PRECIOUS (scaling-up immunomodulating nanomedicines for multimodal precision cancer immunotherapy) aims at scaling-up biodegradable nanomedicines for multimodal precision cancer immunotherapy.
Despite the access to different classical treatment strategies such as chemotherapy, radiotherapy and surgery, cancer is still a leading cause of death worldwide accounting for over 9.6 million deaths per year. Often, tumour cells that have become resistant to chemo- and radiotherapy ultimately lead to the death of a patient. Therefore, radically innovative approaches are highly needed to increase survival rates. In the past 5 years, immunotherapy has completely overhauled the cancer field with several new types of therapies entering the market at a rapid pace. The great benefit of immunotherapy is that it attacks tumour cells via a completely different mechanism than chemo- and radiotherapy, harnessing the power of the body’s own immune system to fight cancer. However, current immunotherapies are challenged by low efficacy, partially due to the immunosuppressive tumour micro-environment.
The PRECIOUS project established a platform for the development of new medicines that contain immunomodulating components acting at multiple levels. Nanoparticles offer the optimal platform for a combinational immunotherapy, as they are able to encapsulate immunomodulators in biodegradable particles. Currently, immunomodulating nanomedicines are not used to their full potential due to is challenging manufacturing requirements. In PRECIOUS we developed a manufacturing process at industrial scale for immunomodulating nanomedicines. We produced clinical batches nanomedicines and we tested the potential of these nanoparticle-based immunotherapies in the clinic. In addition, we developed a marketing and commercialisation strategy for these novel medicines.
Together, with 6 leading industrial partners and 5 renowned academic partners, we have been able to realize within the PRECIOUS project a major improvement in cancer therapy by building a novel nanomedicine platform and demonstrated proof of concept in the clinic.