RESUMO
Peripheral nerve injury involves complex molecular, cellular, and genetic events that help in ultimate regeneration of nerve. Some key factors are upregulated and some downregulated in the process of regeneration of nerve to attain almost perfect architecture. This review renders short overview about how the injured neurons and supporting cells like Schwann cells help in creating ample microenvironment for regeneration of peripheral nerve and their maturation.
RESUMO
Preserving the natural dentition in its normal form and function is one of the major goals of endodontic treatment. Re-establishing the lost vitality and development of root maturation in immature permanent teeth with pulp necrosis/apical periodontitis is quiet challenging clinically. The very basis of regenerative endodontics relies on the concept of tissue engineering using stem cells, biomimetic scaffold, and bioactive growth factors to regenerate the pulp tissue damaged by microbial infection, injury, or developmental defects. In clinical endodontics, this approach is referred to as a "paradigm shift." Even though repair instead of true regeneration is achieved with current protocols, it is hoped that further research in the area of stem-cell-based tissue engineering will allow for true regeneration and improved treatment outcomes. The aim of this review is to discuss about the various aspects of regenerative endodontics, current clinical protocols, and the future of pulp regeneration techniques.