Researcher engineers portable ultrasound to detect scoliosis in teens

Adapted device uses AI to reconstruct 3D scans of the spine without the need for frequent X-rays.

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Engineering professor Edmond Lou with the portable 3D ultrasound system he is developing as a safer, more accurate way to detect scoliosis in adolescents (Photo: Geoff McMaster)

A University of Alberta engineering professor has designed a portable ultrasound system that can detect scoliosis in adolescents without the risks associated with frequent X-rays.

Adolescent idiopathic scoliosis is a deformity of the spine that occurs in two to four per cent of those between the ages of 10 and 18. A lifelong and potentially progressive condition, it can cause deformity and pain later in life if untreated, says Edmond Lou of the Department of Electrical and Computer Engineering.

Lou has adapted a portable ultrasound device already available on the market by adding electronics and AI software to reconstruct a series of single images into a three-dimensional scan of the spine.

“We can display the entire spine on the monitor and measure its curvature, with no X-ray involved,” says Lou, adding there is a higher presence of cancer in adolescents who need a radiograph as often as every four to six months during treatment.

Two-dimensional X-rays can also underestimate the severity of spinal deformity, he says.

He points out that a traditional ultrasound system with a 3D position sensor can cost up to US$45,000, he says, making it too expensive for many clinics. His portable unit is estimated to cost about US$11,000.

About 30 per cent of patients with adolescent idiopathic scoliosis need active treatment, says Lou, which includes bracing and surgery.

“If we can diagnose scoliosis earlier, there will be better treatment and we can prevent people from having to do surgery,” he says.

A member of the Women and Children’s Health Research Institute, Lou says his team is one of two pioneer teams in the world using ultrasound to detect scoliosis, a project he started about 12 years ago. The other is in Hong Kong.

Similar technology can be used to monitor hip dislocation in children with cerebral palsy, he says. He has launched a spinoff company called DenSonics Imaging with Paul Major of the School of Dentistry, using portable ultrasound to assess bone strength in the teeth of children before braces are applied.

Lou plans to launch another company for the scoliosis technology once he has secured funding and a U.S. patent.

“Right now the scanning still needs to be done in a medical clinic, but I have a new idea for the next generation so anyone can do it at home — anywhere, anytime. Everything will be automatic, and you will be able to see the scan on your phone.”

Lou's research is supported by the Stollery Children's Hospital Foundation through the Women and Children's Health Research Institute.