Multi-dimensional omics approach to stratification of patients with low back pain

  • Description
  • Details
  • Subprojects
  • History
  • Relations
  • Publications
Project Title: Multi-dimensional omics approach to stratification of patients with low back pain
Project Number: CORDIS-110070
Project web address: Follow on CORDIS
Organization: Universita Degli Studi Di Parma, Italy, Parma
Collaborators: King'S College London, GB
Edith Cowan University, AU
Helmholtz Zentrum Muenchen- Deutsches Forschungszentrum Fuer Gesundheit Und Umwelt Gmbh, DE
Fondazione Irccs Policlinico San Matteo, IT
Ip Research Consulting Sasu, FR
Genos Doo Za Vjestacenje I Analizu, HR
Yurii Aulchenko, NL
Specijalna Bolnica Za Ortopediju, Kirurgiju, Neurologiju I Fizikalnu Medicinu I Rehabilitaciju Sveta Katarina Ustanova, HR
Ziekenhuis Oost-Limburg Autonome Verzorgingsinstelling, BE
The Center For Clinical Research Llc, US
Principal Investigators (PI): Paul Labbett, GB
Juergen Ertel, DE
Franco Marazza, IT
Linda Penny, AU
Yury Aulchenko, NL
Iain Pemberton, FR
Dragan Primorac, HR
Joke Vanlangenaeker, BE
Leonardo Kapural, US
Cizmesija Ivana, HR
Massimo Allegri, IT
Project Description:
Pain-OMICS is a multidisciplinary consortium of leading clinical, academic and SME researchers in pain and different omics technologies. Genome-wide association studies identified a number of loci associated with pain, but the level of knowledge about underlying mechanisms of different pain syndromes as well as individual variation in the disease course remains inadequate. Pain-OMICS will capitalise on its existing high quality clinical, genetic, biochemical and pharmacological data and biological samples on over 5000 well characterised patients with low-back pain (LBP) and controls available to our EU and US clinical partners. We will exploit novel technological approaches made available through the expertise and global leading position of our analytical partners. These comprise cutting edge genomic, epigenomic, glycomic, and activomic approaches which reflect signal transduction and membrane dynamics. We believe that the inclusion of these complementary analyses will elucidate pathways through which acute LBP fails to resolve and becomes chronic LBP. In addition, these approaches will reveal pathways and biomarkers of chronic pain through which individual differences affects symptoms and response to therapy. Participation of leading clinics on both sides of the Atlantic will enable replication of all finding in at least three independent large cohorts, as well as in prospective study and a large twin cohort. A complex systems biology approach will be used to integrate, interrogate and understand this multidimensional dataset in order to achieve the aims of identifying novel diagnostic and prognostic biomarkers as well as new targets for therapeutic intervention. The track record of achievement of our partners coupled to participation of research-intensive SMEs is a strong indication that the ambitious work programme will be achieved and provides a framework for rapid translation of research discoveries into solutions for the benefit of large numbers of patients.
Project Terms:
life sciences