Title : Identifying the function of nanoparticles in stem cell differentiation
Abstract:
New doors have been opened in the fields of regenerative medicine and tissue engineering because of recent developments in nanotechnology and the applications of this technology. It is a relatively new field that has the potential to improve the therapies and differentiation of stem cells. According to the findings of several research, these nanomaterials can simulate the physiological niche that is necessary for the proliferation and differentiation of stem cells. However, in the field of regenerative medicine, carbon-based nanoparticles have been found to offer enormous promise in comparison to the other nanomaterials that have been discovered to this day. The majority of the research that has been done up until this point has mostly been on tracking and visualising stem cells utilising nanomaterials. However, the relationship between these cells and stem cells, as well as the potential associated with directing molecular signals for differentiation, is not investigated very thoroughly. In addition, research that is specifically geared toward identifying an optimum CNM source and formulation, such as quantum dots or scaffolds, that can offer cues for stem cell and their lineage development is not known to exist. Consequently, I will try to explain some of these well-known CNM sources and how they might be used in regenerative medicine.
