4,742 research outputs found
Resolved Imaging of the HD191089 Debris Disc
Two thirds of the F star members of the 12 Myr old Beta Pictoris Moving Group
(BPMG) show significant excess emission in the mid-infrared, several million
years after the expected dispersal of the protoplanetary disc. Theoretical
models of planet formation suggest that this peak in the mid-infrared emission
could be due to the formation of Pluto-sized bodies in the disc, which ignite
the collisional cascade and enhance the production of small dust. Here we
present resolved mid-infrared imaging of the disc of HD191089 (F5V in the BPMG)
and consider its implications for the state of planet formation in this system.
HD191089 was observed at 18.3 microns using T-ReCS on Gemini South and the
images were compared to models of the disc to constrain the radial distribution
of the dust. The emission observed at 18.3 microns is shown to be significantly
extended beyond the PSF at a position angle of 80 degrees. This is the first
time dust emission has been resolved around HD191089. Modelling indicates that
the emission arises from a dust belt from 28-90 AU, inclined at 35 degrees from
edge on with very little emission from the inner 28AU of the disc, indicating
the presence of an inner cavity. The steep slope of the inner edge is more
consistent with truncation by a planet than with ongoing stirring. A tentative
brightness asymmetry F(W)/F(E)=0.80+/-0.12 (1.8 sigma) between the two sides of
the disc could be evidence for perturbations from a massive body on an
eccentric orbit in the system.Comment: 11 Pages Accepted to MNRA
The Impact of Vein Mechanical Compliance on Arteriovenous Fistula Outcomes
© 2016 Elsevier Inc. Background Arteriovenous fistulae (AVFs) are the preferred access for hemodialysis but suffer a high early failure rate. The aim of this study was to determine how venous distensibility, as measured in vitro, relates to early outcomes of AVF formed with the sampled vein. Methods Ethical approval was obtained for all aspects of this study. During AVF formation a circumferential segment of the target vein was sampled. Mechanical stress testing of the venous segments was undertaken using a dynamic mechanical analyzer, with progressive stress loading at 2 N/min to a maximum of 10 N or until sample disruption. Stress-strain curves were obtained for vein samples and Young's modulus (YM) calculated. Duplex assessment of the fistulae was undertaken at 30 days. Results Thirty patients consented to participate with 29 samples obtained for analysis. Statistical comparison of YM demonstrated no relationship with common cardiovascular risk factors or dialysis status. Subject age greater than 65 was the only patient factor which showed a significant difference in YM (P = 0.05). Furthermore, a negative correlation was confirmed between age and YM (Pearson's r = -0.465, P < 0.05). Nine of the 29 subjects suffered an early AVF failure. Mann-Whitney U testing for differences in distribution reported that YM was significantly higher in those fistulas which failed (P < 0.005). Conclusions Reduced venous compliance appears to result in higher failure rates of AVFs. With the advancement of clinical tools such as speckle tracing ultrasound identification of vessel compliance in vivo may produce valuable additional information for clinicians planning AVF surgery
Institutional Obstacles to Success in Implementing a Statewide Community-Based Fire Planning Mandate
Enzyme activity below the dynamical transition at 220 K
Enzyme activity requires the activation of anharmonic motions, such as jumps between potential energy wells. However, in general, the forms and time scales of the functionally important anharmonic dynamics coupled to motion along the reaction coordinate remain to be determined. In particular, the question arises whether the temperature-dependent dynamical transition from harmonic to anharmonic motion in proteins, which has been observed experimentally and using molecular dynamics simulation, involves the activation of motions required for enzyme function. Here we present parallel measurements of the activity and dynamics of a cryosolution of glutamate dehydrogenase as a function of temperature. The dynamical atomic fluctuations faster than ~100 ps were determined using neutron scattering. The results show that the enzyme remains active below the dynamical transition observed at ~220 K, i.e., at temperatures where no anharmonic motion is detected. Furthermore, the activity shows no significant deviation from Arrhenius behavior down to 190 K. The results indicate that the observed transition in the enzyme's dynamics is decoupled from the rate-limiting step along the reaction coordinate
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The Evolution of the CareerAdvance® Program in Tulsa, Oklahoma
CareerAdvance®n collaboration with a multi-disciplinary team of partners, the Ray Marshall Center (RMC) is developing and implementing a sectoral workforce development strategy for low-skilled, low-income parents of children served by early childhood programs in Tulsa, Oklahoma. There is emerging evidence that children whose parents hold stable jobs with progressively rising incomes exhibit better academic and behavioral outcomes. RMC and its partners have undertaken a dual-generation approach to poverty reduction that strengthens the investment in early childhood development by equipping Head Start parents with workforce training and gainful employment opportunities. This approach employs a more holistic model than traditional workforce development programs, as it also includes employee counseling and other support services to help parents complete training and adult basic education, retain their jobs, advance in their careers, and become economically self-sufficient. The goal is to develop a sustainable sectoral strategy that can be replicated beyond Tulsa to other communities across the nation.
In the first phase of the project (2008-2009), RMC designed a sectoral job development strategy focused on industries featuring jobs that pay well and provide much-needed employee benefits (e.g., health insurance, annual and sick leave) as well as career advancement opportunities. In April 2009, Community Action Program of Tulsa County launched the pilot, CareerAdvance, at two Head Start sites in Tulsa involving 15 parents. The components of the CareerAdvance are 1) GED and college readiness instruction, as needed; 2) skills training in the healthcare sector progressing from Certified Nursing Aide to Licensed Practical Nurse to Registered Nurse; 3) weekly peer support meetings addressing a flexible set of topics (e.g., life skills, work readiness, family finances); 4) conditional cash incentives (up to $3,000 a year) for participants meeting specified benchmarks to reinforce continued participation and help offset foregone earnings; and 5) workforce intermediation between healthcare employers and training institutions provided through Workforce Tulsa. The report on the project’s first year of operation is available at the link below.
In partnership with Harvard University and the University of Oklahoma – Tulsa School of Medicine, a second pilot site was opened in July 2009 at a Tulsa Educare Center. The second pilot, EduCareers, includes all components described above as well as enhanced mental health services for participating households, curriculum enhancements for the children, parent engagement training, and a medical home.
The CareerAdvance project has now been expanded to 2015 with support from the U.S. Department of Health and Human Services’ Administration for Children and Families. RMC and partners at Northwestern and Columbia University have been engaged to provide ongoing on data collection, implementation and outcomes analysis of project participants.George Kaiser Family Foundation, W. K. Kellogg Foundation, U.S. Department of Health and Human Services' Administration for Children and FamiliesRay Marshall Center for the Study of Human Resource
Ambient air pollution and adverse birth outcomes: A review of underlying mechanisms
Epidemiological data provide varying degrees of evidence for associations between prenatal exposure to ambient air pollutants and adverse birth outcomes (suboptimal measures of fetal growth, preterm birth and stillbirth). To assess further certainty of effects, this review examines the experimental literature base to identify mechanisms by which air pollution (particulate matter, nitrogen dioxide and ozone) could cause adverse effects on the developing fetus. It likely that this environmental insult impacts multiple biological pathways important for sustaining a healthy pregnancy, depending upon the composition of the pollutant mixture and the exposure window owing to changes in physiologic maturity of the placenta, its circulations and the fetus as pregnancy ensues. The current body of evidence indicates that the placenta is a target tissue, impacted by a variety of critical processes including nitrosative/oxidative stress, inflammation, endocrine disruption, epigenetic changes, as well as vascular dysregulation of the maternal‐fetal unit. All of the above can disturb placental function and, as a consequence, could contribute to compromised fetal growth as well increasing the risk of stillbirth. Furthermore, given that there is often an increased inflammatory response associated with preterm labour, inflammation is a plausible mechanism mediating the effects of air pollution on premature delivery. In the light of increased urbanisation and an ever‐changing climate, both of which increase ambient air pollution and negatively affect vulnerable populations such as pregnant individuals, it is hoped that the collective evidence may contribute to decisions taken to strengthen air quality policies, reductions in exposure to air pollution and subsequent improvements in the health of those not yet born
The impact and process of a community-led intervention on reducing environmental inequalities related to physical activity and healthy eating - a pilot study
Background: There is growing recognition that a sedentary lifestyle is being driven, at least in part, by environmental factors that affect individuals’ physical activity choices and health behaviours. In other words, the environments in which we live, and with which we interact, have become ones that encourage lifestyle choices that decrease physical activity and encourage over-consumption of foods. However, evidence from community-led interventions to change local neighbourhood environments to support physical activity and healthy eating is lacking. This article summarises the research protocol developed to evaluate a community-led intervention “My Health Matters” aimed at reducing health inequalities relating to increasing physical activity and healthy eating as defined by community members themselves.
Methods/Design: This study includes three of the most deprived electoral wards in Stoke-on-Trent. In each of these areas, environmental factors including proximity of physical activity spaces, greenspace and leisure facilities, neighbourhood connectivity and walkability, land-use-mix and population density, traffic, safety and crime, and food outlets will be mapped using Geographical Information Systems (GIS). A community postal survey of randomly selected addresses assessing environmental characteristics relating to physical activity, perceived health status, social capital, fruit and vegetable consumption and levels of physical activity will be undertaken (baseline and at 2 year follow-up). Based on baseline findings an intervention will be designed and implemented over a 2 year period that includes the following; use of community participatory research to build effective community partnerships; use of partnership consensus to identify, prioritise and design intervention(s) related to specific health disparities; recruitment of local residents to help with the delivery and sustainability of target intervention(s); and the development of local systems for ongoing monitoring and evaluation of the intervention(s).
Discussion: A community-led and multidisciplinary approach to modifying environmental factors that support and reinforce healthful behaviours may be more successful than focusing on individual behaviour change as this approach does not exclusively rely upon individual will and capacity. Study findings will be collated in 2012 and, if successful in improving levels of physical activity and healthy eating, will help to inform the design of a larger area-based, cluster randomized controlled trial to determine effectiveness
The responses of the four main substitution mechanisms of H in olivine to H2O activity at 1050 °C and 3 GPa
The water solubility in olivine (CH2O) has been investigated at 1050 °C and 3 GPa as a function of water activity (aH2O) at subsolidus conditions in the piston-cylinder apparatus, with aH2O varied using H2O–NaCl fluids. Four sets of experiments were conducted to constrain the effect of aH2O on the four main substitution mechanisms. The experiments were designed to grow olivine in situ and thus achieve global equilibrium (G-type), as opposed to hydroxylating olivine with a pre-existing point-defect structure and impurity content (M-type). Olivine grains from the experiments were analysed with polarised and unpolarised FTIR spectroscopy, and where necessary, the spectra have been deconvoluted to quantify the contribution of each substitution mechanism. Olivine buffered with magnesiowüstite produced absorbance bands at high wavenumbers ranging from 3566 to 3612 cm−1. About 50% of the total absorbance was found parallel to the a-axis, 30% parallel to the b-axis and 20% parallel to the c-axis. The total absorbance and hence water concentration in olivine follows the relationship of CH2O∝aH2O2, indicating that the investigated defect must involve four H atoms substituting for one Si atom (labelled as [Si]). Forsterite buffered with enstatite produced an absorbance band exclusively aligned parallel the c-axis at 3160 cm−1. The band position, polarisation and observed CH2O∝aH2O are consistent with two H substituting for one Mg (labelled as [Mg]). Ti-doped, enstatite-buffered olivine displays absorption bands, and polarisation typical of Ti-clinohumite point defects where two H on the Si-site are charge-balanced by one Ti on a Mg-site (labelled as [Ti]). This is further supported by CH2O∝aH2O and a 1:1 relationship of molar H2O and TiO2 in these experiments. Sc-doped, enstatite-buffered experiments display a main absorption band at 3355 cm−1 with CH2O∝aH2O0.5 and a positive correlation of Sc and H, indicating the coupled substitution of a trivalent cation plus a H for two Mg (labelled as [triv]). Our data demonstrate that extreme care has to be taken when inferences from experiments conducted at aH2O=1 are applied to the mantle, where in most cases, a low aH2O persists. In particular, the higher exponent of the [Si] substitution mechanism means that the contribution of this hydrous defect to total water content will decrease more rapidly with decreasing aH2O than the contributions of the other substitution mechanisms. The experiments confirm previous results that the [Mg] mechanism holds an almost negligible amount of water under nearly all T-P-fO2-fH2O conditions that may be anticipated in nature. However, the small amounts of H2O we find in substituting by this mechanism are similar in the experiments on forsterite doped with either Sc or Ti to those in the undoped forsterite at equivalent aH2O (all buffered by enstatite), confirming the assumption that, thermodynamically, CH2O substituting by each mechanism does not depend on the water concentration that substitutes by other mechanisms.We gratefully acknowledge the Australian Research Council (ARC) support
through DP110103134 to JH and HON, and FL130100066 to HON, which
partly supported PT during the final stages of this project. RS acknowledges
an Australian Postgraduate Award
Differentiable Vertex Fitting for Jet Flavour Tagging
We propose a differentiable vertex fitting algorithm that can be used for
secondary vertex fitting, and that can be seamlessly integrated into neural
networks for jet flavour tagging. Vertex fitting is formulated as an
optimization problem where gradients of the optimized solution vertex are
defined through implicit differentiation and can be passed to upstream or
downstream neural network components for network training. More broadly, this
is an application of differentiable programming to integrate physics knowledge
into neural network models in high energy physics. We demonstrate how
differentiable secondary vertex fitting can be integrated into larger
transformer-based models for flavour tagging and improve heavy flavour jet
classification.Comment: 11 page
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