Comment reconnaître les symptômes de l'asthme ?
Qu'est-ce qui déclenche l'asthme ?
Peut-on maîtriser l'asthme ?
Qu'est-ce qu'une allergie ?
Qu'en est-il de l'action de la cigarette des foyers et des poêles à bois sur les bronches ?
L'enfant asthmatique peut-il faire du sport ?
Quel est le lien entre émotions et asthme ?
Comment traite-t-on l'asthme ?
Comment savoir quand donner les bronchodilatateurs ?
Quelle est la meilleure façon de donner la médication ?
L'asthme peut-il être traité avec des méthodes alternatives ?
Quand doit-on consulter un médecin ?
Le suivi médical est-il vraiment important ?
... à celles que vos enfants vous posent :
/> Est-ce que l'asthme est contagieux ?
Est-ce que l'asthme se guérit ?
... et à de nombreuses autres questions !
Music is much more than listening to audio encoded in some unreadable binary format. It is, instead, an adventure similar to reading a book and entering its world, complete with a story, plot, sound, images, texts, and plenty of related data with, for instance, historical, scientific, literary, and musicological contents. Navigation of this world, such as that of an opera, a jazz suite and jam session, a symphony, a piece from non-Western culture, is possible thanks to the specifications of new standard IEEE 1599, IEEE Recommended Practice for Defining a Commonly Acceptable Musical Application Using XML, which uses symbols in language XML and music layers to express all its multimedia characteristics. Because of its encompassing features, this standard allows the use of existing audio and video standards, as well as recuperation of material in some old format, the events of which are managed by a single XML file, which is human and machine readable - musical symbols have been read by humans for at least forty centuries. Anyone wanting to realize a computer application using IEEE 1599 -- music and computer science departments, computer generated music research laboratories (e.g. CCRMA at Stanford, CNMAT at Berkeley, and IRCAM in Paris), music library conservationists, music industry frontrunners (Apple, TDK, Yamaha, Sony), etc. -- will need this first book-length explanation of the new standard as a reference. The book will include a manual teaching how to encode music with IEEE 1599 as an appendix, plus a CD-R with a video demonstrating the applications described in the text and actual sample applications that the user can load onto his or her PC and experiment with.
This work presents the structure, distribution and semantic interpretation of quantificational expressions in languages from diverse language families and typological profiles. The current volume pays special attention to underrepresented languages of different status and endangerment level. Languages covered include American and Russian Sign Languages, and sixteen spoken languages from Africa, Australia, Papua, the Americas, and different parts of Asia. The articles respond to a questionnaire the editors constructed to enable detailed crosslinguistic comparison of numerous features. They offer comparable information on semantic classes of quantifiers (generalized existential, generalized universal, proportional, partitive), syntactically complex quantifiers (intensive modification, Boolean compounds, exception phrases, etc.), and several more specific issues such as quantifier scope ambiguities, floating quantifiers, and binary (type 2) quantifiers. The book is intended for semanticists, logicians interested in quantification in natural language, and general linguists as articles are meant to be descriptive and theory independent. The book continues and expands the coverage of the Handbook of Quantifiers in Natural Language (2012) by the same editors, and extends the earlier work in Matthewson (2008), Gil et al. (2013) and Bach et al (1995).
In this first book to provide an overview of applications of proteomics in the discovery of new diagnostic, prognostic and therapeutic targets, a team of international specialists from research institutions, hospitals and companies contribute with their specific expertise. They cover a wide range of example applications for the most important diseases, such as heart and cardiovascular disorders, cancer, pharmatoxicology, infectious diseases and diseases of the nervous system.
Denis Hochstrasser is an eminent scientist in the field of bioinformatics and proteomics and one of the founders of the Swiss Prot Databank as well as of the Swiss biotech company Genebio.