The spreading of one embryonic tissue over another, the sorting out of their cells when
intermixed and the formation of intertissue boundaries respected by the motile border cells …

In recent years, the tissue engineering paradigm has shifted to include a new and growing
subfield of scaffoldless techniques that generate self-organizing and self-assembling …

This course shows the ways that 3D printing and 3D bioprinting are revolutionizing the
available treatments available for medical needs. 3D bioprinting requires collaboration …

Despite many advances in cancer treatment, cancer still remains a major global health
problem owing to its high rate of recurrence, the tendency to metastasize, and the …

Morphogenesis implies the controlled spatial organization of cells that gives rise to tissues
and organs in early embryonic development. While morphogenesis is under strict genetic …

In multicellular organisms, relations among parts and between parts and the whole are
contextual and interdependent. These organisms and their cells are ontogenetically linked …

Ubiquitous in embryonic development, tissue fusion is of interest to tissue engineers who
use tissue spheroids or organoids as building blocks of three-dimensional (3D) multicellular …

A mathematical model based on the phase field formulation is developed to study fusion of
cellular aggregates/clusters. In a novel biofabrication process known as bioprinting (Mironov …

We employ a three-dimensional (3D) lattice model based on the kinetic Monte Carlo (KMC)
method to study cell self-assembly and cellular aggregate fusion of multicellular aggregate …

An emerging approach in biofabrication is the creation of 3D tissue constructs through
scaffold-free, cell spheroid-only methods. The basic mechanism in this technology is …