Seeing signs of osteoarthritis before joint replacements necessary

A November 29, 2024 Canadian Light Source (CLS) news release (also received via email) by Brian Owens describes research that could benefit people who don’t know they have the beginning signs of osteoarthritis,

An imaging technique currently available only at synchrotrons like the Canadian Light Source at the University of Saskatchewan (USask) could one day enable doctors to detect osteoarthritis while patients can still be treated with medication – before they require joint replacement — thanks to research by USask scientist Brian Eames and colleagues.

In a pair of studies, Eames, a professor of Anatomy, Physiology, and Pharmacology in the USask College of Medicine, found that phase contrast imaging (PCI) detects very subtle changes in cartilage. He says the technique, which takes advantage of the high-energy light produced by the synchrotron, provides “fantastic” imaging of cartilage.

In the most recent study, Eames and colleagues (Daniel Chen, College of Engineering; Ali Honoramooz, Western College of Veterinary Medicine; Bill Dust, College of Medicine; and PhD student Hamed Alizadeh) used PCI to determine how well 3D-bioprinted cartilage could repair damaged joints. They compared the performance of cells impregnated in two different materials – one a squishy material called hydrogel and the other a hybrid construct combining hydrogel with a stiff plastic material. They hypothesized that the hybrid construct would shield the cells from forces in the recovering joint, so that the proper type of cartilage (hyaline) could form.

When they implanted these materials into animal joints, the researchers found that both helped new cartilage form, with the hydrogel doing slightly better by some measures. The hybrid, however, had one advantage: It formed less fibrocartilage, which was consistent with the team’s hypothesis. Fibrocartilage is a tougher form of cartilage that is created when joints are under stress. Having less fibrocartilage provides better joint function.

In an earlier study, Eames found that the superior resolution of PCI enabled more precise mapping of the articular cartilage surface than MRI – currently the “go to” imaging technique for osteoarthritis

Eames says that, while both sets of results are interesting, he’s more excited about the potential they hint at for bringing PCI into the clinical setting. PCI’s precision and ability to detect subtle changes “might be able to increase the ability to detect osteoarthritis earlier than regular clinical monitoring,” giving doctors more options for early treatment and researchers potential new targets for drug development.

While a football-field-sized synchrotron will never be a standard part of a hospital imaging suite, Eames says some companies are already working on ways to adapt the technology to make it portable for clinical use.

“The [CLS] is a nice test case for the technology that others can try to adapt for clinical use in humans,” he says.

Eames is seen discussing the work in this video,

Here are links to both papers mentioned in the news release, with the most recent work being first,

Comparison study on hyaline cartilage versus fibrocartilage formation in a pig model by using 3D-bioprinted hydrogel and hybrid constructs by Hamed Alizadeh Sardroud, Gustavo Dos Santos Rosa, William Dust, Tat-Chuan Cham, Gwen Roy, Sarah Bater, Alan Chicoine, Ali Honaramooz, Xiongbiao Chen and B Frank Eames. Biofabrication, 015014 Volume 17, Number 1 DOI 10.1088/1758-5090/ad88a6 Published 5 November 2024 • © 2024 The Author(s). Published by IOP Publishing Ltd

This paper is open access.

MRI overestimates articular cartilage thickness and volume compared to synchrotron radiation phase-contrast imaging by Suranjan Bairagi, Mohammad-Amin Abdollahifar, Oghenevwogaga J. Atake, William Dust, Sheldon Wiebe, George Belev, L. Dean Chapman, M. Adam Webb, Ning Zhu, David M. L. Cooper, B. Frank Eames. PLOS DOI: https://doi.org/10.1371/journal.pone.0291757 Published: October 3, 2023

This paper is open access.

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