Cell biology is on the verge of a nanotechnology-driven research era, in which the availability of sophisticated new experimental techniques and nanotechnology-based tools will allow researchers to not only simulate more complex, in vivo-like extracellular environments, but also to monitor dynamic complex biological processes in real time at the single cell level. Nanotechnology and its tools and approaches have recently sparked a surge in research on engineered cell-material interactions. Nanotechnology is gaining traction in the medical field, with applications in imaging and direct therapy. Because of the risks inherent with nanotechnology, researchers and scientists are working to find safe methods for studying cellular functioning and treating anomalies, so that even the smallest biological systems can be better understood.
Title : Electroactive polymer-based smart scaffolds for tissue engineering and regenerative medicine
Federico Carpi, University of Florence, Italy
Title : Liver cell therapies: From hepatocyte transplant to placental stem cell infusion
Roberto Gramignoli, Karolinska Institutet, Sweden
Title : The common cure for all cancers- clue from cancer stem cells
Pushpam Kumar Sinha, Independent Researcher, India
Title : Stem cell therapy in radiotherapy from bench to clinical trial evaluating the efficacy of mesenchymal stromal cell injections for the treatment of chronic pelvic complications induced by radiation therapy
Alain chapel, Institute of Radiological Protection and Nuclear Safety, France
Title : Stem cell-induced proliferation on the hippocampus after intranasal administration of Galanin receptor 2 and neuropeptide Y1 receptor agonists: Role in spatial memory and depression-like effects in rats
Manuel Narvaez Pelaez, Malaga University, Spain
Title : Msc-exosomes in osteoarthritis treatment
Neus Figa Martin, Clínica Exolife, Spain