2,399 research outputs found
Novel Insights in the faecal egg count reduction test for monitoring drug efficacy against gastrointestinal nematodes of veterinary importance
The faecal egg count reduction test (FECRT) is the method of choice to monitor anthelmintic efficacy against gastro-intestinal nematodes in livestock. Guidelines on how to conduct a FECRT are made available by the World Association for the Advancement of Veterinary Parasitology (WAAVP). Since the publication of these guidelines in the early 1990s, some limitations have been noted, including (i) the ignorance of host-parasite interactions that depend on animal and parasite species, (ii) their feasibility under field conditions, (iii) appropriateness of study design, and (iv) the low analytic sensitivity of the recommended faecal egg count (FEC) method. Therefore, the objective of the present study was to empirically assess the impact of the level of excretion and aggregation of FEC, sample size and detection limit of the FEC method on the sensitivity and specificity of the FECRT to detect reduced efficacy (<90% or <95%) and to develop recommendations for surveys on anthelmintic resistance. A simulation study was performed in which the FECRT (based on the arithmetic mean of grouped FEC of the same animals before and after drug administration) was conducted under varying conditions of mean FEC, aggregation of FEC (inversely correlated with k), sample size, detection limit and ‘true’ drug efficacies. Classification trees were built to explore the impact of the above factors on the sensitivity and specificity of detecting a truly reduced efficacy. For a reduced-efficacy threshold of 90%, most combinations resulted in a reliable detection of reduced and normal efficacy. For the reduced-efficacy threshold of 95% however, unreliable FECRT results were found when sample sizes <15 were combined with highly aggregated FEC (k = 0.25) and detection limits ≥5 EPG or when combined with detection limits ≥15 EPG. Overall, an increase in sample size and mean preDA FEC, and a decrease in detection limit improved the diagnostic accuracy. FECRT remained inconclusive under any evaluated condition for drug efficacies ranging from 87.5% to 92.5% for a reduced-efficacy-threshold of 90% and from 92.5% to 97.5% for a threshold of 95%. The results highlight that (i) the interpretation of this FECRT is affected by a complex interplay of factors, including the level of excretion and aggregation of FEC and (ii) the diagnostic value of FECRT to detect small reductions in efficacy is limited. This study, therefore, provides a framework allowing researchers to adapt their study design according to a wide range of field conditions, while ensuring a good diagnostic performance of the FECRT
The cruise shipping industry in the corporate mergers and overpanamax eras. A comparison with the container shipping industry
After container shipping, the cruise shipping industry has entered recently into the overpanamax era, in a typical quest for economies of scale, at the same time as it was searching for economies of scope, including through corporate mergers. To some extent, the evolution has been indeed similar, but there are also some major differences.On the one hand, it is obvious that building always larger ships, from infrapanamax to panamax and finally to overpanamax standards, has brought significant savings in building and operational cost per lower berth for the cruise industry as per TEU in container shipping. And it is also obvious that, besides these economies of scale, building quite long series of ships for the same line or for sister lines has also been an attractive option for the cruise lines. Moreover, in an another search for economies of scope, some cruise lines did not only expand organically, but also externally, again as for container shipping, buying some of their competitors and integrating their ships into their fleet after harmonizing the products. Or alternatively, they may have kept the existing brands, because they had either a well-established global reputation or a strong regional basis. This has led to the formation of a few major groups whose spatial reach is now global, the largest of which is by far Carnival Corporation/plc, born in 2003 from the merger of Carnival Corporation and Princess Cruises.But on the other hand, there are significant differences between the two industries, one of which being that the dominance of Carnival Corporation/plc is much more overwhelming in the cruise industry than that, in container shipping, of the AP Moller group (itself incorporating two of the previous industry leaders). Moreover, cruise ships are not standardized products as containerships are. The most important difference is that same hull can be used to build similar ships for brands of the same qualitative level, or even quite different ships of different qualitative levels within the same cruise lines’ group. Another major difference is that the cruise industry is still dominated, by far, by American or European-based groups or lines, and that most cruise ships have been and are being built at European yards
Room temperature Peierls distortion in small radius nanotubes
By means of {\it ab initio} simulations, we investigate the phonon band
structure and electron-phonon coupling in small 4-\AA diameter nanotubes. We
show that both the C(5,0) and C(3,3) tubes undergo above room temperature a
Peierls transition mediated by an acoustical long-wavelength and an optical
phonons respectively. In the armchair geometry, we verify that the
electron-phonon coupling parameter originates mainly from phonons at
and is strongly enhanced when the diameter decreases. These results
question the origin of superconductivity in small diameter nanotubes.Comment: submitted 21oct2004 accepted 6jan2005 (Phys.Rev.Lett.
Multiphonon Raman Scattering in Graphene
We report multiphonon Raman scattering in graphene samples. Higher order
combination modes involving 3 phonons and 4 phonons are observed in
single-layer (SLG), bi-layer (BLG), and few layer (FLG) graphene samples
prepared by mechanical exfoliation. The intensity of the higher order phonon
modes (relative to the G peak) is highest in SLG and decreases with increasing
layers. In addition, all higher order modes are observed to upshift in
frequency almost linearly with increasing graphene layers, betraying the
underlying interlayer van der Waals interactions.Comment: Accepted for publication in Phys. Rev.
On Boussinesq's equation for water waves
A century and a half ago, J. Boussinesq derived an equation for the
propagation of shallow water waves in a channel. Despite the fundamental
importance of this equation for a number of physical phenomena, mathematical
results on it remain scarce. One reason for this is that the equation is
ill-posed. In this paper, we establish several results on the Boussinesq
equation. First, by solving the direct and inverse problems for an associated
third-order spectral problem, we develop an Inverse Scattering Transform (IST)
approach to the initial value problem. Using this approach, we establish a
number of existence, uniqueness, and blow-up results. For example, the IST
approach allows us to identify physically meaningful global solutions and to
construct, for each , solutions that blow up exactly at time . Our
approach also yields an expression for the solution of the initial value
problem for the Boussinesq equation in terms of the solution of a
Riemann--Hilbert problem. By analyzing this Riemann--Hilbert problem, we arrive
at asymptotic formulas for the solution. We identify ten main asymptotic
sectors in the -plane; in each of these sectors, we compute an exact
expression for the leading asymptotic term together with a precise error
estimate. The asymptotic picture that emerges consists, roughly speaking, of
two nonlinearly coupled copies of the corresponding picture for the
(unidirectional) KdV equation, one copy for right-moving and one for
left-moving waves. Of particular interest are the sectors which describe the
interaction of right and left moving waves, which present qualitatively new
phenomena.Comment: 111 pages, 23 figure
Thermal rectification in carbon nanotube intramolecular junctions: Molecular dynamics calculations
We study heat conduction in (n, 0)/(2n, 0) intramolecular junctions by using
molecular dynamics method. It is found that the heat conduction is asymmetric,
namely, heat transports preferably in one direction. This phenomenon is also
called thermal rectification. The rectification is weakly dependent on the
detailed structure of connection part, but is strongly dependent on the
temperature gradient. We also study the effect of the tube radius and
intramolecular junction length on the rectification. Our study shows that the
tensile stress can increase rectification. The physical mechanism of the
rectification is explained
Probing the electron-phonon coupling in ozone-doped graphene by Raman spectroscopy
We have investigated the effects of ozone treatment on graphene by Raman
scattering. Sequential ozone short-exposure cycles resulted in increasing the
doping levels as inferred from the blue shift of the 2 and peak
frequencies, without introducing significant disorder. The two-phonon 2 and
2 Raman peak intensities show a significant decrease, while, on the
contrary, the one-phonon G Raman peak intensity remains constant for the whole
exposure process. The former reflects the dynamics of the photoexcited
electrons (holes) and, specifically, the increase of the electron-electron
scattering rate with doping. From the ratio of 2 to 2 intensities, which
remains constant with doping, we could extract the ratio of electron-phonon
coupling parameters. This ratio is found independent on the number of layers up
to ten layers. Moreover, the rate of decrease of 2 and 2 intensities
with doping was found to slowdown inversely proportional to the number of
graphene layers, revealing the increase of the electron-electron collision
probability
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