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HDL and LDL: Potential New Players in Breast Cancer Development.
Breast cancer is the most prevalent cancer and primary cause of cancer-related mortality in women. The identification of risk factors can improve prevention of cancer, and obesity and hypercholesterolemia represent potentially modifiable breast cancer risk factors. In the present work, we review the progress to date in research on the potential role of the main cholesterol transporters, low-density and high-density lipoproteins (LDL and HDL), on breast cancer development. Although some studies have failed to find associations between lipoproteins and breast cancer, some large clinical studies have demonstrated a direct association between LDL cholesterol levels and breast cancer risk and an inverse association between HDL cholesterol and breast cancer risk. Research in breast cancer cells and experimental mouse models of breast cancer have demonstrated an important role for cholesterol and its transporters in breast cancer development. Instead of cholesterol, the cholesterol metabolite 27-hydroxycholesterol induces the proliferation of estrogen receptor-positive breast cancer cells and facilitates metastasis. Oxidative modification of the lipoproteins and HDL glycation activate different inflammation-related pathways, thereby enhancing cell proliferation and migration and inhibiting apoptosis. Cholesterol-lowering drugs and apolipoprotein A-I mimetics have emerged as potential therapeutic agents to prevent the deleterious effects of high cholesterol in breast cancer
Large ferroelectric polarization in the new double perovskite NaLaMnWO induced by non-polar instabilities
Based on density functional theory calculations and group theoretical
analysis, we have studied NaLaMnWO compound which has been recently
synthesized [Phys. Rev. B 79, 224428 (2009)] and belongs to the family of double perovskites. At low temperature, the structure has
monoclinic symmetry, with layered ordering of the Na and La ions and
rocksalt ordering of Mn and W ions. The Mn atoms show an antiferromagnetic
(AFM) collinear spin ordering, and the compound has been reported as a
potential multiferroic. By comparing the low symmetry structure with a parent
phase of symmetry, two distortion modes are found dominant. They
correspond to MnO and WO octahedron \textit{tilt} modes, often
found in many simple perovskites. While in the latter these common tilting
instabilities yield non-polar phases, in NaLaMnWO the additional presence
of the - cation ordering is sufficient to make these rigid unit modes
as a source of the ferroelectricity. Through a trilinear coupling with the two
unstable tilting modes, a significant polar distortion is induced, although the
system has no intrinsic polar instability. The calculated electric polarization
resulting from this polar distortion is as large as 16 . Despite its secondary character, this polarization is coupled with
the dominant tilting modes and its switching is bound to produce the switching
of one of two tilts, enhancing in this way a possible interaction with the
magnetic ordering. The transformation of common non-polar purely steric
instabilities into sources of ferroelectricity through a controlled
modification of the parent structure, as done here by the cation ordering, is a
phenomenon to be further explored.Comment: Physical Chemistry Chemical physics (in press
Valuable product production from wood mill effluents
Fibreboard production is one of the most important industrial activities in Galicia (Spain). Great amounts of wastewater are generated, with properties depending on the type of wood, treatment process, final product and water reusing, among others. These effluents are characterized by a high chemical oxygen demand (COD), low pH and nutrients limitation. Aerobic and anaerobic processes have been used for their treatment. Presently, bioplastics production (mainly polyhydroxyalkanoates or PHA) from wastewaters with mixed cultures is being studied. Substrate requirements for these processes are a high organic matter content and low nutrient concentration. Therefore, wood mill effluents could be a suitable feedstock. PHA production from wastewaters is carried out in three steps. First, complex organic matter is converted into volatile fatty acids (VFA) through acidogenic fermentation. Then, VFA are used as substrate in an aerobic sequencing batch reactor (SBR), in which the enrichement of PHA producing bacteria from a mixed culture is favoured. Finally, the sludge from the SBR is fed with a pulse containing high VFA concentrations, resulting in PHA accumulation inside the cells. In this work, the possibility of applying this process to wood mill effluents is proposed. An acidification percentage of 37% and a storage yield (YSTO) of 0.23 Cmmol/Cmmol were obtained
Magnetic superspace groups and symmetry constraints in incommensurate magnetic phases
Although superspace formalism has become the standard approach for the
analysis of structurally modulated crystals, it has remained during the last
thirty years almost unexplored as a practical tool to deal with magnetic
incommensurate structures. This situation has recently changed with the
development of new computer tools for magnetic phases based on this formalism.
In this context we show here that, as in the case of nonmagnetic incommensurate
systems, the concept of superspace symmetry provides a simple, efficient and
systematic way to characterize the symmetry and rationalize the structural and
physical properties of incommensurate magnetic materials. The method introduces
significant advantages over the most commonly employed method of representation
analysis for the description of the magnetic structure of a crystal. But, more
importantly, in contrast with that method, it consistently yields and
classifies all degrees of freedom of the system. The knowledge of the
superspace group of an incommensurate magnetic material allows to predict its
crystal tensor properties and to rationalize its phase diagram, previous to any
appeal to microscopic models or mechanisms. This is especially relevant when
the properties of incommensurate multiferroics are being studied. We present
first a summary of the superspace method under a very practical viewpoint
particularized to magnetic modulations. Its relation with the usual
representation analysis is then analyzed in detail, with the derivation of
important general rules for magnetic modulations with a single propagation
vector. The power and efficiency of the formalism is illustrated with various
selected examples, including some multiferroic materials
Bioplastic production using wood mill effluents as feedstock
[Abstract] Fibreboard production is one of the most important industrial activities in Galicia (Spain). Great amounts of wastewater are generated, with properties depending on the type of wood, treatment process, final product and water reusing, among others. These effluents are characterized by a high chemical oxygen demand, low pH and nutrients limitation. Although anaerobic digestion is one of the most suitable processes for the treatment, lately bioplastics production (mainly polyhydroxyalkanoates) from wastewaters with mixed cultures is being evaluated. Substrate requirements for these processes consist of high organic matter content and low nutrient concentration. Therefore, wood mill effluents could be a suitable feedstock. In this work, the possibility of producing bioplastics from to wood mill effluents is evaluated. First, wood mill effluent was converted to volatile fatty acids in an acidogenic reactor operated at two different hydraulic retention times of 1 and 1.5 d. The acidification percentage obtained was 37% and 42%, respectively. Then, aerobic batch assays were performed using fermented wood mill effluents obtained at different hydraulic retention times. Assays were developed using different cultures as inoculums. The maximum storage yield of 0.57 Cmmol/Cmmol was obtained when when the culture was enriched on a synthetic media
Qualitative characterization of healthcare wastes
The biological hazard inherent in the clinical wastes should be considered during the management and treatment process as well as the disposal into the environment. In this chapter, the risks associated with the clinical wastes as well as the management of these wastes are discussed. The chapter focused on reviewing the types of healthcare wastes generated from hospitals and clinics as well as the regulations and management practices used for these wastes. Moreover, the health risk associated with the infectious agents which have the potential to be transmitted into the environment. It has appeared that the clinical wastes represent real hazards for the human health and the environment if they were not managed properly
Phonons from neutron powder diffraction
The spherically averaged structure function \soq obtained from pulsed
neutron powder diffraction contains both elastic and inelastic scattering via
an integral over energy. The Fourier transformation of \soq to real space, as
is done in the pair density function (PDF) analysis, regularizes the data, i.e.
it accentuates the diffuse scattering. We present a technique which enables the
extraction of off-center phonon information from powder diffraction experiments
by comparing the experimental PDF with theoretical calculations based on
standard interatomic potentials and the crystal symmetry. This procedure
(dynamics from powder diffraction(DPD)) has been successfully implemented for
two systems, a simple metal, fcc Ni, and an ionic crystal, CaF. Although
computationally intensive, this data analysis allows for a phonon based
modeling of the PDF, and additionally provides off-center phonon information
from powder neutron diffraction
Finite strain Landau theory of high pressure phase transformations
The properties of materials near structural phase transitions are often
successfully described in the framework of Landau theory. While the focus is
usually on phase transitions, which are induced by temperature changes
approaching a critical temperature T-c, here we will discuss structural phase
transformations driven by high hydrostatic pressure, as they are of major
importance for understanding processes in the interior of the earth. Since at
very high pressures the deformations of a material are generally very large,
one needs to apply a fully nonlinear description taking physical as well as
geometrical nonlinearities (finite strains) into account. In particular it is
necessary to retune conventional Landau theory to describe such phase
transitions. In Troster et al (2002 Phys. Rev. Lett. 88 55503) we constructed a
Landau-type free energy based on an order parameter part, an order
parameter-(finite) strain coupling and a nonlinear elastic term. This model
provides an excellent and efficient framework for the systematic study of phase
transformations for a wide range of materials up to ultrahigh pressures
Stochastic Resonance of Ensemble Neurons for Transient Spike Trains: A Wavelet Analysis
By using the wavelet transformation (WT), we have analyzed the response of an
ensemble of (=1, 10, 100 and 500) Hodgkin-Huxley (HH) neurons to {\it
transient} -pulse spike trains () with independent Gaussian noises.
The cross-correlation between the input and output signals is expressed in
terms of the WT expansion coefficients. The signal-to-noise ratio (SNR) is
evaluated by using the {\it denoising} method within the WT, by which the noise
contribution is extracted from output signals. Although the response of a
single (N=1) neuron to sub-threshold transient signals with noises is quite
unreliable, the transmission fidelity assessed by the cross-correlation and SNR
is shown to be much improved by increasing the value of : a population of
neurons play an indispensable role in the stochastic resonance (SR) for
transient spike inputs. It is also shown that in a large-scale ensemble, the
transmission fidelity for supra-threshold transient spikes is not significantly
degraded by a weak noise which is responsible to SR for sub-threshold inputs.Comment: 20 pages, 4 figure
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