Novel Device for Stomach Complaints Is Successful in Human Trial

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03/11/2024

Graphical abstract. Credit: Device (2024). DOI: 10.1016/j.device.2024.100292

An endoscopic mapping device, developed over the course of a decade by scientists at the Auckland Bioengineering Institute, consists of an inflatable sphere covered in sensors, delivered down the esophagus and able to measure electrical activity in the gut.

In the same way, abnormal heart electrical signals can cause serious heart problems, research has found faulty bioelectric gut waves can lead to stomach pain, nausea, vomiting and bloating.

But often doctors can't find out what the problem is. That's because gut electrics aren't nearly as strong or as easily measured as heart waves; without surgery it's hard to know if someone has a so-called 'dysrhythmic' gut—and if so, where the problem is.

Enter University of Auckland gastrointestinal researcher Dr. Tim Angeli-Gordon, the head of the team that has developed the endoscopic sensor device.

He says the project has been 10 years in the making and completing the first human clinical trials is a huge step forward.

"This is a critical step, taking us from engineering and pre-clinical work to real patients.

"It's very difficult to do, but this is the dream; the pinnacle of bioengineering."

A paper published in the journal Device details the results of the initial study into 13 patients. Additional data has since been collected from 35 patients in Auckland and Christchurch, Angeli-Gordon says.

"We're still analyzing those data but it looks very promising."

Peter Tremain, a postgraduate researcher and the lead author of the paper, says the next step is to use the data from the two human clinical trials to improve the design of the device.

In particular, he wants to improve filtering of the electrical signal, so clinicians can isolate gut signals from competing 'noise.'

"The body produces a lot of random electrical confusion," Tremain says. And the problem is that stomach signals, in comparison with those from the heart, are much closer in amplitude to this random noise.

Meanwhile, outside vibrations, like vibrations from equipment, or people walking around, can also produce noise in the electrical signals, Tremain says.

"As part of this paper, we've managed to extract stomach signals from that noise; now we want to hone this even more."

Tim Angeli-Gordon with the endoscopic gut sensor device. Credit: University of Auckland

Angeli-Gordon says human studies are the most recent stage in a decades-long process, building on the initial discovery in the early 1900s that the gut, like the heart, was governed by electrical signals. More recently, scientists like Tim Angeli-Gordon at the Auckland Bioengineering Institute have been studying faulty gut electrics.

The trouble with early studies was that, because of the weak stomach signals, diagnosis of gut dysrhythmia involved open surgery and putting electrodes on the outside of the stomach.

"We realized if we ever wanted to apply these techniques to a larger patient group we needed minimally-invasive options," Angeli-Gordon says.

In 2022, ABI spin-off company Alimetry got the green light from the US Food and Drug Administration for the gut version of an electrocardiogram (ECG)—a high-resolution gastric mapping tool that straps onto the outside of your abdomen and can tell doctors whether someone's electric signals are normal or not.

The gastric Alimetry system is available in the US, UK and New Zealand.

The endoscopic sensor system which is the subject of the new research paper takes the diagnosis one step further—aiming to give clinicians a clearer picture of exactly where the electrical signals are misfiring.

"It initially allows us to record if the bioelectrical activity is abnormal; it can be a real relief to patients to have a definitive measurement of what is wrong with their gut. Then we look at how we can correct that," Angeli-Gordon says.

A different group at the Auckland Bioengineering Institute, also led by Dr. Angeli-Gordon, is exploring whether ablation—the careful burning technique used in the heart to block irregular electrical signals—could be used endoscopically to correct problems in the gut.

Early test results in animals are very encouraging, and the team is continuing to progress that technology towards being used in clinic too, Angeli-Gordon says.

Angeli-Gordon estimates about a third of patients who go to their doctor with gut-related symptoms have some sort of electrical abnormality. That could add up to millions of people worldwide.

Meanwhile research has shown 'functional dyspepsia'—stomach problems which appear to have no structural rationale—afflicts between 5% and 11%t of the population.

Patients can sometimes struggle for years to get a diagnosis, Angeli-Gordon says. Some even get referred to psychiatrists because their doctors eventually conclude their symptoms are all in their heads.

For them, accurate diagnosis and treatment can't come soon enough, although Angeli-Gordon reckons it could be another five years before the endoscopic device is widely available in hospitals around the world.

The human studies are an important first step.

"We are also looking at options for commercialization—figuring out how we can best progress this promising technology," he says.

More information: , Endoscopic Mapping of Bioelectric Slow Waves in the Gastric Antrum, Device (2024). DOI: 10.1016/j.device.2024.100292. www.cell.com/device/fulltext/S2666-9986(24)00064-4

Citation: Novel device for stomach complaints is successful in human trial (2024, March 6) retrieved 7 March 2024 from https://medicalxpress.com/news/2024-03-device-stomach-complaints-successful-human.html

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