INTEGRATED TECHNOLOGIES FOR IN-VIVO MOLECULAR IMAGING (MOLECULAR IMAGING)

Grunddaten zu diesem Projekt

Art des Projektes: EU-Projekt koordiniert außerhalb der Universität Münster
Laufzeit: 01.01.2004 - 31.12.2008

Beschreibung

The goal of the project proposed here is to generate and apply novel advanced technology for non- invasive imaging of biomolecular function in living systems ranging from single cells to whole animals. Main areas for technological innovation are i) generation of new biosensors enabling novel ways of functional contrast, ii) improving resolution of microscopic and tomographic imaging systems, and iii) creating new multimodal imaging set up combining different contrast modes. It is expected that our combined effort will provide spectacular new opportunities for phenotyping functional (molecular) analysis in cells and animal models. To achieve this goal we bring together a unique consortium of leading research groups in Europe combining a) engineers, experimental and theoretical physicists (who design new and improved, tomographic and microscopic imaging devices for in vivo-imaging); b) bioorganic chemists and molecular biologists (for the design of new chemical and genetic encoded molecular probes and biosensors); and c) biologists examining fundamental questions at the cell, organ and whole animal level (thereby providing the above researches the appropriate and relevant goals for the technological innovation). The management structure of the project provides for continuous interactions and flow of information among the various participants, groups and subgroups involved in each work package. High quality training is guaranteed by the exchange of young researchers among the expert participants and by summer and other schools. Inclusion and interactions with companies active in this field are among the several means of exploitation of the expected RTD and innovation results.

Stichwörter: non- invasive imaging; biomolecular function; living systems