The current development of microfluidics-based microphysiological systems (MPSs) will
rapidly lead to a paradigm shift from traditional static 2-dimensional cell cultivation towards …

Regenerative endodontic procedures have been rapidly evolving over the past two decades
and are employed extensively in clinical endodontics. These procedures have been …

Gingival crevice and gingival crevicular fluid (GCF) flow play a crucial role at the gingiva‐
oral microbiome interface which contributes toward maintaining the balance between …

Vascularization of thick hydrogel scaffolds is still a big challenge, because the submicron-or
nano-sized pores seriously restrict endothelial cells adhesion, proliferation and migration …

Successful integration of cell‐laden tissue constructs with host vasculature depends on the
presence of functional capillaries to provide oxygen and nutrients to the embedded cells …

A comprehensive understanding of the complex physiological and pathological processes
associated with alveolar bones, their responses to different therapeutics strategies, and cell …

The quest for finding a suitable scaffold system that supports cell survival and function and,
ultimately, the regeneration of the pulp–dentin complex remains challenging. Herein, we …

One of the difficulties of pulp regeneration is the rapid vascularization of transplanted
engineered tissue, which is crucial for the initial survival of the graft and subsequent pulp …

Abstract Aim Three-dimensional (3D) cell culture systems perform better in resembling
tissue or organism structures compared with traditional 2D models. Organs-on-chips (OoCs) …

A novel microfluidic channel device with programmable in situ formation of a hydrogel 3D
network was designed. A biocompatible hybrid material consisting of iron ion-crosslinked …