Melomanes | Combination therapy for the treatment of metastatic melanoma using magnetic nanoparticles

Summary
Metastatic melanoma is a hard-to-treat disease and it remains as one of the most worrisome cancer. There is an urgent need to improve the current therapies (chemotherapy, radiotherapy) that have a limited efficacy. A single therapy is not efficient to tackle metastatic melanoma and a combination of therapies is thus emerging as a necessity to efficiently eradicate all cancer cells. Recently, the development of immunotherapies has shown promises, in particular chimeric antigen receptor (CAR)-T cells. Nevertheless, the physical barriers represented by cellular and non-cellular components of the tumor microenvironment combined to the abnormal tumor vasculature and high interstitial fluid pressure, hamper an efficient tumour infiltration of CAR-T cells. In this context, thanks to a network of 18 partners (including 10 non-academic partners), MELOMANES aims to train doctoral researchers for the development of a combined therapy exploiting the properties of magnetic nanoparticles to induce damage on the tumor microenvironment by magnetic and optic hyperthermia in order to facilitate the infiltration of CAR-T cells. This therapeutic approach combining hyperthermia and immunotherapy is versatile, as it could be also applied to other types of solid tumors. Research and transferable training of the doctoral researchers will be performed in a highly interdisciplinary, intersectoral, and international environment. In addition to acquiring skills related to the research project, they will be trained also in open science, communication and dissemination, responsible research and innovation, circular economy, ethics, data management, entrepreneurship, marketing, intellectual property, and gender dimension in research. Their competences will be validated through certification and qualification examination, allowing a new generation of highly skilled doctoral researchers to emerge with a high-level training in particular in the multidisciplinary field of nanomedicine.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101073025
Start date: 01-03-2023
End date: 28-02-2027
Total budget - Public funding: - 2 734 401,00 Euro
Cordis data

Original description

Metastatic melanoma is a hard-to-treat disease and it remains as one of the most worrisome cancer. There is an urgent need to improve the current therapies (chemotherapy, radiotherapy) that have a limited efficacy. A single therapy is not efficient to tackle metastatic melanoma and a combination of therapies is thus emerging as a necessity to efficiently eradicate all cancer cells. Recently, the development of immunotherapies has shown promises, in particular chimeric antigen receptor (CAR)-T cells. Nevertheless, the physical barriers represented by cellular and non-cellular components of the tumor microenvironment combined to the abnormal tumor vasculature and high interstitial fluid pressure, hamper an efficient tumour infiltration of CAR-T cells. In this context, thanks to a network of 18 partners (including 10 non-academic partners), MELOMANES aims to train doctoral researchers for the development of a combined therapy exploiting the properties of magnetic nanoparticles to induce damage on the tumor microenvironment by magnetic and optic hyperthermia in order to facilitate the infiltration of CAR-T cells. This therapeutic approach combining hyperthermia and immunotherapy is versatile, as it could be also applied to other types of solid tumors. Research and transferable training of the doctoral researchers will be performed in a highly interdisciplinary, intersectoral, and international environment. In addition to acquiring skills related to the research project, they will be trained also in open science, communication and dissemination, responsible research and innovation, circular economy, ethics, data management, entrepreneurship, marketing, intellectual property, and gender dimension in research. Their competences will be validated through certification and qualification examination, allowing a new generation of highly skilled doctoral researchers to emerge with a high-level training in particular in the multidisciplinary field of nanomedicine.

Status

SIGNED

Call topic

HORIZON-MSCA-2021-DN-01-01

Update Date

09-02-2023
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Horizon Europe
HORIZON.1 Excellent Science
HORIZON.1.2 Marie Skłodowska-Curie Actions (MSCA)
HORIZON.1.2.0 Cross-cutting call topics
HORIZON-MSCA-2021-DN-01
HORIZON-MSCA-2021-DN-01-01 MSCA Doctoral Networks 2021