3D printed pill using a new technique CREDIT University of Nottingham, Centre for Additive Manufacturing
A new technique for 3D printing medication has enabled printing multiple drugs in a single tablet, paving the way for personalised pills that can deliver timed doses.
Researchers from the University of Nottingham’s Centre for Additive Manufacturing have led research alongside the School of Pharmacy that has fabricated personalised medicine using Multi-Material InkJet 3D Printing (MM-IJ3DP).
The team has developed a cutting-edge method for fabricating customized pharmaceutical tablets with tailored drug release profiles, ensuring patients’ more precise and effective treatment options.
Using Multi-Material InkJet 3D Printing (MM-IJ3DP), tablets can be printed that release drugs at a controlled rate, determined by the tablet’s design. This is made possible by a novel ink formulation based on molecules sensitive to ultraviolet light. When printed, these molecules form a water-soluble structure.
The drug release rate is controlled by the tablet’s unique interior structure, allowing for timing the dosage release. This method can print multiple drugs in a single tablet, simplifying complex medication regimens into a single dose.
Dr Yinfeng He, Assistant Professor in the Faculty of Engineering’s Centre for Additive Manufacturing led the research, he said: “This is an exciting step forwards in the development of personalised medication. This breakthrough highlights the potential of 3D printing in revolutionizing drug delivery and opens up new avenues for developing next-generation personalized medicines.”
“While promising, the technology faces challenges, including the need for more formulations that support a wider range of materials. The ongoing research aims to refine these aspects, enhancing the feasibility of MM-IJ3DP for widespread application.” Professor Ricky Wildman added.
This technology will be particularly beneficial in creating medication that needs to release drugs at specific times. It is ideal for treating diseases where timing and dosage accuracy are crucial. The ability to print 56 pills in a single batch demonstrates the scalability of this technology, providing a strong potential for the production of personalised medicines.
Professor Felicity Rose at the University of Nottingham’s School of Pharmacy was one of the co-authors on the research, says: “The future of prescribed medication lies in a personalised approach, and we know that up 50% of people in the UK alone don’t take their medicines correctly and this has an impact on poorer health outcomes with conditions not being controlled or properly treated. A single pill approach would simplify taking multiple medications at different times, and this research is an exciting step towards that.”