TY - JOUR
T1 - The importance of international collaboration for rare diseases research
T2 - A European perspective
AU - Julkowska, D.
AU - Austin, C.P.
AU - Cutillo, C.M.
AU - Gancberg, D.
AU - Hager, C.
AU - Halftermeyer, J.
AU - Jonker, A.H.
AU - Lau, L.P.L.
AU - Norstedt, I.
AU - Rath, A.
AU - Schuster, R.
AU - Simelyte, E.
AU - Van Weely, S.
N1 - Funding Information:
Projects financed by the EU The EU had supported during FP6 a €12 million European network of excellence for the advancement of clinical gene transfer and therapy (CliniGene16,17) involving 42 participants from 14 countries. Its role was to foster interaction between all stakeholders— regulators, pre-clinical and clinical investigators, scientists, companies and patient representatives—in order to streamline integration of multidisciplinary expertize and generate new knowledge; to establish the quality, safety, efficacy and ethically acceptable standards for clinical gene transfer products; and to identify and accelerate the ‘critical path’ from pre-clinical to clinical phase. One particular feature of this network, organized into seven technology platforms, was the possibility to fund its own internal collaborative and exchange program that could target specific bottlenecks such as establishment of improved producer cells, development of validated production and purification protocols for viral and non-viral vectors, address the ethical, legal and regulatory component and facilitation of clinical trials for rare or common diseases (cancers, adenosine deaminase severe combined immunodeficiency, Leber congenital amaurosis, Parkinson’s disease or X-linked adrenoleukodystrophy). The main results of CliniGene were: integration of EU-wide research and facilities in the field of gene therapy; overcoming of most scientific bottlenecks identified and targeted by the seven technology platforms; publication of more than 745 papers; financial support to over 90 projects targeting novelty and international collaborations between 45 laboratories and companies; creation of new improved producer cells; development of highly efficient production and purification for most important viral and non-viral vectors; implementation of a reliable and validated vector biosafety platform addressing safety and efficiency in vitro and in vivo; contribution to the ethical, legal and regulatory components of these new therapies to the European Medicines Agency and facilitation of clinical trials performance; training as well as technology transfer to industry.
Funding Information:
would not appear as beneficiary of the Horizon 2020 program until 31 December 2016, except for potential grants from the European Research Council. The participation of Third Countries in RD research during FP7 included the United States, Australia, Canada, New Zealand, United Arab Emirates, Uzbekistan, Kazakhstan, China, Japan and India. Up to now, in Horizon 2020, the third countries participation includes the United States, Canada, Republic of Korea, South Africa, Senegal and Mozambique.
Funding Information:
1Department of Health & Biology, Agence Nationale de la Recherche, Paris, France; 2National Center for Advancing Translational Sciences (NCATS), US National Institutes of Health (NIH), Bethesda, MD, USA; 3Directorate Health, Directorate-General for Research and Innovation, European Commission, Brussels, Belgium; 4Directorate Health Systems, Medical products and innovation, Directorate-General for Health and Food Safety, European Commission, Brussels, Belgium; 5IRDiRC Scientific Secretariat, Inserm US14, Paris, France; 6Inserm US14-Orphanet, Paris, France; 7DLR Project Management Agency, Health, Bonn, Germany and 8The Netherlands Organisation for Health Research and Development (ZonMw), The Hague, The Netherlands. Correspondence: Dr D Julkowska, Department of Health & Biology, Agence Nationale de la Recherche, 50 Avenue Daumesnil, 75012 Paris, France. E-mail: [email protected] 9These authors contributed equally to this work. Received 17 February 2017; revised 22 March 2017; accepted 10 April 2017; accepted article preview online 25 April 2017; advance online publication, 27 July 2017
Funding Information:
The EC, together with European Member States, have been working on ways to support international collaboration in RD research. Statistics of Framework Programme 6 (FP6), Framework Programme 7 (FP7) and Horizon 2020 provide insight into how various aspects of the international collaboration were supported by EU-level public funding. First, the diversity of types of organizations supported by the EU throughout the Framework Programmes: Figure 1a shows the percentage of participation of the types of organizations involved in FP6 (n = 468), in FP7 (n = 704) and—until January 2017 (n = 322)—in Horizon 2020. Figure 1b shows the EU funding received per three main organization types.
Publisher Copyright:
© 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved.
PY - 2017/9/1
Y1 - 2017/9/1
N2 - Over the last two decades, important contributions were made at national, European and international levels to foster collaboration into rare diseases research. The European Union (EU) has put much effort into funding rare diseases research, encouraging national funding organizations to collaborate together in the E-Rare program, setting up European Reference Networks for rare diseases and complex conditions, and initiating the International Rare Diseases Research Consortium (IRDiRC) together with the National Institutes of Health in the USA. Co-ordination of the activities of funding agencies, academic researchers, companies, regulatory bodies, and patient advocacy organizations and partnerships with, for example, the European Research Infrastructures maximizes the collective impact of global investments in rare diseases research. This contributes to accelerating progress, for example, in faster diagnosis through enhanced discovery of causative genes, better understanding of natural history of rare diseases through creation of common registries and databases and boosting of innovative therapeutic approaches. Several examples of funded pre-clinical and clinical gene therapy projects show that integration of multinational and multidisciplinary expertize generates new knowledge and can result in multicentre gene therapy trials. International collaboration in rare diseases research is key to improve the life of people living with a rare disease.
AB - Over the last two decades, important contributions were made at national, European and international levels to foster collaboration into rare diseases research. The European Union (EU) has put much effort into funding rare diseases research, encouraging national funding organizations to collaborate together in the E-Rare program, setting up European Reference Networks for rare diseases and complex conditions, and initiating the International Rare Diseases Research Consortium (IRDiRC) together with the National Institutes of Health in the USA. Co-ordination of the activities of funding agencies, academic researchers, companies, regulatory bodies, and patient advocacy organizations and partnerships with, for example, the European Research Infrastructures maximizes the collective impact of global investments in rare diseases research. This contributes to accelerating progress, for example, in faster diagnosis through enhanced discovery of causative genes, better understanding of natural history of rare diseases through creation of common registries and databases and boosting of innovative therapeutic approaches. Several examples of funded pre-clinical and clinical gene therapy projects show that integration of multinational and multidisciplinary expertize generates new knowledge and can result in multicentre gene therapy trials. International collaboration in rare diseases research is key to improve the life of people living with a rare disease.
UR - http://www.scopus.com/inward/record.url?scp=85025835471&partnerID=8YFLogxK
U2 - 10.1038/gt.2017.29
DO - 10.1038/gt.2017.29
M3 - Review article
C2 - 28440796
AN - SCOPUS:85025835471
SN - 0969-7128
VL - 24
SP - 562
EP - 571
JO - Gene Therapy
JF - Gene Therapy
IS - 9
ER -
