2020.03.17 15:33 After a common expression of willingness to cooperate and legal establishment of V4G4 Centre of Excellence Association, VINCO project represents the next stage of capacity building in nuclear technologies in Central European countries.
2018.03.27 9:49 The mission of C-BORD is to develop and test a comprehensive cost-effective TRL-7 solution for the generalised inspection of container and large-volume freight in order to protect EU borders, coping with a large range of container non-intrusive inspection (NII) targets, including explosives, chemical warfare agents, illicit drugs, tobacco, stowaways and Special Nuclear Material (SNM).
MultiSom - Multivariate formulations of DOTATATE peptide as a precursor for the preparation of radiopharmaceuticals
2018.01.05 11:33 Synthetic analogues of somatostatin, the regulatory peptide responsible for important functions of human body, are widely used in medicine. In addition, the radiolabelled octa-peptide analogues add to the diagnostic and therapeutic applications available for treatment of patients suffering from neuroendocrine tumors expressing somatostatin receptors with high density.
2015.08.19 14:04 Project financial means will be used to create in Świerk a world-class centre to conduct high-quality research, outcomes of which will be applicable in science, industry, and medicine. The initiative is going not only to increase potential of NCBJ Research Centre, but will also streamline transfer of innovations by improving the coupling between the Polish science and economy.
2015.08.19 9:08 Development of dedicated systems based on particle accelerators and detectors of ionizing radiation targeted at medical therapy and detection of hazardous materials and toxic wastes. Project objective is to improve innovativeness and competitive edge of the Polish R&D sectors involved in manufacture of such systems.
2015.08.18 14:11 Objective of the "Biologically Weighted Quantities in Radiotherapy" (JRP SIB06 BioQuaRT) project accomplished within the European Metrology Research Programme (EURAMET) framework is to develop measurement/simulation techniques capable to determine physical aspects of interaction of ionizing particles with matter along their paths and to investigate correlations between those aspects and biologiczal effects of the ionization at the living cell level. The project is concentrated on distances between 2 nm (DNA helix diameter) and 10 μm (cell nuclei size).