Drugs that fight diseases work best when they reach the right place in the body, at the right time, in the right amount. To help in this important task, Duke researchers have enlisted artificial intelligence (AI) to design new nanoparticle drug delivery methods .
Nanoparticle drug delivery is a way of packaging medicines into extremely tiny particles so they can travel more precisely in the body, helping treatments work better - like a therapy that directly reaches a cancer tumor instead of circulating widely in the body. These nanoparticles are so small that thousands could fit across the width of a human hair. Designing the right particles is very complex, like trying to assemble a puzzle with countless tiny pieces.
AI helps speed up the process by proposing combinations of ingredients people haven't thought of before, say the researchers. It's like making a new recipe, and the team took these drug delivery recipes designed by its AI and had robots mix many options together in the lab to test them.
In a recently published paper , the researchers show how they were able to use this approach to create more efficient delivery systems for the drugs that are used for treating cancer.
In one example, the team created a new nanoparticle recipe for leukemia drug venetoclax. This formulation dissolved better and more effectively halted leukemia cell growth in the lab compared to venetoclax not packed into a nanoparticle.
In another example, the researchers wanted to improve an existing recipe for trametinib, a therapy for several cancers, including skin and lung cancers. Their AI helped them design a new formulation that reduced the use of a potentially toxic component by 75%, while improving how the drug was distributed in lab mice.
"This platform is a big foundational step for designing and optimizing nanoparticles for therapeutic applications," said biomedical engineer and senior author Daniel Reker. "Now, we're excited to look ahead and treat diseases by making existing and new therapies more effective and safer ."
Learn more about how federally-funded Duke Research Saves Lives in the full story from the Pratt School of Engineering .
