Despite bone's innate self-renewal capability, some periodontal pathologic and traumatic
defects' size inhibits full spontaneous regeneration. This current research characterized a …

Hybrid scaffolds composed of hydroxyapatite (HAp), in particular in its nanometric form (n‐
HAp), and chitosan (CS) are promising materials for non‐load‐bearing bone graft …

Periodontal bone defect is a common but longstanding healthcare issue since traditional
bone grafts have limited functionalities in regulating complex intraoral microenvironments …

Calcium phosphate-based nanocomposites offer a unique solution toward producing
scaffolds for orthopedic and dental implants. However, despite attractive bioactivity and …

The development of suitable three-dimensional scaffold for the maintenance of cellular
viability and differentiation is critical for applications in periodontal tissue engineering. In this …

Tissue engineering technology provides a new method for periodontal regeneration. Finding
or preparing a suitable scaffold is the key to periodontal tissue engineering. Here, we use …

In this study, chitosan‐nanohydroxyapatite composite scaffolds were prepared by a
supercritical fluid assisted process. For this purpose, different amounts of …

Periodontal tissue regeneration is a major challenge in tissue engineering due to its
regenerated environment complexity. It aims to regenerate not only the supporting alveolar …

A novel approach to the fabrication of porous scaffolds with surface-immobilized nano-
hydroxyapatite (N-HAp) is developed for effective bone tissue engineering. The discrete …

Strategic bone grafts are required to regenerate periodontal bone defects owing to limited
self-healing. Current bioceramic particle or deproteinized bovine bone (DBB) products are …