草莓污视频导航

Dec. 12, 2018

Researchers watch the knee degenerate and understand how osteoarthritis may begin

Kinesiology study shows how knee cartilage is protected by the menisci
草莓污视频导航 researchers Ziad Abusara and Walter Herzog have discovered that most patients who had their meniscus removed developed knee osteoarthritis. Using a powerful, customized microscope, they found that when the meniscus is removed, extensive cell death occurs within hours during vigorous exercise. Photo by Riley Brandt, 草莓污视频导航

Researchers watch the knee degenerate and understand how osteoarthritis may begin.

Riley Brandt, 草莓污视频导航

For hockey great Bobby Orr, a torn knee ligament ended his career at age 30. Orr had more than 17 knee operations, at one point having his meniscus removed 鈥斕齮he cartilaginous tissue that helps stabilize and lubricate the knee joint. Now scientists can see in real time just how important the meniscus is.听

鈥淔our decades ago, it was accepted that the meniscus didn鈥檛 play a significant role in the knee joint.When someone damaged their meniscus, surgeons usually removed all or part of it 鈥斕齛s they did with Bobby Orr,鈥 says Dr. Ziad Abusara, PhD,听Faculty of Kinesiology, who won an award from the Orthopaedic Research Society in 2017 for his study findings.

Only later, it was discovered that most patients who had their meniscus removed developed knee osteoarthritis.鈥

  • Photo above:听草莓污视频导航 researchers Ziad Abusara and Walter Herzog have discovered that most patients who had their meniscus removed developed knee osteoarthritis. Using a powerful, customized microscope, they found that when the meniscus is removed, extensive cell death occurs within hours during vigorous exercise.听

Link between cell death and osteoarthritis

Now a new study, published in the journal听, points to why the knee degenerates, as researchers discovered that when the meniscus is removed, extensive cell death occurs within hours during vigorous exercise.

Using a powerful, customized microscope, researchers were able to watch what the cells were doing in real time as the activity was happening.

鈥淚t was surprising how quickly the cells died when the meniscus was removed. Half of the cells which make and maintain the components of the knee cartilage were dead within four hours,鈥 says Abusara, noting it was the first time using this very powerful microscope to do this type of research.听听听

鈥淲hen the cells die, it puts the knee at a high risk of degenerating and developing osteoarthritis.鈥

Arthritic diseases are a leading cause of disability worldwide. Osteoarthritis is associated with increased rates of obesity, heart disease and mortality, likely because those who have it are less mobile. It鈥檚 estimated that osteoarthritis will听听in health-care expenses by 2040.

Importance of keeping the meniscus in place

Abusara says this is the first time researchers have demonstrated how the meniscus protects an already injured joint from further injury, and how the meniscus reduces the extent of cell death away from the injured site.

鈥淭his means trying to keep the meniscus in place when developing early treatment interventions,鈥 says Abusara. 鈥淭his will help to prevent cells from dying and help to maintain the health of the knee joint.鈥

Abusara is a laser physicist by training, working with colleagues in biomechanics, engineering and medicine.

The next step is to see what happens between the time the cells die and knee osteoarthritis develops.

鈥淣ot everyone who has their meniscus removed develops knee osteoarthritis,鈥 says Abusara. 鈥淣ow we want to understand why some people develop it and some don鈥檛, so we can find solutions for this costly and debilitating disease.鈥

The article was published in听, by Drs. Ziad Abusara, Stephen Andrews, Markus Von Kossel and Walter Herzog of the Faculty of Kinesiology, with research funded by Alberta Innovates, AIHS Alberta Team Grant on Osteoarthritis, The Canada Research Chair Program, the Canadian Institutes for Health Research, Canada Foundation for Innovation and the Killam Foundation.

The Faculty of Kinesiology is ranked the No. 1 sport science school in North America and No. 7 globally according to the听.

The 草莓污视频导航鈥檚 multidisciplinary听听research strategy drives solutions to our most pressing health challenges in disease and injury prevention, diagnosis and treatments. Our biomedical engineering researchers make a significant impact in our听communities by extending lives, improving quality of life, promoting听independence, and continuously improving the health system.