Effects of Monensin on metabolic profile and feeding behavior of transition dairy cows

Thirty-two Holstein transition cows were used to determine the effects of monensin (Rumensin, Elanco Animal Health, Greenfield, IN; 400 mg/cow daily) on metabolism and feeding behavior. Cows were assigned randomly, based on calving date, to control or monensin treatments (n = 16 per treatment) 21 days before their expected calving date, and cows remained on treatments through 21 days in milk. Feeding behavior and water intake data were collected daily. Blood samples were collected at 8 different time points during the experimental period. Monensin decreased mean and peak plasma ketone concentrations, and also decreased time between meals before and after calving. No effects of monensin supplementation were observed on milk production or other metabolic traits. Furthermore, we observed no treatment effects on disease incidence, although sample size was small for detecting such effects.; Dairy Day, 2011, Kansas State University, Manhattan, KS, 2011; Dairy Research, 2011 is known as Dairy Day, 201

Clinical recognition of symptomatic midfoot osteoarthritis: findings from the clinical assessment study of the foot

Purpose: Osteoarthritis (OA) is a common yet poorly understood cause of disabling foot pain. In the absence of radiographic confirmation of OA, clinical diagnosis in primary care is inhibited by lack of evidence informing clinical examination. This study aimed to determine whether the presence of symptomatic midfoot OA (SMOA) can be clinically identified in older adults with midfoot pain presenting to primary care.Methods: A diagnostic model using brief clinical assessments was developed using cross-sectional data from 274 adults aged ≥50 years who had self-reported midfoot pain in the last month and attended a research assessment clinic between 2010-2011. All clinical assessment data were collected by trained physiotherapy or podiatry assessors adhering to a standardised, quality-controlled protocol. Presence of radiographic midfoot OA in at least one of four scored joints (1st and 2nd cuneo-metatarsal joint, navicular-first cuneiform joint, and talo-navicular joint) was ascertained by a single reader using a validated atlas and scoring system, and who was blinded to the clinical assessment data. Radiographic OA was defined as a score of ≥2 for osteophytes or joint space narrowing on either weight-bearing dorso-plantar or lateral views. SMOA was defined as co-occuring radiographic OA and midfoot pain. One foot per participant was entered into the analysis. The selection of predictor variables was based on known associations with OA or mechanically-driven putative links to SMOA. Significant predictor variables (p<0.25 from likelihood ratio tests) from univariable analyses were simultaneously entered into a multivariable logistic regression model and backward elimination (p=0.05) was performed. The Hosmer-Lemeshow statistic assessed the calibration of the refitted model and the area under the curve (AUC) evaluated discrimination. Histograms visually summarised discrimination. Internal validation of the model was performed using 1000 bias-corrected bootstrap samples with replacement.Results: 274 participants without inflammatory disease comprised 125 men and 149 women (mean age 65 yrs, SD 9). Of these 155 had midfoot pain and 119 had SMOA. 16 univariable analyses identified 9 significant predictors and no collinearity was observed. In addition to force-entered variables (age, gender, body mass index (BMI)), only two independent predictors of SMOA were retained in the multivariable analysis: (i) reduced ankle dorsiflexion with the knee flexed and (ii) absence of a midfoot exostosis. Based on the strength of univariable association, the Foot Posture Index, subtalar inversion and ankle dorsiflexion with the knee extended appeared too weak to contribute to the final model, whereas the removal of the Arch Index and foot length-corrected navicular height was due to the stronger influence of age explaining these relationships. The final fitted model was well calibrated (p=0.79) but discrimination was poor (AUC, 0.69; 95%CI: 0.62, 0.75). Bootstrapping revealed a small degree of overfitting. The use of categorical predictor variables in continuous form did not identify any other predictors, nor did it improve model performance.Conclusions: Brief clinical assessments offer only marginal improvement to age, gender and BMI for identifying SMOA. Milder severity in a population sample, random and systematic error in the clinical assessment, and variable expression of SMOA disease manifestation may have contributed to poor diagnostic accuracy. A clinically defined SMOA phenotype based on modifiable joint loading characteristics may offer an alternative approach to facilitating the development of more targeted biomechanical interventions

Transport Properties of the Quark-Gluon Plasma -- A Lattice QCD Perspective

Transport properties of a thermal medium determine how its conserved charge densities (for instance the electric charge, energy or momentum) evolve as a function of time and eventually relax back to their equilibrium values. Here the transport properties of the quark-gluon plasma are reviewed from a theoretical perspective. The latter play a key role in the description of heavy-ion collisions, and are an important ingredient in constraining particle production processes in the early universe. We place particular emphasis on lattice QCD calculations of conserved current correlators. These Euclidean correlators are related by an integral transform to spectral functions, whose small-frequency form determines the transport properties via Kubo formulae. The universal hydrodynamic predictions for the small-frequency pole structure of spectral functions are summarized. The viability of a quasiparticle description implies the presence of additional characteristic features in the spectral functions. These features are in stark contrast with the functional form that is found in strongly coupled plasmas via the gauge/gravity duality. A central goal is therefore to determine which of these dynamical regimes the quark-gluon plasma is qualitatively closer to as a function of temperature. We review the analysis of lattice correlators in relation to transport properties, and tentatively estimate what computational effort is required to make decisive progress in this field.Comment: 54 pages, 37 figures, review written for EPJA and APPN; one parag. added end of section 3.4, and one at the end of section 3.2.2; some Refs. added, and some other minor change

Onset of entanglement

We have developed a theory of polymer entanglement using an extended Cahn-Hilliard functional, with two extra terms. One is a nonlocal attractive term, operating over mesoscales, which is interpreted as giving rise to entanglement, and the other a local repulsive term indicative of excluded volume interactions. We show how such a functional can be derived using notions from gauge theory. We go beyond the Gaussian approximation, to the one-loop level, to show that the system exhibits a crossover to a state of entanglement as the average chain length between points of entanglement decreases. This crossover is marked by critical slowing down, as the effective diffusion constant goes to zero. We have also computed the tensile modulus of the system, and we find a corresponding crossover to a regime of high modulus.Comment: 18 pages, with 4 figure

Dynamics with Infinitely Many Time Derivatives and Rolling Tachyons

Both in string field theory and in p-adic string theory the equations of motion involve infinite number of time derivatives. We argue that the initial value problem is qualitatively different from that obtained in the limit of many time derivatives in that the space of initial conditions becomes strongly constrained. We calculate the energy-momentum tensor and study in detail time dependent solutions representing tachyons rolling on the p-adic string theory potentials. For even potentials we find surprising small oscillations at the tachyon vacuum. These are not conventional physical states but rather anharmonic oscillations with a nontrivial frequency--amplitude relation. When the potentials are not even, small oscillatory solutions around the bottom must grow in amplitude without a bound. Open string field theory resembles this latter case, the tachyon rolls to the bottom and ever growing oscillations ensue. We discuss the significance of these results for the issues of emerging closed strings and tachyon matter.Comment: 46 pages, 14 figures, LaTeX. Replaced version: Minor typos corrected, some figures edited for clarit

Updated tests of scaling and universality for the spin-spin correlations in the 2D and 3D spin-S Ising models using high-temperature expansions

We have extended, from order 12 through order 25, the high-temperature series expansions (in zero magnetic field) for the spin-spin correlations of the spin-S Ising models on the square, simple-cubic and body-centered-cubic lattices. On the basis of this large set of data, we confirm accurately the validity of the scaling and universality hypotheses by resuming several tests which involve the correlation function, its moments and the exponential or the second-moment correlation-lengths.Comment: 21 pages, 8 figure

Physics, Topology, Logic and Computation: A Rosetta Stone

In physics, Feynman diagrams are used to reason about quantum processes. In the 1980s, it became clear that underlying these diagrams is a powerful analogy between quantum physics and topology: namely, a linear operator behaves very much like a "cobordism". Similar diagrams can be used to reason about logic, where they represent proofs, and computation, where they represent programs. With the rise of interest in quantum cryptography and quantum computation, it became clear that there is extensive network of analogies between physics, topology, logic and computation. In this expository paper, we make some of these analogies precise using the concept of "closed symmetric monoidal category". We assume no prior knowledge of category theory, proof theory or computer science.Comment: 73 pages, 8 encapsulated postscript figure

Quantum radiation pressure on a moving mirror at finite temperature

We compute the radiation pressure force on a moving mirror, in the nonrelativistic approximation, assuming the field to be at temperature $T.$ At high temperature, the force has a dissipative component proportional to the mirror velocity, which results from Doppler shift of the reflected thermal photons. In the case of a scalar field, the force has also a dispersive component associated to a mass correction. In the electromagnetic case, the separate contributions to the mass correction from the two polarizations cancel. We also derive explicit results in the low temperature regime, and present numerical results for the general case. As an application, we compute the dissipation and decoherence rates for a mirror in a harmonic potential well.Comment: Figure 3 replaced, changes mainly in Sections IV and V, new appendix introduced. To appear in Physical Review

Improved Holographic QCD

We provide a review to holographic models based on Einstein-dilaton gravity with a potential in 5 dimensions. Such theories, for a judicious choice of potential are very close to the physics of large-N YM theory both at zero and finite temperature. The zero temperature glueball spectra as well as their finite temperature thermodynamic functions compare well with lattice data. The model can be used to calculate transport coefficients, like bulk viscosity, the drag force and jet quenching parameters, relevant for the physics of the Quark-Gluon Plasma.Comment: LatEX, 65 pages, 28 figures, 9 Tables. Based on lectures given at several Schools. To appear in the proceedinds of the 5th Aegean School (Milos, Greece

Influences on the triple alpha process beyond the Hoyle state

7 pags., 3 figs. -- International Symposium on Nuclear Astrophysics - Nuclei in the Cosmos - IX, 25-30 June 2006, CERNThe triple alpha process is studied using indirect methods. The beta decays of 12N and 12B are used to probe the triple alpha continuum of 12C. Different independent breakup channels are identified, consistently showing that the 10 MeV strength is dominated by a 0+ state interfering with the Hoyle state ghost. The 13–14 MeV region on the other hand is dominated by a 2 + state