Just as a business needs an effective and reliable service to deliver its goods to customers, medications need an effective delivery system to get them to the specific area of the body where they can ...

Magnetic nanoparticles have emerged as pivotal tools in biomedical research, offering novel approaches to diagnostics and therapy. Their unique properties, including tunable magnetic behaviour, ...

When designing a nanoparticle-enabled drug delivery system, many intersecting considerations must be taken into account, such as the target location of the drug payload, the method of delivery, uptake ...

Researchers from Tomsk Polytechnic University, as part of a scientific collaboration, have created nanoactuators to transport ...

A McGill University research team has developed a painless, automated way to deliver in vitro fertilization (IVF) hormones ...

What if doctors could guide life-saving treatments through the body using nothing but a magnet? An interdisciplinary team at the University of Pittsburgh’s Swanson School of Engineering is working to ...

In the world of biomechanics and medicine, there are challenges in the designing microrobots that are effective in drug ...

Duke researchers have developed a new AI-powered approach to nanoparticle drug delivery design, which performed well in lab tests with cancer drugs Drugs that fight diseases work best when they reach ...

Nanoparticles enhance drug solubility, stability, and bioavailability, improving therapeutic outcomes for GI conditions like IBD through targeted delivery mechanisms. Hydrogel-based systems offer ...

Organoids, tiny replicas of human organs, are grown from stem cells or tumor cells and develop into three-dimensional structures containing many of the same cell types as the real organ or tissue.