In bone tissue engineering, the development of advanced biomimetic scaffolds has led to
the quest for biomotifs in scaffold design that better recreate the bone matrix structure and …

Silk fibroin is a potent alternative to other biodegradable biopolymers for bone tissue
engineering (TE), because of its tunable architecture and mechanical properties, and its …

There are many challenges in the development of 3D-tissue models for studying bone
physiology and disease. Silk fibroin (SF), a natural fibrous protein used in biomedical …

An intensive idea of bone tissue engineering is to design regenerative nanofibrous scaffolds
that could afford a natural extracellular matrix (ECM) microenvironment with the ability to …

Recently, stem cell-based bone tissue engineering (BTE) has been recognized as a
preferable and clinically significant strategy for bone repair. In this study, a pure 3D silk …

Chopped fiber (CF)-and nano-hydroxyapatite (n-HA)-enhanced silk fibroin (SF) porous
hybrid scaffolds (SHCF) were prepared by freeze-drying for bone augmentation. Compared …

In recent years the potential application of nanocomposite biomaterials in tissue engineering
field is gaining importance because of the combined features of all the individual …

We introduce a novel Bombyx mori silk‐based composite material developed for bone tissue
engineering. Three‐dimensional scaffolds were fabricated by embedding of natural …

In bone tissue engineering, a qualified scaffold should provide a three‐dimensional porous
structure mimicking the extracellular matrix of bone except good biological properties. In this …

The osteochondral healthcare market is driven by the increasing demand for affordable and
biomimetic scaffolds. To meet this demand, silk fibroin (SF) from Bombyx mori and …