Organoids—cellular aggregates derived from stem or progenitor cells that recapitulate organ
function in miniature—are of growing interest in developmental biology and medicine …

Albumin, the most abundant plasma protein in mammals, is a versatile and easily obtainable
biomaterial. It is pH and temperature responsive, dissolvable in high concentrations and …

Fabrication of well-ordered and bio-mimetic scaffolds is one of the most important research
lines in tissue engineering. Different techniques have been utilized to achieve this goal …

Tissue engineering is a derivative of biomedical engineering, which deals with the repair
and regeneration of organs or their tissues. Cell-embedded porous polymeric scaffolds …

Generation of human organoids from induced pluripotent stem cells (iPSCs) offers exciting
possibilities for developmental biology, disease modelling and cell therapy. Significant …

The development of multifunctional 3D printing materials from sustainable natural resources
is a high priority in additive manufacturing. Using an eco‐friendly method to transform hard …

Poly (ethylene glycol) diacrylate (PEGDA) microgels with tuneable size and porosity find
applications as extracellular matrix mimics for tissue-engineering scaffolds, biosensors, and …

Albumin-based hydrogels are increasingly attractive in tissue engineering because they
provide a xeno-free, biocompatible and potentially patient-specific platform for tissue …

Background Naïve decellularized liver scaffold (nDLS)-based tissue engineering has been
impaired by the lack of a suitable extracellular matrix (ECM) to provide “active micro …

Inverted colloidal crystal (ICC) hydrogel scaffolds represent unique opportunities in
modeling lymphoid tissues and expanding hematopoietic‐lymphoid cells. Fully …