Vascular anomalies (VAs) are a group of rare diseases defined by blood- or lymph vessel dysfunction causing chronic pain, disabilities, and even sudden death. Effective therapeutic treatments are lacking and many patients require life-long clinical management by multidisciplinary medical teams. Management is often partial, leaving patients with chronic pain, dysfunction, and lowered quality of life. The inherent challenge in the field is the scarcity of clinical knowledge and expertise due to the limited number of patients.
The V.A. Cure network (7 academic institutions, 2 companies, and supported by 9 partner organisations across Europe) aimed to uncover core mechanisms of disease initiation and maintenance and leverage this information for establishing novel therapeutic strategies for VAs.
14 ESRs were working on the project’s objectives:
(1) identification of novel genes involved in VAs in patients,
(2) dissection of molecular mechanisms behind the diseases by in vitro modelling,
(3) in-depth analysis of tissular mechanisms in pathophysiological conditions through in vivo models,
(4) pre-clinical testing of identified treatment strategies.
The consortium has made major advances in the fundamental understanding of vascular diseases, which provide leads for the development of new therapies for multiple VAs. In addition, new techniques and models were developed that will be of great value for future vascular research, into vascular anomalies and other vascular diseases.
The 14 ESRs have successfully performed their individual projects. With the acquired biological knowledge, technical and soft skills and the network built up during V.A.Cure they will be able to continue their career in the path of their choice.
Furthermore, new collaborations in the project have proven fruitful and many of them will be continued after the project. Collaborations outside the network have also been initiated. The project has thus strengthened the vascular research field in Europe, both in terms of scientific quality and international collaboration.