Beyond the glass ceiling: Does gender matter?

The representation of women in top corporate officer positions is steadily increasing. However, little is known about the impact this will have. A large literature documents that women are different from men in their choices and in their preferences, but most of this literature relies on samples of college students or workers at lower levels in the corporate hierarchy. If women must be like men to break the glass ceiling, we might expect gender differences to disappear among top executives. In contrast, using a large survey of all directors of publicly-traded corporations in Sweden, we show that female and male directors differ systematically in their core values and risk attitudes. While certain population gender differences disappear at the director level, others do not. Consistent with the findings for the Swedish population, female directors are more benevolent and universally concerned, but less power-oriented than men. However, they are less traditional and security-oriented than their male counterparts. Furthermore, female directors are slightly more risk-loving than male directors. This suggests that having a women on the board need not lead to more risk-averse decision-making.

Shaping the interaction landscape of bioactive molecules.

MOTIVATION: Most bioactive molecules perform their action by interacting with proteins or other macromolecules. However, for a significant fraction of them, the primary target remains unknown. In addition, the majority of bioactive molecules have more than one target, many of which are poorly characterized. Computational predictions of bioactive molecule targets based on similarity with known ligands are powerful to narrow down the number of potential targets and to rationalize side effects of known molecules. RESULTS: Using a reference set of 224 412 molecules active on 1700 human proteins, we show that accurate target prediction can be achieved by combining different measures of chemical similarity based on both chemical structure and molecular shape. Our results indicate that the combined approach is especially efficient when no ligand with the same scaffold or from the same chemical series has yet been discovered. We also observe that different combinations of similarity measures are optimal for different molecular properties, such as the number of heavy atoms. This further highlights the importance of considering different classes of similarity measures between new molecules and known ligands to accurately predict their targets. CONTACT: olivier.michielin@unil.ch or vincent.zoete@unil.ch SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.

Effets bénéfiques du ranélate de strontium compare à l'alendronate sur le TBS chez les femmes ostéoporotiques ménopausées: une étude de 2 ans.

Introduction. - Le TBS ou Score Trabéculaire Osseux (TBS, Med- Imaps, France) est un index d'architecture osseuse apportant des informations indépendantes de la densité minérale osseuse (DMO), et calculé par la quantification des variations locales des niveaux de gris à partir d'examen de densitométrie (DXA) lombaire. Dans des études antérieures prospectives et cas-témoins, cet index a été considéré comme associé aux fractures. Nous avons comparé les effets du ranélate de strontium (RanSr) et de l'alendronate (ALN) sur l'architecture vertébrale à l'aide du TBS, chez des femmes ostéoporotiques ménopausées. Patients et méthodes. - Une analyse post hoc a été réalisée sur des DXA (Hologic and GE Lunar Devices) de 79 des 189 femmes incluses dans une étude en double aveugle et double placebo et réparties de façon randomisée entre un groupe à 2 g/jour de RanSr et un groupe à 70 mg/semaine d'ALN pendant 2 ans. Les paramètres de TBS ont été évalués en aveugle par TBS iNsight (v1,9) au niveau vertébral après 12 et 24 mois de traitement. Nous avons appliqué les règles de l'ISCD (International Society for Clinical Densitometry) pour chaque exclusion de vertèbre, de façon indépendante respectivement pour la DMO et le TBS. Des doubles mesures ayant été réalisées initialement, la reproductibilité est exprimée en % CV. Résultats. - Les caractéristiques initiales (moyenne ± DS) étaient identiques entre les groupes en termes d'âge, 69,2 ± 4,4 ans ; d'IMC, 23,8 ± 4,4 kg/m2 ; de T-score L1-L4, - 2,9 ± 0,9 et de TBS, 1,230 ± 0,09. Comme prévu, le coefficient de détermination entre la DMO et le TBS au niveau du rachis était très basse r2 = 0,12. Les reproductibilités brutes étaient respectivement de 1,1 et 1,6 % pour la DMO et le TBS au niveau vertébral. Après 1 et 2 ans, la DMO en L1-L4 a augmenté de façon significative de respectivement 5,6 % et 9 % dans le groupe RanSr et de respectivement 5,2 % et 7,6 % dans le groupe ALN. De même, le TBS au niveau vertébral a augmenté respectivement de 2,3 % (p < 0,001) et de 3,1 % (p < 0,001) dans le groupe RanSr et de 0,5 % (NS) et de 1 % (NS) dans le groupe ALN avec une différence entre groupe significative en faveur du RanSr (p = 0,04 et p = 0,03). Il n'y avait aucune corrélation entre la différence de DMO et de TBS à 1 ou 2 ans. Les deux traitements étaient bien tolérés. Discussion. - Ces résultats sur le TBS confortent des études précédentes qui sont en faveur de l'effet bénéfique du RanSr sur l'architecture osseuse. Conclusion. - Le ranélate de strontium a des effets plus importants que l'alendronate sur le score trabéculaire osseux, indice d'architecture osseuse au niveau vertébral, chez les femmes ayant une ostéoporose post-ménopausique, après 2 ans de traitement.

Pansements bioactifs [Bioactive dressings]

Wound healing is a complex process involving several cell types (keratinocytes, fibroblasts, endothelial cells, etc.) as well as many growth factors (PDGF, TGF-betas, FGFs, VEGF, etc.). It can be challenging when wounds are deep or very large (third degree burn, ulceration after cutaneous tumor resection) or in presence of peripheral vascular disease, metabolic disturbances or peripheral neuropathy (chronic vascular or diabetic wounds). In order to promote skin regeneration, numerous bioactive dressings combining cells, matrices and growth factors are available on the market. This article provides a general overview of the various product categories and presents their main indications. The principal axes of the biomedical research in this area are also discussed.

Cristallochemical characterization of synthetic Zn-substituted maghemites (g-Fe2-xZn xO3)

Maghemite (g-Fe2O3) is the most usually found ferrimagnetic oxide in red basalt-derived soils. The variable degrees of ionic substitution of Fe3+ for different metals (e.g. Ti4+, Al3+, Mg2+, Zn2+, and Mn2+) and non-metals in the maghemite structure influence some cristallochemical features of this iron oxide. In this study, synthetic Zn-substituted maghemites were prepared by co-precipitation in alkaline aqueous media of FeSO4.7H2O with increasing amounts of ZnSO4.7H2O to obtain the following sequence of Fe3+ for Zn2+ substitutions: 0.0, 0.025, 0.05, 0.10, 0.15, 0.20, and 0.30 mol mol-1. The objective of this work was to evaluate the cristallochemical alterations of synthetic Zn-substituted maghemites. The dark black synthetic precipitated material was heated to 250 °C during 4 h forming a brownish maghemite that was characterized by chemical analysis as well as X ray diffraction (XRD), specific surface area and mass-specific magnetic susceptibility. The isomorphic substitution levels observed were of 0.0013, 0.0297, 0.0590, 0.1145, 0.1764, 0.2292 and 0.3404 mol mol-1, with the formation of a series of maghemites from Fe2Zn0O3 to Fe(1.49)Zn(0.770)O3 . The increase in Fe3+ for Zn2+ substitution, [Zn mol mol-1] increased the dimension a0 of the cubic unit cells of the studied maghemites according to the regression equation: a0 = 0.8343 + 0.02591Zn (R² = 0.98). On the other hand, the mean crystallite dimension and mass-specific magnetic susceptibility of the studied maghemites decreased with increasing isomorphic substitution.

Nanocrystalline M-type hexaferrite powders: preparation, geometric and magnetic propertiess

Co-Ti-Sn-Ge substituted M-type bariumhexaferrite powders with mean grain sizes between about 10 nm and about 1 ¿m and a narrow size distribution were prepared reproducibly by means of a modified glass crystallization method. At annealing temperatures between 560 and 580°C of the amorphous flakes nanocrystalline particles grow. They behave superparamagnetically at room temperature and change into stable magnetic single domains at lower temperatures. The magnetic volume of the powders is considerably less than the geometric one. However, the effective anisotropy fields are larger by a Factor of two to three.

The Gibbs free energy of formation of a glass alloy

A simple expression for the Gibbs free energy of formation of a pure component or a eutectic alloy glass, relative to the stable crystalline phase (or phases) at the same temperature is deduced by use of thermodynamic arguments. The expression obtained is supposed to apply to both monocomponent and multicomponent liquid alloys that might become glasses from the supercooled liquid state, irrespective of the critical cooling rate needed to avoid crystallization.

Structural and magnetic characterization of maghemites prepared from Al-substituted magnetites

Synthetic aluminum-substituted maghemites were characterized by total chemical analysis, powder X-ray diffraction (XRD), Mössbauer spectroscopy (ME), and vibrating sample magnetometry (VSM). The aim was to determine the structural, magnetic, and hyperfine properties of γ-Fe2-xAl xO3 as the Al concentration is varied. The XRD results of the synthetic products were indexed exclusively as maghemite. Increasing Al for Fe substitution decreased the mean crystalline dimension and shifted all diffraction peaks to higher º2θ angles. The a0 dimension of the cubic unit cell decreased with increasing Al according to the equation a o = 0.8385 - 3.63 x 10-5 Al (R²= 0.94). Most Mössbauer spectra were composed of one sextet, but at the highest substitution rate of 142.5 mmol mol-1 Al, both a doublet and sextet were obtained at 300 K. All hyperfine parameters from the sub-spectra were consistent with high-spin Fe3+ (0.2 a 0.7 mms-1) and suggested a strong superparamagnetic component associated with the doublet. The magnetic hyperfine field of the sextets decreased with the amount of Al-substitution [Bhf (T) = 49.751 - 0.1202Al; R² = 0.94] while the linewidth increased linearly. The saturation magnetization also decreased with increasing isomorphous substitution.

Uniformity Study of Amorphous and Microcrystalline Silicon Thin Films Deposited on 10cmx10cm Glass Substrate using Hot Wire CVD Technique

The scaling up of the Hot Wire Chemical Vapor Deposition (HW-CVD) technique to large deposition area can be done using a catalytic net of equal spaced parallel filaments. The large area deposition limit is defined as the limit whenever a further increment of the catalytic net area does not affect the properties of the deposited film. This is the case when a dense catalytic net is spread on a surface considerably larger than that of the film substrate. To study this limit, a system able to hold a net of twelve wires covering a surface of about 20 cm x 20 cm was used to deposit amorphous (a-Si:H) and microcrystalline (μc-Si:H) silicon over a substrate of 10 cm x 10 cm placed at a filament-substrate distance ranging from 1 to 2 cm. The uniformity of the film thickness d and optical constants, n(x, λ) and α(x,¯hω), was studied via transmission measurements. The thin film uniformity as a function of the filament-substrate distance was studied. The experimental thickness profile was compared with the theoretical result obtained solving the diffusion equations. The optimization of the filament-substrate distance allowed obtaining films with inhomogeneities lower than ±2.5% and deposition rates higher than 1 nm/s and 4.5 nm/s for (μc-Si:H) and (a-Si:H), respectively.

Low temperature amorphous and nanocrystalline silicon thin film transistors deposited by Hot-Wire CVD on glass substrate

Amorphous and nanocrystalline silicon films obtained by Hot-Wire Chemical Vapor Deposition have been incorporated as active layers in n-type coplanar top gate thin film transistors deposited on glass substrates covered with SiO 2. Amorphous silicon devices exhibited mobility values of 1.3 cm 2 V - 1 s - 1, which are very high taking into account the amorphous nature of the material. Nanocrystalline transistors presented mobility values as high as 11.5 cm 2 V - 1 s - 1 and resulted in low threshold voltage shift (∼ 0.5 V).

Fragile-glass behavior of a short-range p-spin model

We propose a short-range generalization of the p-spin interaction spin-glass model. The model is well suited to test the idea that an entropy collapse is at the bottom line of the dynamical singularity encountered in structural glasses. The model is studied in three dimensions through Monte Carlo simulations, which put in evidence fragile glass behavior with stretched exponential relaxation and super-Arrhenius behavior of the relaxation time. Our data are in favor of a Vogel-Fulcher behavior of the relaxation time, related to an entropy collapse at the Kauzmann temperature. We, however, encounter difficulties analogous to those found in experimental systems when extrapolating thermodynamical data at low temperatures. We study the spin-glass susceptibility, investigating the behavior of the correlation length in the system. We find that the increase of the relaxation time is accompanied by a very slow growth of the correlation length. We discuss the scaling properties of off-equilibrium dynamics in the glassy regime, finding qualitative agreement with the mean-field theory.