Two-dimensional and three-dimensional cell culture systems are widely used for biological
studies, and are the basis of the organoid, tissue engineering and organ-on-chip research …

The mechanical properties of bone are fundamental to the ability of our skeletons to support
movement and to provide protection to our vital organs. As such, deterioration in mechanical …

Repair of bone defects is a time-consuming, self-healing process based on tissue modeling
and remodeling. However, the capacity of this method is limited, especially for critical-sized …

This review summarises current understanding of how bone is sculpted through adaptive
processes, designed to meet the mechanical challenges it faces in everyday life and athletic …

This study describes the effect of sintering temperature on the microstructural,
calcium/phosphorus (Ca/P) ion ratios and mechanical properties of non-separated …

The goal of tissue engineering is to replace or regenerate damaged tissue. Scaffold
fabrications and biomaterial selections are crucial factors for artificial tissue and bone tissue …

Additively manufactured porous metallic structures have recently received great attention for
use in hard tissue applications. In particular, periodic regular porous networks are found to …

In this work, the viability of producing biogenic hydroxyapatite from bio-waste animal bones,
namely bovine (cow), caprine (goat) and galline (chicken), through a heat treatment process …

Lattice structures are increasingly used in biomedical implants, notably intervertebral cages,
requiring a better understanding of their behavior for the different types of loading they …

The progress in additive manufacturing has remarkably increased the application of lattice
materials in the biomedical field for the fabrication of scaffolds used as bone substitutes …