In a move that could one day lead to artificial transplant organs and sophisticated regenerative therapies, a UCLA team led by bioengineer Ali Khademhosseini has developed a new technique for printing ...

Over the past ten years, we’ve seen tremendous advances in 3D cell technologies, such as 3D in vitro models that more closely reflect morphological characteristics, cellular complexity, and physiology ...

3D cell models like spheroids and organoids are transforming the way we study complex biological processes—but they come with challenges. To meet this need, Sartorius has introduced the Incucyte ® CX3 ...

Researchers are increasingly shifting from simple to complex models to better recapitulate diseases. As they move from immortalized cell lines to more physiologically relevant systems such as ...

Monisha Ravisetti was a science writer at CNET. She covered climate change, space rockets, mathematical puzzles, dinosaur bones, black holes, supernovas, and sometimes, the drama of philosophical ...

For doctors and medical researchers repairing the human body, a 3D printer has become almost as valuable as an x-ray machine, microscope, or a sharp scalpel. Bioengineers are using 3D printers to make ...

This review traces the evolution from biological drugs to small molecule cytokine antagonists, drawing on lessons from TNFα and IL-17 as key case studies. It looks ahead to emerging modalities, ...

More clinically translational models and novel technologies are on the rise as valuable research tools. Prevalent in the fields of oncology and immuno-oncology these model systems utilize relevant ...

Researchers at the University of Wollongong have created a pen that uses 3D printing technology and bio ink to "draw" over sections of damaged bone. Michelle Starr Science editor Michelle Starr is ...