Additive manufacturing (AM) has emerged as a promising technique for fabricating
customized tissue engineering scaffolds and implants. The scaffolds not only act as …

Abstract 3D printing technology provides a platform to fabricate a wide range of structures
and complex geometry-based scaffolds through computer-aided design (CAD). This study …

Porous scaffolds as succedaneum of natural bone were investigated and applied in medical
field. In this work, we carried out studies on mechanical properties of solid parts and porous …

Titanium is a most common and best biocompatible material. The demand and application of
Ti alloy is increasing rapidly in orthopedics for clinical operations. The porous structures …

Three dimensional scaffolds with controlled pore architecture were prepared from 45S5
Bioglass® powders by robocasting (direct-writing) using carboxymethyl cellulose (CMC) as …

The diversity of phyllotaxis, such as different blade intervals and divergence angles, is the
optimal design for matter exchange and information transfer between plants and external …

This research introduced a new poly-ether-ether-ketone calcium hydroxyapatite (PEEK-
cHAp) composite for a convenient, fast, and inexpensive femur bone-implant scaffold with …

Clinicians should be aware of the main methods and materials to face the challenge of bone
shortage by manufacturing customized grafts, in order to repair defects. This study aims to …

The scaffolds of bone tissue engineering (BTE) are designed with complex interconnected
pores for providing mechanical support, cell attachment and nutrition delivery, and can be …

Trauma and bone loss from infections, tumors, and congenital diseases make bone repair
and regeneration the greatest challenges in orthopedic, craniofacial, and plastic surgeries …