2,699 research outputs found
Competitive Orientations and Motives of Adult Sport and Exercise Participants
Participants in four different adult sport and exercise programs (running club, exercise classes, cardiac rehabilitation program, senior games) completed measures of competitive orientation and participation motivation. Our samples were older and more diverse than samples of previous research, and their competitive orientations and motives were similarly diverse. Multivariate analyses revealed gender and sample differences. Males were higher than females on competitiveness and win orientation, and runners were less win-oriented than other groups, but overall, all groups were similar to previous college-age samples in competitive orientation. Groups varied on specific motives, with females rating fitness, flexibility, affiliation, and appearance higher than males did. Generally, participants were diverse in orientations and motives, and positive about their participation. Research and conceptual models of sport orientation must extend beyond achievement motives to capture the diversity of adult participants. Program directors and instructors who offer activities and approaches to match this diversity will encourage wider participation and provide a more satisfying experience for more participants
Recommended from our members
Electrophysiological Guidance of Epidural Electrode Array Implantation over the Human Lumbosacral Spinal Cord to Enable Motor Function after Chronic Paralysis.
Epidural electrical stimulation (EES) of the spinal cord has been shown to restore function after spinal cord injury (SCI). Characterization of EES-evoked motor responses has provided a basic understanding of spinal sensorimotor network activity related to EES-enabled motor activity of the lower extremities. However, the use of EES-evoked motor responses to guide EES system implantation over the spinal cord and their relation to post-operative EES-enabled function in humans with chronic paralysis attributed to SCI has yet to be described. Herein, we describe the surgical and intraoperative electrophysiological approach used, followed by initial EES-enabled results observed in 2 human subjects with motor complete paralysis who were enrolled in a clinical trial investigating the use of EES to enable motor functions after SCI. The 16-contact electrode array was initially positioned under fluoroscopic guidance. Then, EES-evoked motor responses were recorded from select leg muscles and displayed in real time to determine electrode array proximity to spinal cord regions associated with motor activity of the lower extremities. Acceptable array positioning was determined based on achievement of selective proximal or distal leg muscle activity, as well as bilateral muscle activation. Motor response latencies were not significantly different between intraoperative recordings and post-operative recordings, indicating that array positioning remained stable. Additionally, EES enabled intentional control of step-like activity in both subjects within the first 5 days of testing. These results suggest that the use of EES-evoked motor responses may guide intraoperative positioning of epidural electrodes to target spinal cord circuitry to enable motor functions after SCI
National Security in the Information Age: Are We Heading Toward Big Brother?
Symposium Welcome: Alexander McDaniel, Symposium Editor, University of Richmond Law Review, and Wendy C. Perdue, Dean of the University of Richmond School of Law. (9:00 a.m. - 9:15 a.m.)
“How Does the Government Collect Data Through Surveillance?” Panel Discussion: William C. Banks, Distinguished Professor of Law at Syracuse University College of Law and Founding Director of the Institute for National Security and Counterterrorism, and Jake Laperruque, Privacy Fellow with The Constitution Project. Professor Paul D. Crane, Associate Professor at the University of Richmond School of Law, served as moderator. (9:15 a.m. - 10:30 a.m.)
“How Does the Government Retain and Destroy Data?” lecture: Douglas Cox, Associate Professor at CUNY School of Law. (10:45 a.m. - 11:45 a.m.)
“How Does Data Impact the Courtroom?” Panel: Lt. Colonel Jeffrey Addicott (U.S. Army, ret.), Professor of Law and Director of the Center for Terrorism Law at St. Mary’s University School of Law, and Paul Gill, Assistant Federal Public Defender for the Federal Public Defender, Eastern District of Virginia. Douglas A. Ramseur, Capital Defender with the Office of the Capital Defender in Central Virginia, served as moderator. (1:00 p.m.- 2:15 p.m.)
Keynote Address: Thomas J. Ridge, former Pennsylvania Governor and the first U.S. Secretary of Homeland Security. (2:30 p.m. – 3:30 p.m.
SLUGBOT, an Aplysia-inspired Robotic Grasper for Studying Control
Living systems can use a single periphery to perform a variety of tasks and
adapt to a dynamic environment. This multifunctionality is achieved through the
use of neural circuitry that adaptively controls the reconfigurable
musculature. Current robotic systems struggle to flexibly adapt to unstructured
environments. Through mimicry of the neuromechanical coupling seen in living
organisms, robotic systems could potentially achieve greater autonomy. The
tractable neuromechanics of the sea slug
feeding apparatus, or buccal mass, make it an ideal candidate for applying
neuromechanical principles to the control of a soft robot. In this work, a
robotic grasper was designed to mimic specific morphology of the
feeding apparatus. These include the use of soft actuators
akin to biological muscle, a deformable grasping surface, and a similar
muscular architecture. A previously developed Boolean neural controller was
then adapted for the control of this soft robotic system. The robot was capable
of qualitatively replicating swallowing behavior by cyclically ingesting a
plastic tube. The robot's normalized translational and rotational kinematics of
the odontophore followed profiles observed despite
morphological differences. This brings -inspired control
one step closer to multifunctional neural control schema
and . Future additions may improve
SLUGBOT's viability as a neuromechanical research platform.Comment: Submitted and accepted to Living Machines 2022 conferenc
Stability of Satellite Planes in M31 II: Effects of the Dark Subhalo Population
The planar arrangement of nearly half the satellite galaxies of M31 has been
a source of mystery and speculation since it was discovered. With a growing
number of other host galaxies showing these satellite galaxy planes, their
stability and longevity have become central to the debate on whether the
presence of satellite planes are a natural consequence of prevailing
cosmological models, or represent a challenge. Given the dependence of their
stability on host halo shape, we look into how a galaxy plane's dark matter
environment influences its longevity. An increased number of dark matter
subhalos results in increased interactions that hasten the deterioration of an
already-formed plane of satellite galaxies in spherical dark halos. The role of
total dark matter mass fraction held in subhalos in dispersing a plane of
galaxies present non trivial effects on plane longevity as well. But any
misalignments of plane inclines to major axes of flattened dark matter halos
lead to their lifetimes being reduced to < 3 Gyrs. Distributing > 40% of total
dark mass in subhalos in the overall dark matter distribution results in a
plane of satellite galaxies that is prone to change through the 5 Gyr
integration time period.Comment: 11 pages, 9 figures, accepted to MNRAS September 22 201
A clarion call for aeolian research to engage with global land degradation and climate change
This editorial represents a clarion call for the aeolian research community to provide increased scientific input to the Intergovernmental Panel on Climate Change (IPCC) and the United Nations Convention to Combat Desertification (UNCCD) and an invitation to apply for ISAR funding to organize a working group to support this engagement
GluN2A NMDA Receptor Enhancement Improves Brain Oscillations, Synchrony, and Cognitive Functions in Dravet Syndrome and Alzheimer's Disease Models.
NMDA receptors (NMDARs) play subunit-specific roles in synaptic function and are implicated in neuropsychiatric and neurodegenerative disorders. However, the in vivo consequences and therapeutic potential of pharmacologically enhancing NMDAR function via allosteric modulation are largely unknown. We examine the in vivo effects of GNE-0723, a positive allosteric modulator of GluN2A-subunit-containing NMDARs, on brain network and cognitive functions in mouse models of Dravet syndrome (DS) and Alzheimer's disease (AD). GNE-0723 use dependently potentiates synaptic NMDA receptor currents and reduces brain oscillation power with a predominant effect on low-frequency (12-20 Hz) oscillations. Interestingly, DS and AD mouse models display aberrant low-frequency oscillatory power that is tightly correlated with network hypersynchrony. GNE-0723 treatment reduces aberrant low-frequency oscillations and epileptiform discharges and improves cognitive functions in DS and AD mouse models. GluN2A-subunit-containing NMDAR enhancers may have therapeutic benefits in brain disorders with network hypersynchrony and cognitive impairments
Screening Analysis for the Environmental Risk Evaluation System Task 2.1.1.2: Evaluating Effects of Stressors Fiscal Year 2011 Progress Report - Environmental Effects of Marine and Hydrokinetic Energy
Potential environmental effects of marine and hydrokinetic (MHK) energy development are not well understood, and yet regulatory agencies are required to make decisions in spite of substantial uncertainty about environmental impacts and their long-term consequences. An understanding of risks associated with interactions between MHK installations and aquatic receptors, including animals, habitats, and ecosystems, can help define key uncertainties and focus regulatory actions and scientific studies on interactions of most concern. As a first step in developing the Pacific Northwest National Laboratory (PNNL) Environmental Risk Evaluation System (ERES), PNNL scientists conducted a preliminary risk screening analysis on three initial MHK cases. During FY 2011, two additional cases were added: a tidal project in the Gulf of Maine using Ocean Renewable Power Company TidGenTM turbines and a wave project planned for the coast of Oregon using Aquamarine Oyster surge devices. Through an iterative process, the screening analysis revealed that top-tier stressors in the two FY 2011 cases were the dynamic effects of the device (e.g., strike), accidents/disasters, and effects of the static physical presence of the device (e.g., habitat alteration). Receptor interactions with these stressors at the highest tiers of risk were dominated by threatened and endangered animals. Risk to the physical environment from changes in flow regime also ranked high. Peer review of this process and results will be conducted in early FY 2012. The ERES screening analysis provides an analysis of vulnerability of environmental receptors to stressors associated with MHK installations, probability analysis is needed to determine specific risk levels to receptors. “Risk” has two components: (1) The likelihood, or “probability”, of the occurrence of a given interaction or event, and (2) the potential “consequence” if that interaction or event were to occur. During FY 2011, the ERES screening analysis focused primarily on the second component of risk, “consequence”, with focused probability analysis for interactions where data was sufficient for probability modeling. Consequence analysis provides an assessment of vulnerability of environmental receptors to stressors associated with MHK installations. Probability analysis is needed to determine specific risk levels to receptors and requires significant data inputs to drive risk models. During FY 2011, two stressor-receptor interactions were examined for the probability of occurrence. The two interactions (spill probability due to an encounter between a surface vessel and an MHK device; and toxicity from anti-biofouling paints on MHK devices) were seen to present relatively low risks to marine and freshwater receptors of greatest concern in siting and permitting MHK devices. A third probability analysis was scoped and initial steps taken to understand the risk of encounter between marine animals and rotating turbine blades. This analysis will be completed in FY 2012
Diesel Exhaust Inhalation Elicits Acute Vasoconstriction in Vivo
BACKGROUND: Traffic-related air pollution is consistently associated with cardiovascular morbidity
and mortality. Recent human and animal studies suggest that exposure to air pollutants affects vascular
function. Diesel exhaust (DE) is a major source of traffic-related air pollution.
OBJECTIVES: Our goal was to study the effects of short-term exposure to DE on vascular reactivity
and on mediators of vascular tone.
METHODS: In a double-blind, crossover, controlled exposure study, 27 adult volunteers (10 healthy
and 17 with metabolic syndrome) were exposed in randomized order to filtered air (FA) and each of
two levels of diluted DE (100 or 200 μg/m3 of fine particulate matter) in 2-hr sessions. Before and
after each exposure, we assessed the brachial artery diameter (BAd) by B-mode ultrasound and collected
blood samples for endothelin-1 (ET-1) and catecholamines. Postexposure we also assessed
endothelium-dependent flow-mediated dilation (FMD).
RESULTS: Compared with FA, DE at 200 μg/m3 elicited a decrease in BAd (0.11 mm; 95% confidence
interval, 0.02–0.18), and the effect appeared linearly dose related with a smaller effect at 100
μg/m3. Plasma levels of ET-1 increased after 200 μg/m3 DE but not after FA (p = 0.01). There was
no consistent impact of DE on plasma catecholamines or FMD.
CONCLUSIONS: These results demonstrate that short-term exposure to DE is associated with acute
endothelial response and vasoconstriction of a conductance artery. Elucidation of the signaling
pathways controlling vascular tone that underlie this observation requires further study
- …