Athlone Institute of Technology researchers working on ‘made to order’ personalised healthcare technology

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Athlone Institute of Technology researchers working on ‘made to order’ personalised healthcare technology.

“This new technology heralds an era of modern, highly specialised healthcare that has the capacity to help people live longer, healthier lives.”

Researchers have long suspected the concurrent prescription of medications, otherwise known as polypharmacy, to be a leading cause of therapeutic non-compliance among patients.

For many, remembering to take a cocktail of medications – in varying sizes, colours and contexts – can be confusing and overwhelming, ultimately leading to a poorer quality of life and estimated compliance rates of between 50 per cent and 70 per cent.

Benefits of polypharmacy can far outweigh costs


If prescribed, dosed and managed correctly, however, the benefits of polypharmacy can far outweigh the costs, leading, among other things, to an increased life expectancy.

With this in mind, researchers from Athlone Institute of Technology’s Materials Research Institute combined their extensive knowledge of material science, additive manufacturing and injection moulding to ‘fix’ the issue of high pill burden and poor therapeutic compliance.

Doctoral candidate Evert Fuenmayor and his supervisor Dr Ian Major have developed a blueprint for customisable tablets, capable of combining and releasing drugs in the correct quantities and conditions over a prolonged period of time.

This drug delivery technology, which can be either ingested orally or sub-dermally implanted, can be tailored to the specific needs of the patient as determined by their genetic profile.

“Using pharmacogenomics, doctors can use the patient’s genetic profile to predict drug efficacy and guide dosages,” says Evert, whose background is in mechanical engineering. “It essentially tells us how an individual will respond to medications.”

The duo began by questioning if biocompatible, biodegradable polymers via 3D printing would be suitable vehicles for customisable drug delivery. At the time, researchers were using it for things like rapid prototyping and making parts, not drug delivery.

‘Highly personalised, adaptable healthcare technology’


“When we started this research, the idea that 3D printing with polymer could be used to deliver drugs to the body was really novel – no one was doing it,” the 29-year-old Venezuelan man says. “What we’ve managed to create is highly personalised, adaptable healthcare technology.”

It took three years for Evert to perfect the printing 3D technology for tablets which relies on specific polymers and printing parameters to deliver active ingredients and formed the basis for his first two PhD publications.

He started off using caffeine as an active ingredient and soon realised that he could change the tablet’s release profile – basically how and when it was delivered – by making small, incremental changes to the settings on his 3D printer.

“We blended and melted the material, made filament with it and fed it into the printer. Depending on which settings we selected, we’re able to get entirely different drug profiles,” he explains.

“With as little as two clicks, I could make it so that the tablet could last three days in the body or six hours – it just depended on the needs of the patient.”

The next phase of research, which focused on bilayer tablet development for the delivery of multiple drugs, saw them experiment with more clinically relevant drugs, such as Lovastatin and Hydrochlorothiazide.

Collectively, these medications are prescribed for metabolic syndrome, which is an amalgamation of diseases that can occur over a person’s lifetime and combines cardiovascular diseases, high blood pressure, cholesterol and fluid retention.

‘No 1 cause of preventable deaths in Ireland’


“People don’t even necessarily realise it, but metabolic syndrome is actually the No 1 cause of preventable deaths in Ireland. There’s a reason why people are being told to cut down on processed foods and saturated fats,” says Evert.

“Aside from the high pill burden associated with polypharmacy, non-compliance can also stem from people who think ‘Oh, I’m feeling okay today, I don’t need to finish my prescription. But the reality is with strokes, heart disease and heart failure – they just happen. You won’t feel them coming; it’s not like having a head cold and having symptoms.”

Heralding a new era of modern, highly specialised healthcare, 3D printing technology has the capacity to help people live longer, healthier lives. Potentially, customisable drug technology could be brought to the high street and tablets of different drug profiles could be 3D printed in-situ by pharmacists all over the country.

“Pharmacists will be able to make up the drug profile based on a patient’s unique needs there and then. With the right drug-loaded polymers in stock and a small 3D printer, they’d be able to print your tablets in the actual pharmacy itself,” he says.

“We’re still learning about how different people react to different drugs and dosages and therapy approaches so while we’re not there just yet in terms of making this a reality, this is where medicine dispensing is going and what we’re hoping for.”

A key enabling technology for this new frontier of personalised medicine, 3D printing can easily and cheaply produce tablets that are customised for individual patients or population subgroups.

Not without limitations


As exciting as this new technology is, however, it’s not without limitations: “For Evert to print a batch of 30 tablets on a desktop printer takes something in the region of four hours,” says Dr Major, adding: “Whereas traditional methods of production can produce thousands of tablets an hour on one tabletting machine.”

To tackle this issue, the researchers have adopted a mass-customisation approach which combines a high volume process, injection moulding, with 3D printing to produce customised tablets at a significantly higher rate of production.

While still at an early stage, this work has shown considerable promise in being able to produce customisable tablets which will facilitate revolutionary ‘made to order’ personalised healthcare.

Evert, who is a recipient of Athlone Institute of Technology’s President’s Seed Fund, was recently awarded the Materials Research Institute’s ‘Best Overall Paper’ award for his seminal PhD research.

https://www.engineersjournal.ie/wp-content/uploads/2019/08/a1-2.jpghttps://www.engineersjournal.ie/wp-content/uploads/2019/08/a1-2-300x299.jpgDavid O'RiordanBio3D Printing,Athlone IT,biomedical
Athlone Institute of Technology researchers working on ‘made to order’ personalised healthcare technology. “This new technology heralds an era of modern, highly specialised healthcare that has the capacity to help people live longer, healthier lives.” Researchers have long suspected the concurrent prescription of medications, otherwise known as polypharmacy, to be a...