Tissue engineering is essentially a technique for imitating nature. Natural tissues consist of
three components: cells, signalling systems (eg growth factors) and extracellular matrix …

The state-of-the-art on calcium orthophosphate (CaPO4)-containing biocomposites and
hybrid biomaterials suitable for biomedical applications is presented. Since these types of …

The state-of-the-art of biocomposites and hybrid biomaterials based on calcium
orthophosphates that are suitable for biomedical applications is presented in this review …

Due to a great chemical similarity with the biological calcified tissues, many calcium
orthophosphates possess remarkable biocompatibility and bioactivity. Materials scientists …

In this study, a science based approach is taken to monitor the variation of the properties,
bioactivity and hydrogel formation behavior of gelatin upon functionalization with Ureido …

Owing to its biocompatibility and corrosion resistance, titanium is one of the most commonly
used implantable biomaterials. Numerous in vitro and in vivo investigations have …

Biopolymer-based injectable hydrogels provide great potential as bone tissue engineering
(BTE) scaffolds on account of biocompatibility, and pore interconnectivity that enables …

Material surfaces that provide biomimetic cues, such as nanoscale architectures, have been
shown to alter cell/biomaterial interactions. Recent studies have identified titania nanotube …

In order to prepare bone tissue engineered scaffolds, zein, a natural polymer isolated from
corn, was used as a starting material. Zein provides ideal properties for tissue engineered …

Although bone has a high potential to regenerate itself after damage and injury, the
efficacious repair of large bone defects resulting from resection, trauma or non‐union …