Seismic for the spine: vibration technology offers alternative to MRI

Seismic for the spine: vibration technology offers alternative to MRI

Seismic for the spine: vibration technology offers alternative to MRI

Magnetic resonance image isn’t everything. A new US study from the University of Alberta shows that vibrating the spine may reveal more when it comes to treating back pain.

Teaming with the University of Southern Denmark to study the lumbar spines of twins, Greg Kawchuk and his team demonstrated that structural changes within the spine alter its vibration response significantly.

“Instead of using large seismic vibrations to find oil, we used gentle vibrations to find out where problems exist in the back,” explains Kawchuk, professor of physical therapy at the U of A’s Faculty of Rehabilitation Medicine. “By studying and testing vibration responses in identical twins, we were able to demonstrate that structural changes within the spine alter its vibration response.”

Published online in Nature: Scientific Reports in March, the identical twin study design is significant and unique for biomechanical studies like this one. In instances where twins had similar spines, the vibration responses were statistically similar. But if one twin had a different spine (due to an accident or injury for example), the vibration responses were significantly different.

“In Denmark we have the world’s largest and most comprehensive twin registry, and using this unique resource, we have been able to contribute to research that can potentially help to diagnose millions of back pain patients,” says Jan Hartvigsen, professor of clinical biomechanics and musculoskeletal research at the University of Southern Denmark.

The findings show the viability of vibration as a diagnostic tool that could help improve MRI utilization in the short term, Kawchuk says.

“One of the biggest problems in back pain today is overutilization of MRI scans in patients who do not need them. This is a waste of health-care resources that leads to overtreatment and even increased disability. By using a simple, safe and inexpensive technology like this, we can potentially decrease the use of these scans significantly,” says Hartvigsen.

The study also has implications in the long term and could provide new diagnoses not revealed by current imaging tests.

“While an MRI shows us a picture of the spine, it doesn’t show how the spine is working. It’s like taking a picture of a car to see if the car is capable of starting. Vibration diagnostics shows us more than how the spine looks; it shows us how the spine is functioning,” explains Kawchuk.

“Back problems are a significant cause of disability worldwide. For 90 per cent of these patients, current diagnostic methods are not able to identify their problems,” says Cameron Schuler, president and CEO of VibeDx™, who co-founded the VibeDx Diagnostic Corp, a TEC Edmonton spinoff company that has licensed the technology developed by Kawchuk. “Our hope is VibeDx will help improve our ability to identify the cause of the patient’s back problem, which will then assist clinicians in matching a patient to the best course of treatment for their specific situation.”

“VibeDx is a TEC Edmonton client and we’re delighted to see international recognition for this innovative University of Alberta spinoff,” said Chris Lumb, CEO of TEC Edmonton, an accelerator for early-stage technology companies. “VibeDx  is a prime example of the outstanding research and commercialization taking place in Edmonton and at the University of Alberta.”

Reference: Gregory N. Kawchuk, Jan Hartvigsen, Tiffany Edgecombe, Narasimha Prasad & Jaap H. van Dieen, Structural health monitoring (vibration) as a tool for identifying structural alterations of the lumbar spine: a twin control study, Scientific Reports 6, Article number: 22974 (2016), doi:10.1038/srep22974

Source: University of Alberta

 

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