Étude descriptive quantitative et corrélationnelle portant sur la perception de la qualité de vie des proches aidants de plus de 65 ans qui prennent soin d'un proche souffrant d'une problématique de démence

La problématique : En Suisse, même si l'on constate une longue tradition du modèle de famille pluri-générationnelle multi-locale (Tourollier, 2009), l'évolution démographique a pour effet le vieillissement des aidants (Anchisi, 2010). La société véhicule l'idée que trop de personnes en perte d'autonomie sont abandonnées par leurs familles et que celles-ci relèguent toutes leurs responsabilités à l'Etat. Selon Pitaud (2009), cette vision est erronée, car son étude démontre que les membres de la famille forment généralement le noyau de ce réseau d'aide qui permet leur maintien à domicile. Il s'agit, pour l'auteur, d'une solution à la fois humaine et économiquement acceptable. Le contexte global du vieillissement et de la possibilité de fragilisation psychique suggère qu'une meilleure prise en compte des besoins de l'entourage des personnes souffrants de problématique de démence peut améliorer leur qualité ainsi que celle des proches aidants (Thomas, 2005). But : Cette étude quantitative vise à décrire la perception qu'ont les proches aidants de leur propre qualité de vie incluant leur vulnérabilité. Méthode: Cette étude quantitative descriptive corrélationnelle a été effectuée auprès de 30 proches aidants, recrutés selon un échantillonnage non probabiliste. Pour les corrélations exploratoires, des tests de Pearson, Student, Wilcoxon ou Mann Whitney ont été effectués. Le questionnaire proposé est tiré des études Pixel et il contient des données sociodémographiques, quatre dimensions portant sur la qualité de vie perçue ainsi que deux dimensions sur la vulnérabilité. Résultats: L'âge moyen des proches aidants participant est de 77,47 ans (ÉT 4,74). Les résultats montrent que 40% d'entre eux sont impliqués dans l'aide auprès du malade depuis plus de cinq ans. La plus grande partie a un niveau de formation de type maîtrise professionnelle (70%). Le score moyen de la perception de la qualité de vie (max. 105 points) est de 63.20 (ÉT 10.25). La vulnérabilité perçue est divisée en deux dimensions (max 50 points par partie). Pour la dimension 1 ; la moyenne pour l'impact de la maladie est de 29.00 (ÉT 5.63). Pour la dimension 2 ; la moyenne de l'aggravation de la vulnérabilité, est de 34.26 (ÉT 10.25). Des corrélations exploratoires montrent que l'âge, la durée des soins, le genre sont associées avec une diminution de la qualité de vie ou l'aggravation de la vulnérabilité perçue. Conclusion : Malgré les limites de la présente étude qui sont liées à la petitesse de l'échantillon, les résultats sont conciliables avec les écrits antérieurs. Il serait judicieux de poursuivre des recherches sur ce sujet afin d'approfondir et d'affiner les représentations utiles au renforcement du rôle infirmier auprès des proches aidants d'une part et des autres professionnels du réseau de soin d'autre part, ceci dans le but de favoriser la promotion de la santé auprès des proches aidants qui sont un maillon indispensable dans la chaîne des soins.

Thermal Degradation of Small Molecules: A Global Metabolomic Investigation.

Thermal processes are widely used in small molecule chemical analysis and metabolomics for derivatization, vaporization, chromatography, and ionization, especially in gas chromatography mass spectrometry (GC/MS). In this study the effect of heating was examined on a set of 64 small molecule standards and, separately, on human plasma metabolite extracts. The samples, either derivatized or underivatized, were heated at three different temperatures (60, 100, and 250 °C) at different exposure times (30 s, 60 s, and 300 s). All the samples were analyzed by liquid chromatography coupled to electrospray ionization mass spectrometry (LC/MS) and the data processed by XCMS Online ( xcmsonline.scripps.edu ). The results showed that heating at an elevated temperature of 100 °C had an appreciable effect on both the underivatized and derivatized molecules, and heating at 250 °C created substantial changes in the profile. For example, over 40% of the molecular peaks were altered in the plasma metabolite analysis after heating (250 °C, 300s) with a significant formation of degradation and transformation products. The analysis of 64 small molecule standards validated the temperature-induced changes observed on the plasma metabolites, where most of the small molecules degraded at elevated temperatures even after minimal exposure times (30 s). For example, tri- and diorganophosphates (e.g., adenosine triphosphate and adenosine diphosphate) were readily degraded into a mono-organophosphate (e.g., adenosine monophosphate) during heating. Nucleosides and nucleotides (e.g., inosine and inosine monophosphate) were also found to be transformed into purine derivatives (e.g., hypoxanthine). A newly formed transformation product, oleoyl ethyl amide, was identified in both the underivatized and derivatized forms of the plasma extracts and small molecule standard mixture, and was likely generated from oleic acid. Overall these analyses show that small molecules and metabolites undergo significant time-sensitive alterations when exposed to elevated temperatures, especially those conditions that mimic sample preparation and analysis in GC/MS experiments.

Complex patterns of global spread in invasive insects: eco-evolutionary and management consequences

The advent of simple and affordable tools for molecular identification of novel insect invaders and assessment of population diversity has changed the face of invasion biology in recent years. The widespread application of these tools has brought with it an emerging understanding that patterns in biogeography, introduction history and subsequent movement and spread of many invasive alien insects are far more complex than previously thought. We reviewed the literature and found that for a number of invasive insects, there is strong and growing evidence that multiple introductions, complex global movement, and population admixture in the invaded range are commonplace. Additionally, historical paradigms related to species and strain identities and origins of common invaders are in many cases being challenged. This has major consequences for our understanding of basic biology and ecology of invasive insects and impacts quarantine, management and biocontrol programs. In addition, we found that founder effects rarely limit fitness in invasive insects and may benefit populations (by purging harmful alleles or increasing additive genetic variance). Also, while phenotypic plasticity appears important post-establishment, genetic diversity in invasive insects is often higher than expected and increases over time via multiple introductions. Further, connectivity among disjunct regions of global invasive ranges is generally far higher than expected and is often asymmetric, with some populations contributing disproportionately to global spread. We argue that the role of connectivity in driving the ecology and evolution of introduced species with multiple invasive ranges has been historically underestimated and that such species are often best understood in a global context.

Predicted decrease in global climate suitability masks regional complexity of invasive fruit fly species response to climate change

Climate change affects the rate of insect invasions as well as the abundance, distribution and impacts of such invasions on a global scale. Among the principal analytical approaches to predicting and understanding future impacts of biological invasions are Species Distribution Models (SDMs), typically in the form of correlative Ecological Niche Models (ENMs). An underlying assumption of ENMs is that species-environment relationships remain preserved during extrapolations in space and time, although this is widely criticised. The semi-mechanistic modelling platform, CLIMEX, employs a top-down approach using species ecophysiological traits and is able to avoid some of the issues of extrapolation, making it highly applicable to investigating biological invasions in the context of climate change. The tephritid fruit flies (Diptera: Tephritidae) comprise some of the most successful invasive species and serious economic pests around the world. Here we project 12 tephritid species CLIMEX models into future climate scenarios to examine overall patterns of climate suitability and forecast potential distributional changes for this group. We further compare the aggregate response of the group against species-specific responses. We then consider additional drivers of biological invasions to examine how invasion potential is influenced by climate, fruit production and trade indices. Considering the group of tephritid species examined here, climate change is predicted to decrease global climate suitability and to shift the cumulative distribution poleward. However, when examining species-level patterns, the predominant directionality of range shifts for 11 of the 12 species is eastward. Most notably, management will need to consider regional changes in fruit fly species invasion potential where high fruit production, trade indices and predicted distributions of these flies overlap.