Summary
A major drawback of Photodynamic Therapy (PDT) and other therapies for cancer treatment is the limited oxygen content, hypoxia, in tumour tissue. In PDT a photosensitizing molecule is delivered to malignant tissue to generate radical oxygen species (ROS). The presence of oxygen is fundamental for ROS generation, ultimately causing the death of tumour cells.
This project aims to develop hemoglobin drug delivery nanocarriers in the nano and submicron range for simultaneous oxygen and photosensitizer delivery to tumour tissue for a more efficient Photodynamic Therapy.
Hemoglobin-based nanocarriers (HOBCs) will be prepared by co-precipitation of hemoglobin with carbonates and surface coating with bovine serum albumin. The carriers will transport oxygen complexed to hemoglobin while photosensitizer molecules will be entrapped in the core. Carriers will be modified with homing peptides to target them to cancer cells. In vitro studies will be conducted to study the uptake of HOBCs by cells, their intracellular fate, toxicity, and oxygen and photosensitizer delivery. In vivo fate of carriers will be studied in mice with radiolabeled carriers by Positron Emission Tomography and Single Emission Computer Tomography. The efficiency of the HOBCs for oxygen delivery and for PDT will be tested in vitro and in vivo in breast and skin cancer models.
A multidisciplinary team has been gathered with scientists at the forefront of Material Science, Self assembly, Physics, Chemistry, Imaging, Molecular Biology and Cancer Therapy from Germany, Estonia, Spain, Brazil, Argentina and Thailand. The participation of a SME will be fundamental for the future commercialization of project developments. OXIGENATED will actively work towards exchanging skills and knowledge through secondments of Early Stage and Experienced Researchers, and through networking and training activities. Seconded researchers will develop new scientific and complementary skills while exposed to new research environments.
This project aims to develop hemoglobin drug delivery nanocarriers in the nano and submicron range for simultaneous oxygen and photosensitizer delivery to tumour tissue for a more efficient Photodynamic Therapy.
Hemoglobin-based nanocarriers (HOBCs) will be prepared by co-precipitation of hemoglobin with carbonates and surface coating with bovine serum albumin. The carriers will transport oxygen complexed to hemoglobin while photosensitizer molecules will be entrapped in the core. Carriers will be modified with homing peptides to target them to cancer cells. In vitro studies will be conducted to study the uptake of HOBCs by cells, their intracellular fate, toxicity, and oxygen and photosensitizer delivery. In vivo fate of carriers will be studied in mice with radiolabeled carriers by Positron Emission Tomography and Single Emission Computer Tomography. The efficiency of the HOBCs for oxygen delivery and for PDT will be tested in vitro and in vivo in breast and skin cancer models.
A multidisciplinary team has been gathered with scientists at the forefront of Material Science, Self assembly, Physics, Chemistry, Imaging, Molecular Biology and Cancer Therapy from Germany, Estonia, Spain, Brazil, Argentina and Thailand. The participation of a SME will be fundamental for the future commercialization of project developments. OXIGENATED will actively work towards exchanging skills and knowledge through secondments of Early Stage and Experienced Researchers, and through networking and training activities. Seconded researchers will develop new scientific and complementary skills while exposed to new research environments.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/823879 |
| Start date: | 01-03-2019 |
| End date: | 31-08-2024 |
| Total budget - Public funding: | 920 000,00 Euro - 920 000,00 Euro |
Cordis data
Original description
A major drawback of Photodynamic Therapy (PDT) and other therapies for cancer treatment is the limited oxygen content, hypoxia, in tumour tissue. In PDT a photosensitizing molecule is delivered to malignant tissue to generate radical oxygen species (ROS). The presence of oxygen is fundamental for ROS generation, ultimately causing the death of tumour cells.This project aims to develop hemoglobin drug delivery nanocarriers in the nano and submicron range for simultaneous oxygen and photosensitizer delivery to tumour tissue for a more efficient Photodynamic Therapy.
Hemoglobin-based nanocarriers (HOBCs) will be prepared by co-precipitation of hemoglobin with carbonates and surface coating with bovine serum albumin. The carriers will transport oxygen complexed to hemoglobin while photosensitizer molecules will be entrapped in the core. Carriers will be modified with homing peptides to target them to cancer cells. In vitro studies will be conducted to study the uptake of HOBCs by cells, their intracellular fate, toxicity, and oxygen and photosensitizer delivery. In vivo fate of carriers will be studied in mice with radiolabeled carriers by Positron Emission Tomography and Single Emission Computer Tomography. The efficiency of the HOBCs for oxygen delivery and for PDT will be tested in vitro and in vivo in breast and skin cancer models.
A multidisciplinary team has been gathered with scientists at the forefront of Material Science, Self assembly, Physics, Chemistry, Imaging, Molecular Biology and Cancer Therapy from Germany, Estonia, Spain, Brazil, Argentina and Thailand. The participation of a SME will be fundamental for the future commercialization of project developments. OXIGENATED will actively work towards exchanging skills and knowledge through secondments of Early Stage and Experienced Researchers, and through networking and training activities. Seconded researchers will develop new scientific and complementary skills while exposed to new research environments.
Status
SIGNEDCall topic
MSCA-RISE-2018Update Date
28-04-2024
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Organisations
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| ASOCIACION CENTRO DE INVESTIGACION COOPERATIVA EN BIOMATERIALES- CIC biomaGUNE (Coördinator)
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| CHARITE - UNIVERSITAETSMEDIZIN BERLIN
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| CHULALONGKORN UNIVERSITY
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| FUNDACAO UNIVERSIDADE DE BRASILIA
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| Surflay Nanotec GmbH
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| TARTU ULIKOOL
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| UNIVERSIDAD NACIONAL DE GENERAL SAN MARTIN
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| UNIVERSIDAD NACIONAL DEL SUR