EU Launches Project to Improve In-Vitro Diagnostics
News Jan 13, 2009
The European Union launched a new research project targeting to expand the potentials and utility of in-vitro diagnostics through the creation of new standards for the collection, handling and processing of blood, tissue, tumor and other sample materials.
Under the 7th Framework Programme, the European Commission approved the initiative’s funding and scope to develop corresponding standards, tools and quality assurance schemes.
The SPIDIA project (Standardization and improvement of generic Pre-analytical tools and procedures for In-vitro DIAgnostics) is scheduled to run for four years and has a total budget of over 13 million Euros. The consortium, consisting of a total of 16 companies and research institutions from 11 countries, will be led by QIAGEN.
The project has been set up to standardize the pre-analytical handling of patient samples used for in-vitro (in glass) diagnosis of human diseases. Such diagnostic procedures are performed in laboratories, hospitals and doctors' practices. In in-vitro diagnostics, the collection, handling and processing of sample materials are regarded as particularly critical procedures, as the reliability of the subsequent analysis and therefore the meaningfulness of the diagnosis are vitally dependent upon the integrity of the sample.
"Far too many differing sample processing methods, which then lead to different results, are still being used", said Arnd Hoeveler, Head of Unit "Health biotechnology" in the Directorate “Health” of the Commission’s Directorate-General for Research. "This variance hampers the comparability and reproducibility of results and reduces the meaningfulness of the analyses. More standardized guidelines and quality assurance schemes will help to introduce new and better diagnostic methods, which will benefit all European patients."
It is believed that molecular diagnostics, in which DNA and RNA are the molecules of interest, will play a particularly vital role in future healthcare in Europe. These so-called molecular diagnostic methods allow earlier and more reliable information about the status of a disease than conventional methods. Molecular diagnostics can also facilitate predictions concerning the future courses of diseases and lead to individualized therapeutic measures. They are therefore viewed as fundamental to the emergence of the new era of personalized medicine.
"QIAGEN welcomes this initiative and considers it extremely important in paving the way for a significant expansion of the potential of in-vitro diagnostics", said Peer M. Schatz, CEO of QIAGEN.
"The ongoing standardization of the collection, handling and processing of relevant samples will speed up the dissemination of new in-vitro diagnostic methods. With its support of this project, the Commission is providing strong leadership in emphasizing the importance of these processes in general and molecular diagnostics and their role as cornerstones of future healthcare in Europe in particular,” Schatz said.
SPIDIA is designed as an integrative project and further along the road, the intention of the project is also to develop standards for the other in-vitro diagnostics steps, i.e. the actual analysis. At the end of the four years a proposal for quality controls and uniform guidelines for the execution of the entire in-vitro diagnostic process should be in place. The network anticipates to share first results after two years.
How do Poison Frogs Protect Themselves Against Their Own Neurotoxin?News
Scientists are a step closer to resolving a related head-scratcher, how do these frogs keep from poisoning themselves?READ MORE
The Ancient Behaviour of Sleep, Conserved Throughout EvolutionNews
The finding that jellyfish sleep implies that sleep is an ancient behavior, largely untouched by millennia of evolution.READ MORE