Background/purpose Tissue engineering in dentistry has fundamentally changed the way
endodontists assess treatment options. Our previous study found that quercetin-contained …

Introduction Calcium silicate bioceramics have been broadly used as reparative or grafting
materials with good bioactivity and biocompatibility in dental application. It has been shown …

Background/purpose Several growth factors were proven to be effective in the treatment of
bone defects and fractures and thus have great potential for bone regeneration applications …

Introduction The aim of this study was to investigate whether the mineral trioxide aggregate/
polycaprolactone (MTA/PCL) hybrid 3-dimensional (3D) scaffold supplies a suitable …

Abstract Development of 3D porous scaffolds with proper mechanical strength is crucial in
bone tissue engineering. In this study, calcium sulfate hemihydrate (CSH) cement was …

Structured Abstract Objective The pore size of the scaffold is a critical factor in repairing
large bone defect. Here, we investigated the potential of bone regeneration using novel …

The underlying dentin could be exposed to a humid atmosphere filled with bacteria if the
covering enamel layer is broken because of external chemical and physical conditions …

Background/Purpose The mesoporous calcium silicate (MesoCS) 3D-printed scaffold show
excellent bioactivity and can enhance the bone-like apatite formation. The purpose of this …

The present study evaluated the odontogenic potential of human dental pulp cells (HDPCs)
exposed to chitosan scaffolds containing calcium aluminate (CHAlCa) associated or not with …

Introduction Calcium silicate (CS)–based materials play an important role in the
development of endodontic materials that induce bone/cementum tissue regeneration and …