Grinstaff, Boston University Professor of Chemistry and Biomedical Engineering who led the team with Brian D. "Compared to commercially available contrast agents under the same experimental conditions, these new cationic agents are three times more sensitive for imaging cartilage," said Mark W. Using the femur of a rabbit, they reported gaining better and more specific images for the cartilage tissue than with current negative ion-charged contrast agents. The team synthesized three cationic or positive ion-charged iodine-based X-ray contrast agents. And they focused on using the more widely accessible CT equipment because it can image cartilage and bone simultaneously, enable rapid three-dimensional reconstruction of the tissue and achieve higher spatial resolution over shorter acquisition times compared to MRI systems. So researchers hypothesized that cationic contrast agents would be electrostatically attracted to anionic GAGs to provide a more sensitive technique for imaging cartilage. However, the current contrast agents used with computer tomography or magnetic resonance imaging (MRI) rely on limited diffusion of the anionic or negative ion-charged contrast agents into the target tissue, the study noted. To better see the differentiation between healthy and unhealthy cartilage, contrast agents provide the visual tool to assess GAG content. The loss of GAGs from these joints is the hallmark of osteoarthritis, a degenerative joint disease in which wear or trauma results in damage to the cartilage surface. Joshi, a postdoctoral student in the Department of Chemistry, describe new contrast agents that selectively bind to the GAGs in articular cartilage.Īrticular or joint cartilage is the smooth hydrated tissue in the ends of bones in load-bearing joints, such as knees, hips and shoulders. In their research paper, "Effect of Contrast Agent Change on Visualization of Articular Cartilage Using Computer Tomography: Exploiting Electrostatic Interactions for Improved Sensitivity," just published on line in the Journal of the American Chemical Society, researchers, including Neel S. In its quest to find new strategies to treat osteoarthritis and other diseases, a Boston University-led research team has reported finding a new computer tomography contrast agent for visualizing the special distributions of glycosaminoglycans (GAGs) – the anionic sugars that account for the strength of joint cartilage.Īssessing the local variations in GAGs are of significant interest for the study of cartilage biology and for the diagnosis of cartilage disease like osteoarthritis, which afflicts more than 27 million in people in the United States
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