Scientists have harnessed the power of nature by mimicking octopus suckers to help dentures stick to the mouth.

For the first time, tiny ‘suction cups’ have been designed into 3D-printed dentures, helping them to stay in position. The research could help the 11 per cent of the UK population who use a denture and the 350m of people around the world who have no natural teeth at all.

Dentures remain the most common treatment for people who lose their teeth, particularly with age. Whilst patients have access to other options such as dental implants, these can be expensive and not always available to people.

Many denture wearers struggle to get their dentures to stay in place – known as ‘retention’. People are often reliant on supermarket denture adhesive, used to glue dentures back in place, but this option is unhygienic and unpopular with users.

Harnessing the power of nature

An interdisciplinary team of scientists at King’s College London from the Faculty of Dentistry, Oral, and Craniofacial Sciences, explored how they could replicate the same process which enables octopuses to stick to slippery surfaces in dentistry. Octopuses have ‘suction cups’ in their tentacles which create a negative pressure and a vacuum, creating strong suction to fix them to rocks.

The team theorised that similar suckers could be added to dentures, allowing them to fix to the soft mucosa of the mouth. They designed 3D-printed models using computer-aided design (CAD) of upper and lower dentures.

When the models were analysed, they showed greater retention than standard dentures. The models had twice the amount of retention as normal dentures.

The scientists then explored how chemical changes could be used to help fix dentures in place. With dentures made from plastic, they showed how covering them with a thin lining of keratin – the same protein found in skin and hair – forms a chemical bond with the keratin of the skin in the mouth (mucosa). This further helped retention and was invisible to the eye, not impacting the look of the dentures.

Sherif Elsharkawy, lead author of the study, said, "Having worked with denture wearers, who I often see in clinic, for several years, I really wanted to improve their experiences.

“I first had the idea to replicate sticky surfaces in nature while biting into a peach. I noticed how the furry skin stuck to the palate of my mouth and decided to investigate other sticky surfaces in nature. Octopus suckers seemed like the perfect place to start.

“This research bridges nature and technology to tackle a long-standing challenge for denture wearers. By mimicking the ingenious adhesive strategies found in octopus suction cups, we have developed a prototype that offers improved grip and comfort in even the most demanding oral environments. Our findings pave the way for a new generation of dentures that can transform the quality of life for millions worldwide."

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