Interest in 3D cell culture has grown exponentially in recent years, partially due to 3D cultures helping to overcome the challenges of using animal models and inadequacy of 2D cultures. Challenges ...

Thanks to the research of magnetic levitation in the conditions of microgravity, a new technology for 3D printing of biological tissues was developed Thanks to the research of magnetic levitation in ...

Feasibility of salvage focal nodal SBRT or protracted elective nodal irradiation in 18F fluoro-choline PET based nodal failures from prostate cancer. This is an ASCO Meeting Abstract from the 2016 ...

As a bold venture at the forefront of biomedical research, the PULSE project is poised to develop paradigm-changing bioprinting technology for applications in space and on Earth. Awarded nearly 4 ...

Forbes contributors publish independent expert analyses and insights. I cover exclusive financial news about the food & beverage industry. Israeli start-up Aleph Farms made international headlines ...

The experiment pushed cells towards each other like "pebbles being pushed around by the waves on the beach." When you purchase through links on our site, we may earn an affiliate commission. Here’s ...

Recently, nanoparticle-driven 3D bioprinting has emerged as a revolutionary approach for high-throughput drug screening, offering enhanced scalability, accuracy, and efficiency while reducing reliance ...

Bioprinting has emerged as one of the most promising techonologies for fabricating artificial tissues and organs that could revolutionize the diagnosis and treatment of many different medical ...

The first step of PR bioprinting is the formation of a model that is used by the printer and the choosing of materials to be used during the process. It begins with the extraction of biopsy of a ...