Collagen mineralization is a biological process in many skeletal elements in the animal
kingdom. Examples of these collagen‐based skeletons are the siliceous spicules of glass …

Collagen, gelatin, silk fibroin, hyaluronic acid, chitosan, alginate, and cellulose are
biocompatible and non-cytotoxic, being attractive natural polymers for medical devices for …

Current approaches to fabrication of nSC composites for bone tissue engineering (BTE)
have limited capacity to achieve uniform surface functionalization while replicating the …

Natural biomaterials are extensively used in tissue engineering due to their microstructure
interconnectivity and inherent bioactivity which mimics of natural extracellular matrix (ECM) …

Porous scaffolds were engineered from refibrillized collagen of the jellyfish Rhopilema
esculentum for potential application in cartilage regeneration. The influence of collagen …

Collagen (Col) hydrogels have poor physicochemical and mechanical properties and are
susceptible to substantial shrinkage during cell culture, which limits their potential …

The reconstruction of a large bone defect to an extent that exceeds its self-healing capacity
has been a great clinical challenge. In pursuit of this goal, a biomaterial-based scaffold that …

Hydrogels are known as polymer-based networks with the ability to absorb water and other
body fluids. Because of this, the hydrogels are used to preserve drugs, proteins, nutrients or …

Collagen (COL), the most abundant protein in mammals, offers a wide range of attractive
properties for biomedical applications which are the result of its biocompatibility and high …

Biomimetic mineralization of collagen is an advantageous method to obtain resorbable
collagen/hydroxy-apatite composites for application in bone regeneration. In this report …