Projects

IMPROVE – “Development of robot assisted minimally-invasive treatment methods through brachytherapy and target delivered drugs for non-resecable liver tumours”, PN-III-P1-1.2-PCCDI-2017-0221/59PCCDI/2018 (2018 – 2020);

STEMREG – “Hybrid composite grafts obtained through Tissue Engineering and stem cells with application in Regenerative Medicine”, PN II Partnerships (2012 – 2016);

BIOMAPIM – “New biocompatible materials manufactured through SLS and SLM”, PN II Complex Ideas (2010 – 2013); 

BIOINTECH – “Application of Tissue Engineering innovative methods in the pathology of digestive tube – multidisciplinary approach”, PN II, Partnerships (2008 – 2011;

“Neutron Reflectivity Study of the Response of Membrane Proteins in Model Bilayers to AC Fields”, ISIS Beamtime Application RB720167, 2007, U.K. 

“Composite biomaterials for radiotherapy and simultaneous hyperthermia”, CEEX 100/2006;

“Innovative methods in the reconstructive surgery of cancer patient – composite tissue grafting and employment of biocompatible synthetic materials”, CEEX 109/ 2006;

“Optimization of the management for the polytraumatised patient through therapeutic protocols of miniinvasive methods and through the use of biocompatible materials in the reconstruction of tissue or organ post-traumatic defects”, CEEX 145/ 2006;

“Functionalized conjugated polymers – based nanostructures and related nanocomposites”, CEEX 12/ 2005;

“Microfluidics with Electrode Integration for Blood Cells Dynamic Studies”, EPSRC Grant IRC A1 B3R (IRC, Queen Mary, University of London), 2005;

“Porous nanocrystalline silicon – polypyrole multi-layered materials destined to the selective dielectrophoresis  of blood cells”, Matnantech 208(403)/2004;

“Functionally graded biomaterials, biomimetically structured, destined to personalised endosseous implants”, Matnantech 163(303)/2003;