The design and fabrication of tissue engineering scaffolds is a highly complex process. In
order to provide a proper architecture for cells to grow, proliferate, and differentiate to form …

The trend of growth and aging of population worldwide will pose new challenges in health
care, which will require faster solutions addressed to specific pacient needs. In this regard …

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

Bio-scaffolds are synthetic entities widely employed in bone and soft-tissue regeneration
applications. These bio-scaffolds are applied to the defect site to provide support and favor …

Traditional metallic scaffold prostheses, as vastly applied implants in clinical orthopedic
operations, have achieved great success in rebuilding limb function. However, mismatch of …

Porosity parameters are one of the structural properties of the extracellular
microenvironment that have been shown to have a great impact on the cellular phenotype …

Additive manufacturing (AM) is a rapidly emerging technology that has the potential to
produce personalized scaffolds for tissue engineering applications with unprecedented …

Regenerative medicine is continuously facing new challenges and it is searching for new
biocompatible, green/natural polymer materials, possibly biodegradable and non …

Background Tissue engineering and regenerative medicine (TERM) aim to repair or replace
damaged or lost tissues or organs due to accidents, diseases, or aging, by applying different …

Virtual prototyping combined with additive manufacturing technologies are opening new
horizons in healthcare and biomimetic medical device personalisation is becoming feasible …