When we think of bone, we should remember that its architecture is not fixed, but it is the result of a dynamic balance between bone resorption and deposition. This process takes place through a perfectly orchestrated coupling of two types of cells: osteoblasts (Ob), responsible for bone deposition and osteoclasts (Oc), responsible for bone resorption. When there is an uncoupling in the cooperative action of these two cell types, bone becomes more porous (osteoporosis means literally porous bone) and there is an increased fracture risk. Osteoporosis (OP) is a worldwide disease, defined in 2001 as “a skeletal disorder characterised by compromised bone strength predisposing a person to an increased risk of fracture” by the National Institutes of Health. Till the beginning of the new millennium this epidemic, progressive disease has been under diagnosed and underestimated until a call for action was launched in 2001 by the International Osteoporosis Foundation (IOF) to be active on policy issues focused on preventing and managing this bone-fragility disease. Nowadays, in the EU, one of us experiences an osteoporotic fracture every 30 seconds and with the current demographic shift the incidence is expected to double in few decades. OP has been for long time identified as a women-only disease and still is by the lay public, but recent data shows that it affects 1 out of 2-3 women and 1 out of 5 men above fifty years, and that the prognosis for men is often significantly worse. Approximatively 22 million women and 5.5 million men aged between 50-84 years are estimated to be affected by OP in the EU . Fighting OP and developing ad hoc medical devices and approaches to treat osteoporotic fractures and to support bone regeneration in a diseased environment are strategic goals of the next decade and should become a worldwide priority for governments.
The main objective of the GIOTTO project is to face this osseous, degenerative pathology through a dedicated, precise and personalised approach.
OP can lead to different types of fractures located in dissimilar body parts and thus the main project objective have targeted the development of three different medical devices designed to treat specific osteoporotic fractures through a synergistic convergence of smart nanomaterials, 3D fabrication technologies and targeted cell activation. The overall objective of GIOTTO is then to implement solutions and tools to enhance active ageing thereby mitigating the economic burden to health systems and bringing within grasp benefits for the elderly.