Why Does A Meniscus Form. A meniscus is a curved liquid surface that results from the interplay of adhesion (the liquid's attraction to its container) and cohesion (the liquid's attraction to itself). These multiple and complex functions require a specialized form.
Meniscus Tears Florida Orthopaedic Institute
Without the meniscus, you wouldn't. With water, you can think of it as when water sticks to the inside of a glass. People whose cartilage wears down (due to age or arthritis) can tear a meniscus from a motion as simple as stepping on an uneven surface. Each meniscus is smooth, flexible, and rubbery, and acts to provide both stability and shock absorbing protection to the precious knee cartilage lining the joint, also known as the hyaline cartilage. A torn meniscus can result from any activity that causes you to forcefully twist or rotate your knee, such as aggressive pivoting or sudden stops and turns. Sometimes, degeneration from arthritis causes a tear, even without a knee injury. A meniscus is a curved liquid surface that results from the interplay of adhesion (the liquid's attraction to its container) and cohesion (the liquid's attraction to itself). Web the meniscus withstands many different forces such as shear, tension, and compression. Their biochemical composition and multilayered structure make them ideal for converting compressive forces to tensile forces in addition to improving joint congruity and providing. Web the tear frequently occurs while playing sports.
Web meniscus form and function. A discoid meniscus is more likely to tear and commonly presents in childhood. A torn meniscus can result from any activity that causes you to forcefully twist or rotate your knee, such as aggressive pivoting or sudden stops and turns. Sometimes, degeneration from arthritis causes a tear, even without a knee injury. Even kneeling, deep squatting or lifting something heavy can sometimes lead to a. Web the meniscus withstands many different forces such as shear, tension, and compression. Web meniscus tears usually take place when an athlete twists or turns their upper leg while their foot is planted and their knee is bent. Their biochemical composition and multilayered structure make them ideal for converting compressive forces to tensile forces in addition to improving joint congruity and providing. With water, you can think of it as when water sticks to the inside of a glass. Each meniscus is smooth, flexible, and rubbery, and acts to provide both stability and shock absorbing protection to the precious knee cartilage lining the joint, also known as the hyaline cartilage. The menisci are 2 fibrocartilaginous crescents anchored via bony and ligamentous attachments to surrounding structures.
