When interfaced with the biological environment, biomedical devices are prone to surface
biofouling due to adhesion of microbial or thrombotic agents as a result of the foreign body …

The main objective of tissue engineering (TE) is to develop biological substitutes that
maintain, improve or restore tissue functions. Scaffolds are of great significance for TE …

Deposition of bioactive and degradable coatings on titanium implants before implantation is
objectively to create a biologically-inspired surface that can enhance cell anchorage at the …

Biomaterials are synthetic compounds and composites that replace or assist missing or
damaged tissue or organs. This review paper addresses Ca phosphate biomaterials that are …

A porous material has been produced by pressing spongy titanium granules with
subsequent vacuum sintering. The material with porosity of more than 30% has an open …

Bone scaffolds must fulfil numerous and sometimes contradictory characteristics:
biocompatibility, bioactivity, high porosity, and appropriate mechanical strength. To tackle …

Abstract Structure of hydroxyapatite (HAP) is more flexible towards ionic substitutions.
Properties such as solubility, antimicrobial property can be tailored by substitutions …

Bone defects caused by aging populations and accidental injuries have a significant impact
on human life, making bone repair and regeneration a research hotspot. The piezoelectric …

Names: Sultana, Naznin, editor.| Bandyopadhyay-Ghosh, Sanchita, 1971-editor.| Soon, Chin
Fhong, 1974-editor. Title: Tissue engineering strategies for organ regeneration/editors …

The porous titanium implants were introduced into the condyles of tibias and femurs of
sheep. New bone tissue fills the pore, and the porous titanium–new bone tissue composite …