Combining cells, biomaterials and bioactive factors with biophysical cues to engineer cell
and tissue constructs can address various applications, such as regenerative and …

In vitro 3D models are advanced biological tools that have been established to overcome
the shortcomings of oversimplified 2D cultures and mouse models. Various in vitro 3D …

Acoustofluidics offers contact-free manipulation of particles and fluids, enabling their uses in
various life sciences, such as for biological and medical applications. Recently, there have …

Microfluidics, with its remarkable capacity to manipulate fluids and droplets at the
microscale, has emerged as a powerful platform in numerous fields. In contrast to …

Urologic diseases are commonly diagnosed health problems affecting people around the
world. More than 26 million people suffer from urologic diseases and the annual expenditure …

Basic and clinical cancer research requires tumor models that consistently recapitulate the
characteristics of prima tumors. As ex vivo 3D cultures of patient tumor cells, patient‐derived …

Three-dimensional (3D) cell culture has revolutionized life sciences, particularly in organoid
technologies. Traditional bioscaffold materials, however, complicate the detachment of …

Organoids present substantial potential for pushing forward preclinical research and
personalized medicine by accurately recapitulating tissue and tumor heterogeneity in vitro …

An accumulation of previous work has established organoids as good preclinical models of
human tumors, facilitating translation from basic research to clinical practice. They are …