“Statistical shape analysis allows us to detect very localized changes in muscle shapes related to low back pain,” says the paper’s lead author Yiming Xiao, an assistant professor of computer science and software engineering. After factoring in variables such as age and sex, Xiao says, “this study can help detect where specifically the muscles are degenerating. And that can help formulate a more targeted physiotherapy plan to strengthen those muscles and ease suffering.”
Maryse Fortin, an assistant professor in the Department of Health, Kinesiology and Applied Physiology, co-authored the paper, along with Hassan Rivaz, an associate professor and Concordia University Research Chair of Electrical and Computer Engineering, Joshua Ahn, an undergraduate at Western and Terry Peters and Michele Battié, professors at Western. Currently, the inter-institute research collaboration is working on medical image analysis methods, including artificial intelligence technology that allows automatic diagnosis and prognosis of painful spinal disorders, such as disc herniation.
Two sides of the same muscle
The researchers look at unilateral lumbar disc herniation, which manifests as pain on the same side as the herniation. Essentially, this occurs when one side of the spinal disc bulges, potentially irritating the nerve root. By examining participants suffering only from pain on one side, they had access to pathological and healthy muscles in the same body, which draws a clearer comparison because they can exclude complex variables such as life habits from consideration.
“We were able to find signature shape variations in the multifidus muscle between the painful and the non-painful sides,” Xiao says. “And compared to the classic ways of measuring muscle functions, such as the overall size of the muscle and fatty infiltration, we found that our method was more sensitive to detecting the differences.”
Defining terms
Fortin says the technique also helped the researchers determine whether the shape of the multifidus muscle was a biomarker for potential back pain. Previous studies often had conflicting results because there was no uniformity in methodology of analysis. For example, researchers were using different muscle segmentation protocols, so the definition of muscle groups would begin and end at different places depending on the study.
Degenerative change of the back muscles due to natural aging also complicates matters. This can cloud potential biomarkers and mask sources of pain, as degenerative change does not necessarily result in discomfort.
“Here with MRI, we have a three-dimensional view of the muscle’s shape, and it takes into account parameters that have not been studied yet,” she says. “We found variations in shapes from female to male, as well as associated with age and with ontology. So it really is a novel idea.”
Read the cited paper: “Statistical morphological analysis reveals characteristic paraspinal muscle asymmetry in unilateral lumbar disc herniation.”