 Metal scaffolds made from biodegradable materials offer great promise for use in hard tissue regeneration due to their excellent mechanical properties and ability to degrade over time. These scaffolds can be designed using computational methods to optimize pore size and topology, allowing for better control of the rate at which they degrade. This technology has the potential to revolutionize the field of tissue engineering by providing a more effective way to repair damaged tissues and organs. This article was authored by A. H. Uzop, A. Abaki, N. A. Shaharam and others.