News Release

Out of joint

Peer-Reviewed Publication

American Friends of Tel Aviv University

Professor Gil Navon, American Friends of Tel Aviv University

image: Professor Gil Navon view more 

Credit: AFTAU

As America's Baby Boomers jog into the 21st century, joint pain from the most common form of arthritis continues to be a number one disabler. Until now, there has been no way to diagnose the disease until it reaches an advanced stage, after both irreversible joint damage and severe symptoms have already set in.

A new diagnostic technique from Tel Aviv University and New York University may keep Baby Boomers running through their golden years. The researchers have developed a unique application of magnetic resonance imaging (MRI) technology that provides a non-invasive early diagnosis of osteoarthritis. The results from the new tests, which cost the same as a standard MRI, could be read within one day.

"An early diagnosis of arthritis is very, very important, especially for athletes and the aging," says Prof. Gil Navon, from Tel Aviv University's School of Chemistry, who was a coauthor of the research paper published in the Proceedings of the National Academy of Science. "Standard MRIs will say nothing about a mild pain in the joints from jogging. Our new method detects the very first signs of the disease early, so physicians can step in and advise on appropriate intervention methods."

A New Tool for Medical and Drug Researchers

Prof. Navon notes that the new technique will be a useful tool for researchers who need to monitor the ability of stem cell treatments to repair damaged cartilage. It will also give drug researchers a much-needed means of determining the efficacy of early preventative drug therapies.

Osteoarthritis, the most common form of arthritis, affects millions of Americans. It wears away cartilage at the ends of bones, leading to spurs, bony protrusions and a painful build-up of synovial fluid in the joint. It is the number one reason for knee and hip replacement surgery in the United States.

There are two main constituents that form cartilage ― collagen and proteoglycans. Proteoglycans are composed of a protein and a sugar known as glycosaminoglycan (GAG). In the first stage of osteoarthritis, proteoglycans start to disappear from the cartilage. "Our modifications of existing MRI equipment allow us to directly follow the amount of proteoglycans in the joints now," Prof. Navon says. His team's invention follows the movement of GAG protons to water, giving doctors a new, direct way to measure GAG concentration ― and provide an early diagnosis.

Though not yet available in clinics, their modified MRI test costs the same as a conventional MRI procedure and takes about the same time to run, allowing a diagnosis on the same day, the researchers reported. "I'm pretty confident in saying that it's one of the better methods out there for testing cartilage health," said New York University researcher and co-author Prof. Alexej Jerschow.

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Beginning on September 20, 2008, Prof. Navon will play host to over one hundred leaders in MRI science and medicine for the five-day Batsheva Seminar on Frontiers of Biomedical Magnetic Resonance in Israel. Sponsored by Tel Aviv University and the Weizmann Institute, the international meeting will draw together world leaders in MRI research and its applications in fields as diverse as osteopathy, neurology and oncology. Guests will include Profs. Felix Wehrli and Jerry D. Glickson from the University of Pennsylvania, Prof. Robert E. Lenkinski from Harvard Medical School and Prof. Allen D. Sherry from the University of Texas.

American Friends of Tel Aviv University (www.aftau.org) supports Israel's largest and most comprehensive center of higher learning. It is ranked among the world's top 100 universities in science, biomedical studies, and social science, and rated one of the world's top 200 universities overall. Internationally recognized for the scope and groundbreaking nature of its research programs, Tel Aviv University consistently produces work with profound implications for the future.


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