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Backs to future: jump in MRI accuracy raises hope for pain sufferers

A new MRI scanning technique for analysing degenerated spinal discs improves accuracy from 70% using current methods to 97%, raising hope of better diagnoses of back pain.

The exact causes of an individual’s back pain may be better understood after UNSW Sydney researchers improved the accuracy of MRI scans of spinal discs using a new technique they call ‘decay variance’.

In a paper , the researchers show how they captured spinal disc degeneration in rabbits using the new decay variance technique, where they achieved an accuracy rate of 97%. In other words, when they compared the image of the disc with the actual disc in a post-mortem examination, the actual disc matched the image 97% of the time. Using traditional MRI methods (called T2 weighted MRI), the images were found to match the actual discs only 70% of the time.

Study lead author Dr Kyle Sheldrick, from UNSW Medicine’s St. George & Sutherland Clinical School, says the results are promising and may enable doctors and radiologists to more accurately pinpoint the cause and location of a patient’s back pain.

“Back pain affects about one in six Australians but in 95% of cases, doctors (including me and my co-authors) can’t find any cause,” Dr Sheldrick says.

“This not only makes it very hard to treat individual patients, but also makes it very hard to find new cures for back pain.

“Experts think degeneration of the spinal discs is a cause of back pain but current tests for disc degeneration don’t work very well. Patients with discs that look healthy on MRI often have severe back pain, and patients with discs that look very degenerate on T2 MRI often have no back pain, so better technology is needed.”

Senior author Dr Ashish Diwan, who is an orthopaedic surgeon at St. George Hospital, says while MRIs have been especially helpful in creating pictures of soft tissues that don’t show up on x-ray examinations, the technology itself is not perfect.

“Most people wouldn’t realise that what the MRI produces in images is not necessarily an exact representation of what is actually going on in a patient,” Dr Diwan says. “Now for the first time we’ve been able to demonstrate that MRI technology still has considerable room for improvement – and we’ve shown how it can be done.”

Comparing the new technique with what is currently used by radiologists in clinical practices, Dr Diwan says the difference represents a shift in the way the data is analysed.

“Current techniques see how quickly or slowly individual atoms line up with a magnetic field after a strong burst of radio waves – this is called signal decay,” he says.

“Instead of trying to figure out how fast or slow this signal decay is, our technique measures whether the atoms in a sample are lining up at the same speed as each other, or a range of different speeds – hence decay variance.”

Dr Sheldrick says that that disc degeneration is a really complex process, with a combination of lots of changes happening at a microscopic level, not just one simple change.

“Some of the changes, like dehydration, make the individual protons line up faster while other changes, like loss of some long chains of sugars, should make them line up slower, so a really simple measure like the speed with which they line up on average won’t capture the process very well because a lot of the changes cancel each other out,” he says.

The technique does not require any new or advanced MRI machinery, Dr Sheldrick adds, and can be used on “virtually all current scanners”.

“In fact, we’re starting a trial later this year using a current Medicare licensed scanner in Sydney that will be scanning clinical patients during the day and doing our trial at night.”

The trial he alludes to will see the application of the decay variance MRI technique to human patients for the first time, as part of a study funded by Swiss not-for-profit, . Dr Sheldrick says it is important that the MRI technology is advanced for diagnoses in back pain for humans, because “at the moment our ability to tell where back pain is coming from is rubbish”.

“This holds back research, and our progress in treating back pain has been minimal, with 95% of people with back pain having no known cause,” he says.

“Trying to find treatments for chest pain wouldn’t make any progress either if heart attacks, pleurisy, pericarditis, pneumonia, rib fractures, lung cancer and pneumothorax were all grouped together as ‘non-specific chest pain’. I don’t believe we will make serious progress with finding new treatments for back pain until we know what’s causing it in each person.”

Dr Sheldrick says the inability of doctors to determine the cause of back pain leads to a “one size fits all approach to medicine, in which 95% of people get the same treatment”.

“Even without finding new treatments, being able to classify people based on the cause of their back pain opens up new avenues for personalised medicine,” he says.

“Some people might be better candidates for one exercise regimen, others might be best served by a different exercise regime, while a third group might be best served by surgery.”

/Public Release.