A novel virtual reality technology to make MRI a new experience

A novel virtual reality technology to make MRI a new experience

Researchers from King’s College London have created a novel interactive VR system to be used by patients when undertaking an MRI.

In a new paper published in Scientific Reports, the researchers say they hope this advancement will make it easier for those who find having a MRI scan challenging such as children, people with cognitive difficulties or those who suffer from claustrophobia or anxiety.

In normal circumstances, MRI scans fail in up to 50 percent of children under 5 years of age, which means that hospitals often rely on sedative medication or even anesthesia to get children successfully scanned.

These measures are time consuming and expensive and have their own associated risks. From a neuroscience point of view, it also means that MRI based studies of brain function are generally only ever studied in these vulnerable populations during an artificial induced sleep state so may not be representative of how the brain works in normal circumstances.

Lead researcher Dr. Kun Qian from the School of Biomedical Engineering & Imaging Sciences at King’s College London said having an MRI scan can be quite an alien experience as it involves going into a narrow tunnel, with loud and often strange noises in the background, all while having to stay as still as possible.


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“We were keen to find other ways of enabling children and vulnerable people to have an MRI scan,” Dr. Qian said.

“Our interest in VR specifically came from the simple observation that when someone is using and then immersed in a VR environment, they are entirely unaware of their surroundings. We thought if we could make a system compatible with the MRI environment, it could be a very powerful alternative way to successfully scan these challenging populations.”

To provide patients with an immersive VR environment, the researchers developed a special VR headset that can be safely used inside MRI scanner.

The headset is designed to be light tight, so that the user cannot see their surrounding environment at all and is unaware of visual reminders of their position.

Once the system is properly positioned, the system’s projector is immediately live, providing immersive content and the VR experience is then continuous from that point onwards until the patient is removed at the end of the examination.

The researchers say this and other measures are highly effective at removing the sense of being inside the MRI scanner, as their visual scene is completely replaced with the VR environment and through creating congruence with the other sensations that are perceived during MRI examinations such as scanner noise, table movement and table vibration.

So far, this has been done by including elements in the visual scene that indicate that construction work is in progress in the virtual world, which could account for scanner noise and vibration.

One of the main novelties with this system is that the users can interact with the virtual world just with eye gaze—how we do things in our day-to-day lives.

Currently, there are no other such MR compatible systems which combine a VR presentation system with intuitive interaction in this way.

Using their gaze (ie, just looking at objects or areas in the VR environment) , so the user can navigate through the virtual world, to select content such as films and games, play games and to initiate or terminate a video link to their companion/carer.

The latter means that an anxious patient can interact at will with a companion or carer at any time during their examination via a webcam with microphone and a display monitor installed in the console area.

The researchers say the next steps for the system is to develop content and test it with patients.

“Developing the right content is crucial, as for the system to be effective it needs to maintain a subject/patient’s attention and their sense of immersion for as long as possible. As this content is likely to be very different depending on age and cognitive capabilities, getting this right and tailoring it for different clinical and study populations is a key next step,” Dr. Qian said.

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