Endomysium

Endomysium (from the Greek endon - inside and mys - muscle) is a loose fibrous connective tissue that immediately surrounds each individual skeletal muscle fiber.

The endomysium consists mainly of reticular and collagen fibers, as well as various cellular elements - fibroblasts, mast cells, macrophages. It provides nutrition to muscle fibers, participates in the regeneration of damaged muscles, and also has shock-absorbing properties, protecting muscle fibers from excessive stretching.

Thanks to endomysium, individual muscle fibers are combined into bundles, which in turn form a complete muscle. Thus, the endomysium plays an important structural and functional role in ensuring the normal functioning of skeletal muscles.



Endomysium is a loose fibrous connective tissue that surrounds skeletal muscle fibers and plays an important role in its function. This allows the muscles to adapt to stress and maintain their structure during exercise.

The endomysium is made up of many thin fibers of collagen and elastin, which provide strength and flexibility to the tissue. It also contains a large number of blood vessels that provide oxygen and nutrients to the muscles.

When muscles contract, they stretch the endomysium, resulting in an increase in its volume and density. This helps the muscles maintain their shape and prevent tearing during exercise.

In addition, the endomysium plays an important role in the transmission of nerve impulses between muscle fibers. When muscles contract and relax, nerve impulses are transmitted through the endomysium to the muscle fibers, allowing control of their function.

Thus, the endomysium is an important component of skeletal muscle and plays a key role in its function. It provides tissue strength and flexibility and is also involved in the transmission of nerve signals between muscle fibers, making it an important element for muscle health and performance.



Endomysium is loose connective tissue in skeletal muscle that performs many functions, ranging from supporting and regulating myocytes in space to controlling muscle activity. By producing various types of myoregulatory factors, endomysium determines the shape of muscles, their structure, growth rates and regeneration processes after damage. In addition, in muscular connective tissue formations, called fibroses or sclerotic substances, tendons, vessels, nerves, and other types of connective tissue are impregnated with endomysium. It acts as a frame and strengthens the tissue, but at the same time contributes to the development of retraction syndromes and pinched nerves. Outside the area of ​​its location, hollow cell lysates do not lose the ability to produce myorostereogenic factors only in the areas of blood vessels passing inside them. Does not identify obvious clinical features in the patient. Endomysialgia can only be a concomitant factor of another, more serious disease that requires treatment. To make a diagnosis