, data extraction, and quality appraisal will be performed by 2 independent reviewers, with a third reviewer being consulted to achieve consensus. The methodological quality of the studies will be assessed through the Consensus Standards for the Selection of Measurement Instruments (COSMIN) Risk of Bias tool and the COSMIN Checklist. The quality of the pooled evidence and individual measurement properties will be graded using the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) approach and the COSMIN Criteria for Good Measurement Properties recommendations. Measurement properties of each instrument will be described, with the goal of developing a toolkit that identifies appropriate assessment tools for wheeled mobility use outcomes.