Gelatin's versatile functionalization offers prospects of facile and effective crosslinking as
well as combining with other materials (eg, metal nanoparticles, carbonaceous, minerals …

The 3D printing method, alternatively known as additive manufacturing (AM), is promising for
rapid tooling and layered micromanufacturing. However, significant fundamental research …

Many drugs show promising results in laboratory research but eventually fail clinical trials.
We hypothesize that one main reason for this translational gap is that current cancer models …

Polymers play a vital role as a scaffold in tissue engineering. Polymers, as biomaterials, can
mimic the extracellular matrix (ECM) of cells and improve the biological behavior of cells in …

Three-dimensional bioprinting of cell-laden hydrogels in a sacrificial support-bath has
recently emerged as a potential solution for fabricating complex biological structures …

Photocrosslinkable polymers such as gelatin methacrylate (GelMA) have various 3D
bioprinting applications. These polymers crosslink upon exposure to UV irradiation with the …

Synthetically modified proteins, such as gelatin methacryloyl (GelMA), are growing in
popularity for bioprinting and biofabrication. GelMA is a photocurable macromer that can …

The extracellular matrix (ECM) is a three-dimensional, acellular scaffold of living tissues.
Incorporating the ECM into cell culture models is a goal of cell biology studies and requires …

Novel transplantation techniques are currently under development to preserve the function
of impaired tissues or organs. While current technologies can enhance the survival of …

Overcoming hypoxia and providing a proper microenvironment for osteogenic differentiation
are the most critical challenges in bone tissue engineering (BTE). Hydrogels with the …