Aménagement intérieur des milieux de santé : exploration de trois approches théoriques

La présente étude concerne le rôle de l’aménagement intérieur dans les centres de santé, dans une perspective thérapeutique. Il s’agit d’une recherche théorique exploratoire. Le cadre théorique à l’intérieur duquel elle s’effectue comprend la Biopolitique de Michel Foucault, du Sens de cohérence d’Aaron Antonovsky, ainsi que de La théorie des environnements reconstituants de Kaplan & Kaplan. Chacune de ces approches vise à mieux saisir le problème de la thérapeutique dans son rapport avec la santé, ainsi qu’à dégager des éléments permettant d’enrichir et d’apporter un regard autre sur le thème à l’étude, à savoir, celui des environnements thérapeutiques. C’est ainsi que nous proposons six concepts que sont l’exclusion/l’isolement, le pouvoir, les interactions sociales, le soutien social, le plaisir et la réflexion. Une étude de cas effectuée au Centre de réadaptation Estrie vise à vérifier leur validité. Cet établissement, qui fait partie du Réseau de la santé et des services sociaux du Québec, est également un membre désigné du Réseau Planetree, dont la mission est vouée au développement de pratiques gestionnaires respectueuses de la dimension humaine dans les centres de santé. La qualité de l’environnement physique étant l’une des dix composantes du modèle promu par cette organisation, l’analyse, en vue de la validation ou du rejet des concepts issus du cadre théorique, concerne leur articulation dans le concret. Nous retenons des quatre concepts que sont les interactions sociales, le soutien social, le plaisir et la réflexion, qu’ils sont valides, et rejetons l’exclusion/isolement et le pouvoir. Des propositions de remplacement pour ces deux derniers sont soumises, soit, les limites/l’’intimité et l’emprise. La principale piste de sujet de recherches futures est le développement de la notion « d’accueil », où l’aménagement intérieur joue, à ce titre, un rôle dans les milieux de santé.

Influence of internal fixator stiffness on murine fracture healing : two types of fracture healing lead to two distinct cellular events and FGF-2 expressions

This study aimed to clarify the relationship between the mechanical environment at the fracture site and endogenous fibroblast growth factor-2 (FGF-2). We compared two types of fracture healing with different callus formations and cellular events using MouseFix(TM) plate fixation systems for murine fracture models. Left femoral fractures were induced in 72 ten-week-old mice and then fixed with a flexible (Group F) or rigid (Group R) Mouse Fix(TM) plate. Mice were sacrificed on days 3, 5, 7, 10, 14, and 21. The callus volumes were measured by 3D micro-CT and tissues were histologically stained with hematoxylin & eosin or safranin-O. Sections from days 3, 5, and 7 were immunostained for FGF-2 and Proliferating Cell Nuclear Antigen (PCNA). The callus in Group F was significantly larger than that in Group R. The rigid plate allowed bone union without a marked external callus or chondrogenesis. The flexible plate formed a large external callus as a result of endochondral ossification. Fibroblastic cells in the granulation tissue on days 5 and 7 in Group F showed marked FGF-2 expression compared with Group R. Fibroblastic cells showed ongoing proliferation in granulation tissue in group F, as indicated by PCNA expression, which explained the relative granulation tissue increase in group F. There were major differences in early phase endogenous FGF-2 expression between these two fracture healing processes, due to different mechanical environments.

Biochemical profiling of proteins and metabolites in wound exudate from chronic wound environments

The lack of fundamental knowledge on the biological processes associated with wound healing represents a significant challenge. Understanding the biochemical changes that occur within a chronic wound could provide insights into the wound environment and enable more effective wound management. We report on the stability of wound fluid samples under various conditions and describe a high-throughput approach to investigate the altered biochemical state within wound samples collected from various types of chronic, ulcerated wounds. Furthermore, we discuss the viability of this approach in the early stages of wound sample protein and metabolite profiling and subsequent biomarker discovery. This approach will facilitate the detection of factors that may correlate with wound severity and/or could be used to monitor the response to a particular treatment.

Oxidized alginate hydrogels as niche environments for corneal epithelial cells

Chemical and biochemical modification of hydrogels is one strategy to create physiological constructs that maintain cell function. The aim of this study was to apply oxidised alginate hydrogels as a basis for development of a biomimetic niche for limbal epithelial stem cells that may be applied to treating corneal dysfunction. The stem phenotype of bovine limbal epithelial cells (LEC) and the viability of corneal epithelial cells (CEC) were examined in oxidised alginate gels containing collagen IV over a 3-day culture period. Oxidation increased cell viability (P healing therapy.

Skill development for innovative procurement environments in construction

The construction industry should be a priority to all governments because it impacts economically and socially on all citizens. Sector turnover in industrialised economies typically averages 8-12% of GDP. Further, construction is critical to economic growth. Recent Australian studies estimate that a 10% gain in efficiency in construction translates to a 2.5% increase in GDP Inefficiencies in the Australian construction industry have been identified by a number of recent studies modelling the building process. They have identified potential savings in time of between 25% and 40% by reducing non-value added steps in the process. A culture of reform is now emerging in the industry – one in which alternate forms of project delivery are being trialed. Government and industry have identified Alliance Contracting as a means to increase efficiency in the construction industry as part of a new innovative procurement environment. Alliance contracting requires parties to form relationships and work cooperatively to provide a more complete service. This is a significant cultural change for the construction industry, with its well-known adversarial record in traditional contracting. Alliance contracts offer enormous potential benefits, but the Australian construction industry needs to develop new skills to effectively participate in the new relationship environment. This paper describes a collaborative project identifying skill needs for clients and construction professionals to more effectively participate in an increasingly sophisticated international procurement environment. The aim of identifying these skill needs is to assist industry, government, and skill developers to prepare the Australian construction workforce for the future. The collaborating Australian team has been fortunate to secure the Australian National Museum in Canberra as its live case study. The Acton Peninsula Development is the first major building development in the world awarded on the basis of a joint alliance contract.