Kelly M. Seymour scite author profile

The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent cell phone use on human gait may help develop safety guidelines for pedestrians. It was shown previously that older adults had more pronounced dual-task interferences than younger adults when concurrent cognitive task required visual information processing. Thus, cell phone use might have greater impact on walking stability in older than in younger adults. This study examined gait stability and variability during a cell phone dialing task (phone) and two classic cognitive tasks, the Paced Auditory Serial Addition Test (PASAT) and Symbol Digit Modalities Test (SDMT). Nine older and seven younger healthy adults walked on a treadmill at four different conditions: walking only, PASAT, phone, and SDMT. We computed short-term local divergence exponent (LDE) of the trunk motion (local stability), dynamic margins of stability (MOS), step spatiotemporal measures, and kinematic variability. Older and younger adults had similar values of short-term LDE during all conditions, indicating that local stability was not affected by the dual-task. Compared to walking only, older and younger adults walked with significantly greater average mediolateral MOS during phone and SDMT conditions but significantly less ankle angle variability during all dual-tasks and less knee angle variability during PASAT. The current findings demonstrate that healthy adults may try to control foot placement and joint kinematics during cell phone use or another cognitive task with a visual component to ensure sufficient dynamic margins of stability and maintain local stability.

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Cellular Telephone Dialing Influences Kinematic and Spatiotemporal Gait Parameters in Healthy Adults

Seymour

Higginson

DeGoede

et al. 2016

Journal of Motor Behavior

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Gait speed is typically reduced when individuals simultaneously perform other tasks. However, the impact of dual tasking on kinetic and kinematic gait parameters is unclear because these vary with gait speed. The objective of this study was to identify whether dual tasking impacts gait in healthy adults when speed is constant. Twenty-two healthy adults dialed a cell phone during treadmill walking at a self-selected speed while kinetic, kinematic, and spatial parameters were recorded. Results indicated that dual tasking did not impact phone dialing speed, but increased stride width, peak knee flexion during stance, and peak plantarflexion, and decreased knee and ankle range of motion. Dual tasking appears to influence kinematic gait variables in a manner consistent with promotion of stability.

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Computational Analysis of Microstructure of Ultra High Molecular Weight Polyethylene for Total Joint Replacement

Seymour¹,

Atwood

2013

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Ultra high molecular weight polyethylene (UHMWPE, or ultra high), a frequently used material in orthopedic joint replacements, is often the cause of joint failure due to wear, fatigue, or fracture. These mechanical failures have been related to ultra high's strength and stiffness, and ultimately to the underlying microstructure, in previous experimental studies. Ultra high's semicrystalline microstructure consists of about 50% crystalline lamellae and 50% amorphous regions. Through common processing treatments, lamellar percentage and size can be altered, producing a range of mechanical responses. However, in the orthopedic field the basic material properties of the two microstructural phases are not typically studied independently, and their manipulation is not computationally optimized to produce desired mechanical properties. Therefore, the purpose of this study is to: (1) develop a 2D linear elastic finite element model of actual ultra high microstructure and fit the mechanical properties of the microstructural phases to experimental data and (2) systematically alter the dimensions of lamellae in the model to begin to explore optimizing the bulk stiffness while decreasing localized stress. The results show that a 2D finite element model can be built from a scanning electron micrograph of real ultra high lamellar microstructure, and that linear elastic constants can be fit to experimental results from those same ultra high formulations. Upon altering idealized lamellae dimensions, we found that bulk stiffness decreases as the width and length of lamellae increase. We also found that maximum localized Von Mises stress increases as the width of the lamellae decrease and as the length and aspect ratio of the lamellae increase. Our approach of combining finite element modeling based on scanning electron micrographs with experimental results from those same ultra high formulations and then using the models to computationally alter microstructural dimensions and properties could advance our understanding of how microstructure affects bulk mechanical properties. This advanced understanding could allow for the engineering of next-generation ultra high microstructures to optimize mechanical behavior and increase device longevity.

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30th International Symposium on Ballistics

Hernandez¹,

Ames²,

Baker³

et al.

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A-26 Performance on Design Fluency and Visuoperception Measures is Related to Single and Dual Task Treadmill Gait Parameters in Healthy Adults

Wadia¹,

Higginson²,

Bifano³

et al. 2019

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Objective Research suggests a link between gait and cognition. Executive functions have been related to gait speed, however the relation between design fluency and visuoperception and other spatiotemporal gait characteristics that are related to falling is unclear. The objective of the study was to determine whether performance on design fluency and visuoperception tasks is related to spatiotemporal gait parameters during single and dual task treadmill walking in a sample of healthy adults. Method Nineteen healthy adults averaging 40 years of age completed cognitive measures of design fluency, visual attention, and visuoperception. They underwent gait analysis while walking on an instrumented treadmill in single task and dual task conditions. Results Performance on Spatial Span significantly correlated with single task stride length, r = 0.47, p = 0.043. Performance on Block Design significantly correlated with dual task stride length, r = 0.46, p = 0.049. Performance on Design Fluency significantly correlated with single task stride length variability, r = -0.50, p = 0.030, dual task stride length variability, r = -0.62, p = 0.005, and dual task step width variability, r = -0.56, p = 0.012. Performance on Picture Completion also correlated with dual task step width variability, r = -0.54, p = 0.017. Conclusions Design fluency and visuoperception appear related to spatiotemporal gait parameters in healthy adults. Worse cognitive performance was related to greater variability in dual task stride length and step width, gait characteristics associated with falling in aging and neurological populations.

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Kelly M. Seymour

Walking stability during cell phone use in healthy adults

Cellular Telephone Dialing Influences Kinematic and Spatiotemporal Gait Parameters in Healthy Adults

Computational Analysis of Microstructure of Ultra High Molecular Weight Polyethylene for Total Joint Replacement

30th International Symposium on Ballistics

A-26 Performance on Design Fluency and Visuoperception Measures is Related to Single and Dual Task Treadmill Gait Parameters in Healthy Adults

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