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"Gordon, Keith"
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A small zombie problem
When August DuPont, eleven, leaves his eccentric Aunt Hydrangea's crumbling mansion for the first time ever, he meets family, makes a friend, and attracts a zombie.
Book
Perturbation recovery during walking is impacted by knowledge of perturbation timing in below-knee prosthesis users and non-impaired participants
Previous research found that below-knee prosthesis users proactively increase their lateral margin-of-stability on their impaired side in anticipation of an impending perturbation when the timing is predictable and potentially directed toward the impaired limb. While knowledge of perturbation timing and direction influences proactive strategies, the consequences of such knowledge and anticipatory behavior on recovery from perturbations is unclear. This study characterized center-of-mass (CoM) dynamics of below-knee prosthesis users and non-impaired controls following a lateral perturbation when the perturbation direction is known but a priori knowledge of the timing of perturbation is either known or unknown. Across groups, CoM displacement during perturbation exposure increased when directed towards the impaired or non-dominant limb with no influence of timing knowledge. In addition, peak CoM displacement was less with known timing irrespective of the perturbation direction. Generally, the CoM displacement during perturbation exposure correlated well with the CoM medial-lateral velocity during unperturbed walking, supporting evidence that human response dynamics to lateral perturbations are influenced by the instantaneous state of the body's momentum.
Journal Article
Flora & Ulysses : the illuminated adventures
Rescuing a squirrel after an accident involving a vacuum cleaner, comic-reading cynic Flora Belle Buckman is astonished when the squirrel, Ulysses, demonstrates astonishing powers of strength and flight after being revived.
Book
Electron displacement polarization of high-dielectric constant fiber separators enhances interface stability
The electrostatic effects of separators under the internal electric field are often overlooked, leading to the unreliability of traditional theoretical models. Here we introduce the dielectric constant as a descriptor and develop a high dielectric constant fiber separator primarily composed of phosphorylated cellulose. Under the internal electric field, the intense electron displacement polarization within the high dielectric constant separator enhances the charge transfer kinetics and optimizes the solvation structure, thus mitigating the formation of amorphous organic oligomers at the solid-electrolyte interphase. Furthermore, the separator induces the formation of LiF, thereby forming a robust and low-resistance solid-electrolyte interphase. The separator exhibits high ionic conductivity (0.76 mS cm
−1
at 25 °C) and Li
+
transference number (0.68). Consequently, the Li||LiFePO
4
pouch cell with the prepared separator achieve high specific energy exceeding 350 Wh kg
−1
(relative to the mass of pouch cells) under practical quantities of active materials and electrolyte.
Electrostatic effects of separators under internal electric field is crucial for Li metal batteries. Here, authors develop a high dielectric constant fiber separator that shows substantial polarization under electric field to facilitate a robust and low-resistance solid-electrolyte interphase.
Journal Article
Dylan the villain
Dylan's parents have always boasted that he is the \"very best and cleverest super-villain in the whole wide world,\" but when he meets Addison Van Malice, his powers are put to the test.
Book
Seeing does not mean processing: where we look and the visual information we rely on change independently as we learn a novel walking task
People use vision to inform motor control strategies during walking. With practice performing a target stepping task, people shift their gaze farther ahead, transitioning from watching their feet contact the target to looking for future target locations. The shift in gaze focus suggests the role of vision in motor control changes from emphasizing feedback to feedforward control. The present study examines whether changing visual fixation location is accompanied by a similar change in reliance upon visual information. Twenty healthy young adults practiced stepping on moving targets projected on the surface of a treadmill. Periodically, participants’ visual reliance was probed by hiding stepping targets which inform feedback or feedforward (targets < or > 1.5 steps ahead, respectively) motor control strategies. We calculated visual reliance as the increase in step error when targets were hidden. We hypothesized that with practice, participant reliance on feedback visual information would decrease and their reliance on feedforward visual information would increase. Contrary to our hypothesis, participants became significantly more reliant on feedback visual information with practice (p < 0.001) but their reliance on feedforward visual information did not change (p = 0.49). Participants’ reliance on visual information increased despite looking significantly farther ahead with practice (p < 0.016). Together, these results suggest that participants fixated on feedback information less. However, changes in fixation pattern did not reduce their reliance upon feedback information as stepping performance still significantly decreased when feedback information was removed after training. These findings provide important context for how the role of vision in controlling walking changes with practice.
Journal Article
Tea party rules
\"A bossy little girl makes a bear cub follow all the rules at her tea party before he is allowed to eat any of the cookies\"-- Provided by publisher.
Book
General and Specific Strategies Used to Facilitate Locomotor Maneuvers
People make anticipatory changes in gait patterns prior to initiating a rapid change of direction. How they prepare will change based on their knowledge of the maneuver. To investigate specific and general strategies used to facilitate locomotor maneuvers, we manipulated subjects' ability to anticipate the direction of an upcoming lateral \"lane-change\" maneuver. To examine specific anticipatory adjustments, we observed the four steps immediately preceding a maneuver that subjects were instructed to perform at a known time in a known direction. We hypothesized that to facilitate a specific change of direction, subjects would proactively decrease margin of stability in the future direction of travel. Our results support this hypothesis: subjects significantly decreased lateral margin of stability by 69% on the side ipsilateral to the maneuver during only the step immediately preceding the maneuver. This gait adaptation may have improved energetic efficiency and simplified the control of the maneuver. To examine general anticipatory adjustments, we observed the two steps immediately preceding the instant when subjects received information about the direction of the maneuver. When the maneuver direction was unknown, we hypothesized that subjects would make general anticipatory adjustments that would improve their ability to actively initiate a maneuver in multiple directions. This second hypothesis was partially supported as subjects increased step width and stance phase hip flexion during these anticipatory steps. These modifications may have improved subjects' ability to generate forces in multiple directions and maintain equilibrium during the onset and execution of the rapid maneuver. However, adapting these general anticipatory strategies likely incurred an additional energetic cost.
Journal Article
Wee Sister Strange
\"A wild, nameless girl the townspeople call Wee Sister Strange roams through forests and marshes and bogs in search for a bedtime story\"-- Provided by publisher.
Book
Children with bilateral cerebral palsy use their hip joint to complete a step-up task
Performance in stair-climbing is largely associated with disruptions to mobility and community participation in children with cerebral palsy (CP). It is important to understand the nature of motor impairments responsible for making stairs a challenge in children with bilateral CP to clarify underlying causes of impaired mobility. In pediatric clinical populations, sensitive measurements of movement quality can be captured during the initial step of stair ascent. Thus, the purpose of this study was to quantify the lower limb joint moments of children with bilateral CP during the stance phases of a step-up task. Participants performed multiple stepping trials in a university gait laboratory. Outcome measures included extensor support moments (the sum of hip, knee, and ankle sagittal plane moments), hip abduction moments, and their timing. We recruited seven participants per group. We found that peak support and hip abduction moments were similar in the bilateral CP group compared to the typical development (TD) group. We also found that children with bilateral CP timed their peak moments closer together and increasingly depended on the hip joint to complete the task, especially in their more affected (MA) lower limb. Our investigation highlights some underlying causes that may make stair climbing a challenge for the CP population, including a loss of selective voluntary motor control (SVMC), and provides a possible treatment approach to strengthen lower limb muscles.
Journal Article