The quality of life in developing age children with celiac disease

Aim. The moments that follow thè diagnosis of celiac disease and thè early stages of thè gluten-free diet are extremely difficult and complex for parents and child, because they face an important change punctuated by selfdenial and deprivation. The mairi objective of this research is to assess thè impact of celiac disease on quality of life in subjects in developmental age, taking into account thè perceptions of parents about thè child's illness, •with thè aitn to highlight thè effect of disease on thè child and thè entire family. Methods. The study included both parents of 45 children aged between 2 and 10 years, with established celiac disease. To evaluate thè effect of celiac disease on thè lifestyle of affected children and their families has been used, after having adapted to thè Italian context, thè Impact Scale of Childhood Diseases of Hoare and Russell (1995). This study shows that celiac disease is a conditìon that has a significant impact on both thè child and his family. Results and conclusion. The results obtained by administration of Impact Scale of Childhood Diseases to parents showed that subjects in developmental age with celiac disease could have difficulty on emotional level that affect child development and thè whole family context. Acceptance of thè illness by thè child depends mainly by how muc

Distance Collaboration. a Comparative Analysis of Tools and Procedures

Besides design theory and practice, curricula of architectural students should include some experiences referring to professional situations. Among these experiences, Collaborative Design is nowadays somewhat frequent. It is normally practised by large professional studios, using expansive software which is beyond what they can afford on average. Much academic research on the topic has also been carried out often resulting in the proposition of new and too complex description models of the building object. We think that students should instead get acquainted with such a design process: an experience has been planned and carried out in our Department for the purpose of practising the possible paradigm in a more ordinary context. Its purpose was threefold. First, making the students grasp the methodis potentialities and learn the right approach. Second, testing the practical suitability of the most widely used software. Third, comparing their relative efficiency. The software we used was: Architectural Desktop, AutoCad Revit, ArchiCad for Teamwork. We focused special attention on how representing and managing restraints, since they are the main source of conflicts. This was the hardest topic to manage. The results were partly positive inasmuch as the experience showed that it could be possible to adopt the Collaborative Design paradigm which is also used in the AEC field. The drawbacks emerged from the analysis of non-dedicated software are: a relative slow process for the lack of certain specific tools, a subsequent necessity of integrating them with different communication software, the difficulty of managing hard and soft restraints. However, in the final analysis, the experience can be considered as positive

Intelligent Structures for Collaborating with the Architect

The number of different designers with different competencies collaborating in a building project is today conspicuous. An undesired consequence is the possible rise of conflicts between decisions taken independently by more than one specialist on the same building object. The early detection of such conflicts is then one of the most important features in collaborative design. Moreover, of great interest would be the possibility not only of automatic detection but also of solution proposal of at least the most manageable of those conflicts. In this perspective smart models of building components could be very useful. This is possible giving the building elements, represented as objects, the specific intelligence. A simple example of this possibility is given in this paper. In a precedent work we proposed a way of managing elementary spatial conflicts between building components tending to occupy the same spaces. The automatic detection derived from the previous declaration of two levels of constraints (soft constraint and hard constraints) in such way that a violation of them could be immediately signaled to the actor wanting to take the decision triggering the conflict. In this paper the topic is the consequences of the rise of a spatial conflict (occupation of the same space) between a column of a spatial frame of columns and beams, and another building object of any sort subject to a soft or hard constraint. The procedure identifies the minimum displacement of the two objects, propagates the column displacement to the other structural elements connected to it and checks the feasibility of the new configuration of the structural schema both with regard to the possible rise of new conflicts and with the compliance to previous structural criteria

Performative Architecture: New Semantic for New Shapes?

Two innovations have more deeply changed the building process: the operational continuity of the design and construction phases and the software allowing not only the representation but also the autonomous creation of complex shapes never before thought, just because they could not be represented. This last innovation introduce to a “Performative Architecture” that addresses to emerge a new kind of architecture. Building performances (structural, environmental, energetic) are guiding design principles, adopting new building performance-based priorities for the design of cities, buildings and landscape. This emerging architecture places broadly defined performance above form making, It utilises digital technologies of quantitative and qualitative performance-based simulation to offer a comprehensive approach to the design of the build environment. Some aspects of “Performative Architecturei theories are critically examined and we report two experiments made using these procedures. The results try to give a contribution to detect some misunderstandings in relation to recent building projects shown

Construction or Deconstruction: Which is the Best Way to Learn Architecture?

The actual shift of the teaching methods from teacher-centred expository methods, to learner-centred exploratory ones. The educational goals are no more the construction of a solid theory knowledge from which the behaviour is driven. It is the acquisition of capabilities and skills directly related to the professional activity. The consequence is that the teacher has the task of endowing the student not only with a large amount of documentation but also with at least suggestions of the way to use it. One of these suggestions is the deconstruction (in a literal and not philosophical sense) as a way of investigating the structure of buildings. In a first phase in order to acquire, through generalisation a systematic knowledge of the way the parts of a building (their subsystems) contribute to the global architectural organism. In a second phase in order to explore buildings of special interest aiming at mastering their peculiar solutions. An example of this method is presented, limited to the spatial analysis only both for brevity sake and for particular difficulties presented

Retrieval Tools in Building Case Bases

Most of the existing aids to building design rely on data base of cases representing solutions to problems that are thought to happen again at least in a similar way. Crucial for the success of the aid is the retrieval engine. In tour its efficiency depends on the way the cases are encoded. Whichever is this way cases will be represented at different levels of abstraction. The highest level will probably consist in an accessibility and adjacency graph. Another level could be a wire plan of the building. An easily workable representation of a graph is a square matrix. For any given building typology it is possible to write a list of encoded space types. This allows forming matrices that can be compared and their diversity measured. Here we present an algorithm that makes this job. Such an algorithm can be one of the case retrieval tools in the data base. It is likely that the designer has already some idea of the shape he wants for the building he is designing. A comparison between some geometric characteristics of the wire representation of the retrieved case and the corresponding ones of the imagined solution of the design problem can constitute a second test. The matching can be done