Secretion Morphostatic

Morphostatic secretion: what is it and how does it affect the body?

Morphostatic secretion is the process of releasing substances that regulate the formation and development of the body. The term "morphostatic" comes from the Greek words "morphe" (form) and "statos" (immobile), indicating that this secretion affects the shape and stability of the organism.

The mechanism of action of morphostatic secretion is that it blocks or slows down the processes of cell growth and division, which leads to stability of the body's shape. This means that morphostatic secretion plays an important role in embryonic development and maintaining the shape of tissues and organs during growth and maturation.

In addition, morphostatic secretion may be associated with the regulation of cell proliferation during tissue healing and organ remodeling. For example, in wound healing, morphostatic secretion can help control cell growth and new tissue formation to ensure proper healing.

Research into morphostatic secretion has been ongoing for many years, and it allows us to better understand the mechanisms regulating the development of organisms. Some studies show that changes in the levels of morphostatic secretion can lead to abnormalities in the development of the embryo and to disturbances in the form and function of tissues and organs.

In general, morphostatic secretion is an important mechanism for regulating the formation and development of organisms. Its study allows us to better understand the physiological processes occurring in organisms and can lead to the development of new methods for treating diseases and developmental disorders.



Secretion morphostatic

To write the article I used material from Wikipedia: https://ru.wikipedia.org/wiki/Secretion_of_glandular_cells

**Content:**

* Characteristics and composition

Morphostatic secretions are a type of liquid secretions that originate from special glands in the epidermis and papillary layer of the dermis. Such discharge usually has a viscous and sticky consistency, with a substance oozing from the pores of the skin.

Microscopic examination of morphostatic secretions reveals large accumulations of cells called cysts, which contain a nucleus and several enzymes capable of secreting various proteins and compounds. During the proliferation of microforms of epithelial cells, the cells express the substance hyaluronidase, which breaks down the secretion located inside the cell vesicles. The secretory cell carries a dense layer of semi-permeable membranes on the endoplasmic reticulum membrane, which also contains various proteins and enzymes. When the membrane is depolarized, osmosis evenly distributes the liquid secretion in the extracellular matrix. The liquid substrate enters small attached vesicles surrounded by plasma membranes, forming the so-called. pseudo-tanks consisting of two segments: a dense content and a liquid inner segment. With the evolution of the cellular structure, which forms in the form of a keloid scar and is accompanied by keratinization of the affected areas, the production and secretion of secretions from the cells decreases. This should be taken into account when surgically treating such skin lesions, since the mechanism of keloid pathogenesis determines the choice of the most effective therapeutic strategy for them. Secretory cells can be located both in the deep layers of the dermis and