Recent advances in additive manufacturing (AM) techniques in terms of accuracy, reliability,
the range of processable materials, and commercial availability have made them promising …

The latest and fastest-growing innovation in the medical field has been the advent of three-
dimensional printing technologies, which have recently seen applications in the production …

Porous design of orthopaedic implants affords the advantages of minimizing stress shielding
and improving the osseointegration and long-term stability. However, the marked error in the …

Tissue scaffolds provide structural support while facilitating tissue growth, but are
challenging to design due to diverse property trade-offs. Here, a computational approach …

In this study, the mechanical properties of porous glass–ceramic scaffolds are investigated
by means of three-dimensional finite element models based on micro-computed tomography …

One of the key challenges in porous scaffold design is to create a porous structure with
desired mechanical function and mass transport properties which support delivery of …

Abstract Structure of tissue scaffold plays a critical role in guiding and supporting cell
proliferation and differentiation. One widely accepted way to create a desirable …

We present a new approach to designing three-dimensional, physically realizable porous
femoral implants with spatially varying microstructures and effective material properties. We …

Advances in additive manufacturing are enabling the fabrication of lattices with complex
geometries that are potentially advantageous as tissue scaffolds. Scaffold design for …

Mesoscale lattice structures with different desired physical properties are promising for a
broad spectrum of applications. However, intricate geometric features of these structures are …