Summary
The European Chronic Diseases Alliance has defined cancer as one of the major non-communicable diseases, accounting
for 13% of the deaths worldwide, resulting in 8.2 million deaths annually. In the NEOSETAC project, breast cancer will be the
focus of study being the most common cancers in women. It comprises of 10.4% of all the cancer incidences among women,
causing 411 093 deaths per year overall the world. In Europe, there is more than twice of the amount of new breast cancer
cases annually than new cases of cancer in any other place. The complexity of breast cancer makes it a big challenge for
successful treatment. The NEOSETAC project will demonstrate the anti-cancer therapeutic potential of a novel Seleniumbased
therapy for the management of breast cancer. The clinical application of Selenium (Se) compounds for cancer
treatment is until now limited in chemoprevention as dietary supplement. In this proposal, we aim to improve the therapeutic
window, pharmacokinetic properties and targeting drug delivery via nanoparticles (NPs). By loading Se into biodegradable
NPs, drug release is controlled within the narrow therapeutic window of Se. At the same time the uptake and activation of Se
compounds at desired location (tumor lesions and metastasis) is achieved. We also propose to functionalize NPs by cancer
cell / cancer stem cell targeting ligands to further improve the therapeutic efficacy and prevent cancer recurrence after
chemotherapy. These advantages will lead to an enhanced anticancer activity and reduced systemic toxicity. Moreover,
targeting via NPs will improve the pharmacokinetic properties and increase the relatively short half-life (~18 hours) of Se.
for 13% of the deaths worldwide, resulting in 8.2 million deaths annually. In the NEOSETAC project, breast cancer will be the
focus of study being the most common cancers in women. It comprises of 10.4% of all the cancer incidences among women,
causing 411 093 deaths per year overall the world. In Europe, there is more than twice of the amount of new breast cancer
cases annually than new cases of cancer in any other place. The complexity of breast cancer makes it a big challenge for
successful treatment. The NEOSETAC project will demonstrate the anti-cancer therapeutic potential of a novel Seleniumbased
therapy for the management of breast cancer. The clinical application of Selenium (Se) compounds for cancer
treatment is until now limited in chemoprevention as dietary supplement. In this proposal, we aim to improve the therapeutic
window, pharmacokinetic properties and targeting drug delivery via nanoparticles (NPs). By loading Se into biodegradable
NPs, drug release is controlled within the narrow therapeutic window of Se. At the same time the uptake and activation of Se
compounds at desired location (tumor lesions and metastasis) is achieved. We also propose to functionalize NPs by cancer
cell / cancer stem cell targeting ligands to further improve the therapeutic efficacy and prevent cancer recurrence after
chemotherapy. These advantages will lead to an enhanced anticancer activity and reduced systemic toxicity. Moreover,
targeting via NPs will improve the pharmacokinetic properties and increase the relatively short half-life (~18 hours) of Se.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/778325 |
| Start date: | 01-01-2018 |
| End date: | 31-10-2023 |
| Total budget - Public funding: | 504 000,00 Euro - 504 000,00 Euro |
Cordis data
Original description
The European Chronic Diseases Alliance has defined cancer as one of the major non-communicable diseases, accountingfor 13% of the deaths worldwide, resulting in 8.2 million deaths annually. In the NEOSETAC project, breast cancer will be the
focus of study being the most common cancers in women. It comprises of 10.4% of all the cancer incidences among women,
causing 411 093 deaths per year overall the world. In Europe, there is more than twice of the amount of new breast cancer
cases annually than new cases of cancer in any other place. The complexity of breast cancer makes it a big challenge for
successful treatment. The NEOSETAC project will demonstrate the anti-cancer therapeutic potential of a novel Seleniumbased
therapy for the management of breast cancer. The clinical application of Selenium (Se) compounds for cancer
treatment is until now limited in chemoprevention as dietary supplement. In this proposal, we aim to improve the therapeutic
window, pharmacokinetic properties and targeting drug delivery via nanoparticles (NPs). By loading Se into biodegradable
NPs, drug release is controlled within the narrow therapeutic window of Se. At the same time the uptake and activation of Se
compounds at desired location (tumor lesions and metastasis) is achieved. We also propose to functionalize NPs by cancer
cell / cancer stem cell targeting ligands to further improve the therapeutic efficacy and prevent cancer recurrence after
chemotherapy. These advantages will lead to an enhanced anticancer activity and reduced systemic toxicity. Moreover,
targeting via NPs will improve the pharmacokinetic properties and increase the relatively short half-life (~18 hours) of Se.
Status
CLOSEDCall topic
MSCA-RISE-2017Update Date
28-04-2024
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