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Female or women astronauts can avoid knee injuries during space flight — and better tests, prevention, and treatment for knee osteoarthritis for women on Earth — based on newly published research on gender differences in knee meniscus tissues.
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“Some of the genes that were found in the females that responded more to simulated space microgravity were also associated with the development of knee osteoarthritis,” said Principal Investigator Adetola Adesida, professor of surgery in the Faculty of Medicine & Dentistry.
Research suggests the possibility of a blood test to find out who has the high-risk gene, allowing for early interventions such as physiotherapy, and eventually drug therapy and treatment. This will allow women to stay in space longer.
“We’ve uncovered the mechanisms that lead to this higher response, and we are hoping to develop drugs to target those pathways and block those responses,” Adesida said.
The meniscus is a type of cartilage in the knee that acts as a load distributor for the entire weight of the body. It was thought to be like the appendix: you will not lose it if it goes away. But now it is a small tear in the meniscus — usually caused by a sports injury — which even if the damaged tissue is removed, increases the risk of later arthritis. On the other hand, lack of use can also lead to meniscus deterioration and increase the risk of arthritis.
Adesida and his team have developed bioengineered meniscus tissue grown from cells removed from the damaged meniscus of healthy individuals. It can be hoped that one day we may be able to replace the damaged tissue with a transplant, avoiding the osteoarthritis.
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For their experiment on gender differences, the team studied and examined how bioengineering tissue functions under rest and mechanical loading and unloading conditions. For loading, a device that exerts a hydrostatic pressure on the cells was used. For unloading, they place the cells in a bioreactor designed by NASA to reflect the minimum gravity pull.
“Our loading and unloading experiment mimics what we actually see in a clinical situation where the development of spaceflight microgravity-induced knee osteoarthritic changes is possible,” he said.
“This will help us to have human relevant models to study knee osteoarthritis in the future. And our research has both Earth benefits and space benefits.”
Source: Medindia
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