Nano-hydroxyapatite (n-HAp) is similar to human bone mineral in structure and biochemistry
and is, therefore, widely used as bone biomaterial and a drug carrier. Further, n-HAp …

Life expectancy has been growing, and more people are developing bone diseases such as
arthritis and osteoporosis. Degenerative pathologies, injuries, and trauma can damage the …

The skeleton is a highly innervated organ in which nerve fibers interact with various skeletal
cells. Peripheral nerve endings release neurogenic factors and sense skeletal signals …

The growing need for treatment of the impaired bone tissue has resulted in the quest for the
improvement of bone tissue regeneration strategies. Bone tissue engineering is trying to …

This review article addresses the various aspects of nano-biomaterials used in or being
pursued for the purpose of promoting bone regeneration. In the last decade, significant …

In situ tissue engineering is a powerful strategy for the treatment of bone defects. It could
overcome the limitations of traditional bone tissue engineering, which typically involves …

Bone defects caused by various factors may cause morphological and functional disorders
that can seriously affect patient's quality of life. Autologous bone grafting is morbid, involves …

Abstract 3D-printed templates are being used for bone tissue regeneration (BTR) as
temporary guides. In the current review, we analyze the factors considered in producing …

Objectives Guided bone/tissue regeneration (GBR/GTR) procedures are necessary to
improve conditions for implant placement. These techniques in turn can be enhanced by …

Developing multi-doped bioceramics that possess biological multifunctionality is becoming
increasingly attractive and promising for bone tissue engineering. In this view innovative Sr …