The aim of this study is to fabricate biodegradable PLA-based composite filaments for 3D
printing to manufacture bear-loading lattice structures. First, CaCO3 and TCP as inorganic …

Thin-walled filled tube is a common energy absorbing and buffering structure. In this study,
an octet-truss-filled double tubes structure was presented by filling an octet-truss core into …

In this paper, a topology optimization method is proposed to design bone scaffold structures
that match the anisotropic elasticity tensors of cancellous bone. Grid point density and …

Additive manufacturing of pure copper (Cu) via laser-powder bed fusion (L-PBF) is
challenging due to the low energy absorptivity under infra-red laser. As a result, 3 …

Additive manufacturing (AM) of customized scaffolds has been actively studied in tissue
engineering. Most studies have focused on the functionalization of scaffolds for …

The design and optimization of bone scaffolds are critical for the success of bone tissue
engineering (BTE) applications. This review paper provides a comprehensive analysis of …

In recent years, tissue engineering scaffolds have turned into the preferred option for the
clinical treatment of pathological and traumatic bone defects. In this field, silicate-based …

Bone cortical tissues reorganize and remodel in response to tensile forces acting on them,
while compressive forces cause atrophy. However, implants support most of the payload …

Bone microstructures or scaffolds mimicking natural bone characteristics find widespread
applications in bone tissue engineering (BTE). To accurately replicate a personalized bone …

Additive manufacturing for fabrication of patient-specific oral and maxillofacial implants
enables optimal fitting, significantly reducing surgery time and subsequent costs. However, it …