340 research outputs found

    Improving root cause analysis through the integration of PLM systems with cross supply chain maintenance data

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    The purpose of this paper is to demonstrate a system architecture for integrating Product Lifecycle Management (PLM) systems with cross supply chain maintenance information to support root-cause analysis. By integrating product-data from PLM systems with warranty claims, vehicle diagnostics and technical publications, engineers were able to improve the root-cause analysis and close the information gaps. Data collection was achieved via in-depth semi-structured interviews and workshops with experts from the automotive sector. Unified Modelling Language (UML) diagrams were used to design the system architecture proposed. A user scenario is also presented to demonstrate the functionality of the system

    Sport-for-development: A comprehensive analysis of theoretical and conceptual advancements

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    © 2019 Sport Management Association of Australia and New Zealand Over the past decade, the field of sport-for-development (SFD) has experienced significant growth and diversification across research and practice. In this review paper, the authors provide a comprehensive analysis and discussion of the theoretical and conceptual developments within SFD, addressing a gap in the literature. Following a sport-focused review of SFD literature, the authors first identify five theoretical and conceptual frameworks that have emerged from within the SFD space. As a second step, they analyze and discuss scholarly work that has utilized these theories and frameworks. Building on a comparison of key messages, themes, and concerns, the authors highlight that to date, limited SFD scholarship has truly applied, extended, or challenged existing frameworks and conceptualizations. Motivated by this review, they posit several conceptual advancements, and offer directions for future research and theoretical development

    Re-engaging local youth for sustainable sport-for-development

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    © 2018 Sport Management Association of Australia and New Zealand Despite increasing evidence that sport-for-development (SFD) programs can contribute to community development, there remains a lack of empirical inquiry into different socio-managerial aspects of SFD. For example, in attempts to achieve locally sustained SFD programs, the roles, responsibilities and potential impact of re-engaged youth need further investigation. The authors define re-engaged youth as previous program participants who have maintained strong links with the organization and who return to the program at a later stage as volunteers or staff members. In this paper, the authors examine ways in which Re-engaged youth of the Blue Dragon Children Foundation's SFD program contribute to sustainable management and indirectly to community development within a disadvantaged community setting in Hanoi, Vietnam. Following an interpretive mode of inquiry, the authors conducted and analyzed two focus groups (six participants each) and 12 in-depth interviews with re-engaged youth (n = 7) and key program stakeholders (n = 5). Overall, re-engaged youth represented key drivers for organizational success; they served as program culture experts, role models, leaders and mentors, and creators of a family feel in SFD and beyond. The authors argue that re-engaged youth are demonstrating a number of important change agent capabilities that enable them to uniquely gauge and best respond to the needs of program participants and local communities in complex sociocultural environments

    Sport for Social Change: Bridging the Theory–Practice Divide

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    Theory development around sport for social change agendas has received greater attention from scholars over the past 10 years. Yet, it remains underdeveloped when compared with theoretical advancements and innovations in other aspects of the sport industry. In this special issue, we bring to light some of the most recent conceptual and empirical work exploring the theory–practice connection in the field of sport for social change

    Evidence of retinal degeneration in Wolfram syndrome

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    Purpose: Wolfram syndrome is characterized by early onset diabetes mellitus, diabetes insipidus, deafness, and optic atrophy, but retinal degeneration has not been described as a major component of the phenotype. We present two cases with Wolfram syndrome and evidence of retinal degeneration. Materials and Methods: Observational case series. Patients underwent complete ocular examinations as well as retinal imaging and electroretinography. Results: Both patients had electroretinographic evidence of retinal dysfunction/degeneration in addition to optic atrophy with an otherwise normal-appearing retina. Conclusions: Some patients with Wolfram syndrome have a mild retinal degeneration that may be a manifestation of the neuronal involvement that is present in this condition

    Leaning in to Address Sleep Disturbances and Sleep Disorders in Department of Defense and Defense Health Agency

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    Letter to the Editor, Military Medicine, 187, 5/6:155, 202217 USC 105 interim-entered record; under review.The article of record as published may be found at http://dx.doi.org/10.1177/0018720820906050In their article entitled, “Engaging Stakeholders to Optimize Sleep Disorders Management in the U.S. Military: A Qualitative Analysis,” Abdelwadoud and colleagues conducted focus groups of service members, primary care managers (PCMs), and administrative stakeholders about their perceptions, experiences, roles in sleep management, stated education needs, and management of sleep disorders.1 The qualitative methods are rigorous, and the findings reinforce and nuance prior results, especially regarding key requirements from PCMs. We feel compelled, however, to further nuance the authors’ conclusion that “current military sleep management practices are neither satisfactory nor maximally effective” and offer specific examples of actions taken by the Department of Defense (DoD) and Defense Health Agency (DHA) in recognition of the significance of optimal sleep in combat readiness and overall health of service members. We offer here a succinct list of concrete efforts to support and implement substantial clinical, operational, research, or educational efforts by the DoD or DHA to improve sleep in service members and associated clinical challenges in this unique population.Identified in text as U.S. Government work

    Human skeletal muscle plasmalemma alters its structure to change its Ca2+-handling following heavy-load resistance exercise

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    High-force eccentric exercise results in sustained increases in cytoplasmic Ca2+ levels ([Ca2+]cyto), which can cause damage to the muscle. Here we report that a heavy-load strength training bout greatly alters the structure of the membrane network inside the fibres, the tubular (t-) system, causing the loss of its predominantly transverse organization and an increase in vacuolation of its longitudinal tubules across adjacent sarcomeres. The transverse tubules and vacuoles displayed distinct Ca2+-handling properties. Both t-system components could take up Ca2+ from the cytoplasm but only transverse tubules supported store-operated Ca2+ entry. The retention of significant amounts of Ca2+ within vacuoles provides an effective mechanism to reduce the total content of Ca2+ within the fibre cytoplasm. We propose this ability can reduce or limit resistance exercise-induced, Ca2+-dependent damage to the fibre by the reduction of [Ca2+]cyto to help maintain fibre viability during the period associated with delayed onset muscle soreness

    Anomalous ion diffusion within skeletal muscle transverse tubule networks

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    <p>Abstract</p> <p>Background</p> <p>Skeletal muscle fibres contain transverse tubular (t-tubule) networks that allow electrical signals to rapidly propagate into the fibre. These electrical signals are generated by the transport of ions across the t-tubule membranes and this can result in significant changes in ion concentrations within the t-tubules during muscle excitation. During periods of repeated high-frequency activation of skeletal muscle the t-tubule K<sup>+ </sup>concentration is believed to increase significantly and diffusive K<sup>+ </sup>transport from the t-tubules into the interstitial space provides a mechanism for alleviating muscle membrane depolarization. However, the tortuous nature of the highly branched space-filling t-tubule network impedes the diffusion of material through the network. The effective diffusion coefficient for ions in the t-tubules has been measured to be approximately five times lower than in free solution, which is significantly different from existing theoretical values of the effective diffusion coefficient that range from 2–3 times lower than in free solution. To resolve this discrepancy, in this paper we study the process of diffusion within electron microscope scanned sections of the skeletal muscle t-tubule network using mathematical modelling and computer simulation techniques. Our model includes t-tubule geometry, tautness, hydrodynamic and non-planar network factors.</p> <p>Results</p> <p>Using our model we found that the t-tubule network geometry reduced the K<sup>+ </sup>diffusion coefficient to 19–27% of its value in free solution, which is consistent with the experimentally observed value of 21% and is significantly smaller than existing theoretical values that range from 32–50%. We also found that diffusion in the t-tubules is anomalous for skeletal muscle fibres with a diameter of less than approximately 10–20 μm as a result of obstructed diffusion. We also observed that the [K<sup>+</sup>] within the interior of the t-tubule network during high-frequency activation is greater for fibres with a larger diameter. Smaller skeletal muscle fibres are therefore more resistant to membrane depolarization. Because the t-tubule network is anisotropic and inhomogeneous, we also found that the [K<sup>+</sup>] distribution generated within the network was irregular for fibres of small diameter.</p> <p>Conclusion</p> <p>Our model explains the measured effective diffusion coefficient for ions in skeletal muscle t-tubules.</p
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