Additive manufacturing (AM) technology has revolutionized the way goods are developed
and produced, with numerous uses in aerospace, automotive, medical, and consumer …

Drug evaluation has always been an important area of research in the pharmaceutical
industry. However, animal welfare protection and other shortcomings of traditional drug …

Abstract The three‐dimensional (3D) multicellular platforms prepared by cells or
biomaterials have been widely applied in biomedical fields for the regeneration of complex …

Nanotechnology‐based approaches are promising for the treatment of musculoskeletal
(MSK) disorders, which present significant clinical burdens and challenges, but their clinical …

Organ-on-a-Chip (OOC) technology, which emulates the physiological environment and
functionality of human organs on a microfluidic chip, is undergoing significant technological …

The integration of tumor-on-a-chip technology with mini-tissues or organoids has emerged
as a powerful approach in cancer research and drug development. This review provides an …

Biomaterials are extensively used to mimic cell–matrix interactions, which are essential for
cell growth, function, and differentiation. This is particularly relevant when develo** in vitro …

Globally, the number of cancer cases is rising, with no difference between rich and
undeveloped countries. Although affluent nations have made great improvements in the …

Chaotic (bio) printing, an innovative fabrication technique that uses chaotic flows to create
highly ordered microstructures within materials, may be transformative for drug delivery …

Recently, the conventional criterion of “one-size-fits-all” is not qualified for each individual
patient, requiring precision medicine for enhanced therapeutic effects. Besides, drug …