Population ageing and various diseases have increased the demand for bone grafts in
recent decades. Bone tissue engineering (BTE) using a three-dimensional (3D) scaffold …

Nowadays, immunotherapy is one of the most essential treatments for various diseases and
a broad spectrum of disorders are assumed to be treated by altering the function of the …

The mechanical and biological properties of polylactic acid (PLA) need to be further
improved in order to be used for bone tissue engineering (BTE). Utilizing a material …

Nano-sized ceramic particles are beneficial for the properties of 3D printed structures via
digital light processing (DLP). However, achieving optimal conditions for the preparation and …

Polymer-based composite scaffolds are an attractive class of biomaterials due to their
suitable physical and mechanical performance as well as appropriate biological properties …

The inclusion of small amounts of copper is often reported to enhance the mechanical and
biointegrative performance of bioceramics towards tissue engineering applications. In this …

Abstract The Direct Ink Writing (DIW) technique stands out due to its fast processing, low
amounts of additives demanded for the ink's preparation and, consequently, the relatively …

The principal purpose of tissue engineering is to stimulate the injured or unhealthy tissues to
revive their primary function through the simultaneous use of chemical agents, cells, and …

Effective scaffolds for bone-tissue-engineering are those that combine adequate mechanical
and chemical performance with osseointegrative, angiogenetic and anti-bacterial modes of …

The use of porous scaffolds with appropriate mechanical and biological features for the host
tissue is one of the challenges in repairing critical-size bone defects. With today's three …