3D printing technique to revolutionise healthcare industry?

3D printing technique to revolutionise healthcare industry?
A new 3D printing process developed at the University of Glasgow could revolutionise the way drugs and other chemicals are made in the future, and even enable consumers to create customised medicines at home.

Using a commercially available 3D printer operated by open source CAD software, a team led by Professor Cronin built a system called 'reactionware', special vessels for chemical reactions which are made from a polymer gel which sets at room temperature.

By adding other chemicals to the gel deposited by the printer, the team has been able to make the vessel itself part of the reaction process. While this is common in large scale chemical engineering, the development of reactionware makes it possible for the first time for custom vessels to be fabricated on a laboratory scale.

Professor Cronin commented: "It's long been possible to have lab materials custom made to include windows or electrodes, for example, but it's been expensive and time consuming. We can fabricate these reactionware vessels using a 3D printer in a relatively short time. Even the most complicated vessels we've built have only taken a few hours.

By making the vessel itself part of the reaction process, the distinction between the reactor and the reaction was said to become 'hazy'. "It's a new way for chemists to think, and it gives us very specific control over reactions because we can continually refine the design of our vessels as required," Cronin explained. "For example, our initial reactionware designs allowed us to synthesize three previously unreported compounds and dictate the outcome of a fourth reaction solely by altering the chemical composition of the reactor."

Although the technology is still at an early stage, the team, comprised of researchers from the University's School of Chemistry and School of Physics and Astronomy, is also considering the long term implications of developments in 3D printing technology.

Professor Cronin added: "3D printers are becoming increasingly common and affordable. It's entirely possible that, in the future, we could see chemical engineering technology which is prohibitively expensive today filter down to laboratories and small commercial enterprises.

"Even more importantly, we could use 3D printers to revolutionise access to healthcare in the developing world, allowing diagnosis and treatment to happen in a much more efficient and economical way than is possible now.

"We could even see 3D printers reach into homes and become fabricators of domestic items, including medications. Perhaps with the introduction of carefully controlled software apps, similar to the ones available from Apple, we could see consumers have access to a personal drug designer they could use at home to create the medication they need."

The university's work has been published in the journal Nature Chemistry. The research was supported with funding from the EPSRC.

Author
Laura Hopperton

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