Abstract
The vitality of the pulp is fundamental to the functional life of the tooth. For this aim, active and living biomaterials are required to avoid the current drastic treatment, which is the removal of all the cellular and molecular content regardless of its regenerative potential. The regeneration of the pulp tissue is the dream of many generations of dental surgeons and will revolutionize clinical practices. Recently, the potential of the regenerative medicine field suggests that it would be possible to achieve such complex regeneration. Indeed, three crucial steps are needed: the control of infection and inflammation and the regeneration of lost pulp tissues. For regenerative medicine, in particular for dental pulp regeneration, the use of nano-structured biomaterials becomes decisive. Nano-designed materials allow the concentration of many different functions in a small volume, the increase in the quality of targeting, as well as the control of cost and delivery of active molecules. Nanomaterials based on extracellular mimetic nanostructure and functionalized with multi-active therapeutics appear essential to reverse infection and inflammation and concomitantly to orchestrate pulp cell colonization and differentiation. This novel generation of nanomaterials seems very promising to meet the challenge of the complex dental pulp regeneration.
Highlights
The dental pulp located in the heart of the tooth (endodontic area) allows its vitality
The dental pulp located in the heart of the tooth allows its vitality
An injectable and light-curing drug delivery vehicle of Poly (Ethylene Glycol) Maleate Citrate (PEGMC) hydrogel was proposed for direct pulp capping and showed promising results with a proper cell viability and control of the calcium hydroxide incorporated [46]
Summary
The dental pulp located in the heart of the tooth (endodontic area) allows its vitality. TThhee SSCCAAPP sshhoowwiinngg ccaappaacciittyy ffoorr ddeennttiinn rreeggeenneerraattiioonn aanndd ffoorr tthhee eexxpprreessssiioonn ooff nneeuurrooggeenniicc mmaarrkkeerrss ccaann pprroodduuccee vvaassccuullaarriizzeedd ppuullpp-‐lliikkee ttiissssuuee iinn vviivvoo iinn rroooott ccaannaallss [[1166,,2222,,2233]].. After a root revascularization of immatur7e46te3eth, the SCAP may be responsible for the root edification and the more fragile DPSC remaining may contribute to pulp regeneration and differentiation into odontoblasts‐like cells [25].
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