Topography, among other physical factors such as substrate stiffness and extracellular
forces, is known to have a great influence on cell behaviours. Optimization of topographical …

Nanoimprint lithography (NIL), a molding process, can replicate features< 10 nm over large
areas with long-range order. We describe the early development and fundamental principles …

Organ-on-a-chip (OOC) systems are engineered nanobiosystems to mimic the
physiochemical environment of a specific organ in the body. Among various components of …

Bone tissue engineering uses the principles and methods of engineering and life sciences
to study bone structure, function and growth mechanism for the purposes of repairing …

Biofilm-associated diseases are one of the main causes of implant failure. Currently, the
development of implant surface treatment goes beyond the osseointegration process and …

Functional and perfusable vascular network formation is critical to ensure the long-term
survival and functionality of engineered tissues after their transplantation. Although several …

One of the goals of biomaterials science is to reverse engineer aspects of human and non-
human physiology. Similar to the body's regulatory mechanisms, such devices must …

The blood clotting protein fibrin contains cell-binding domains, providing potential
advantage for the fabrication of tissue repair scaffolds and for live cell encapsulation …

Abstract Design and fabrication of scaffolds with three-dimensional (3D) topological cues
inducing regeneration of the neo-tissue comparable to native one remains a major …

Material engineering methods have been used for many years to develop biomedical
devices for use within the body to augment, repair or replace damaged tissues ranging from …