Thermoresponsive surfaces, prepared by grafting of poly (N-isopropylacrylamide)(PIPAAm)
or its copolymers, have been investigated for biomedical applications. Thermoresponsive …

Cell-based scaffold-free therapies seek to develop in vitro organotypic three-dimensional
(3D) tissue-like surrogates, capitalising upon the inherent capacity of cells to create tissues …

In this study, we present the photosynthetic oxygen (O 2) supply to mammalian cells within a
volumetric extracellular matrix-like construct, whereby a three-dimensional (3D)-bioprinted …

Cellular agriculture is an emerging field rooted in engineering meat-mimicking cell-laden
structures using tissue engineering practices that have been developed for biomedical …

The application of microbial co-cultures is now recognized in the fields of biotechnology,
ecology, and medicine. Understanding the biological interactions that govern the …

Over decades of development, the modern drug delivery system continues to grapple with
numerous challenges, including drug loading inefficiencies, issues of immunogenicity, and …

The advancement of tissue engineering for regenerating injured tissues and organs has
progressed significantly in recent years. Various techniques have been used to modify the …

Tremendous opportunities exist for biomaterials in biomedical applications. Microalgae, as a
kind of natural resources, have been recently used as novel biological materials, and have …

As a source of several valuable products, photosynthetic microorganisms (microalgae and
cyanobacteria) have many applications in biomedical, electrochemical, and urban-space …

3D bioprinting is currently widely used to build engineered mammalian tissue constructs
with complex spatial structures. It has revolutionized tissue engineering and is a promising …