Ampulla Membranous Anterior

The membranous anterior ampulla (lat. Ampulla membranacea anterior) is an anatomical formation in the human body, which is located on the front side of the body and is associated with the organs of the gastrointestinal tract.

The ampulla membranosa is one of the components of the circulatory system and ensures blood circulation in the body. It is a narrow channel that connects blood vessels and organs such as the stomach, intestines and liver.

Normally, blood enters the ampulla membranosa through an artery and then leaves it through a vein. However, in some diseases, such as cirrhosis of the liver or portal hypertension, disruption of blood circulation in this area may occur. In such cases, the ampoule may become dilated or even blocked, which can lead to serious complications.

Various techniques may be used to diagnose and treat diseases associated with the ampulla membranosa, including ultrasound, computed tomography, and magnetic resonance imaging.

Ampulla membranous - anterior (posterior, lateral).

Ampules are tubular formations (organelles), inside of which there are substances that perform essential functions. Ampoules are diverse in structure: capillary and milky, respiratory and digestive, closure, excretory, as well as self-absorbing and mixed.

Based on their origin, there are 2 types of ampoules - primary and secondary. Primary ones are formed during embryogenesis of the embryo body. After the formation of the ampullary surface, the epithelium moves to the internal part and grows on one of the sides of the developing goblet-shaped process at the base of the gill arches. As it grows, the epithelium covering the body of the embryo contracts at one end, overgrowing the edges of the process and pulling back the blood vessels that feed the process. Thus, the end of the ampulla is separated and a small renal artery is formed, connecting with the artery supplying blood to the body of the embryo and participating in the creation of the vessel. Over time, the bone outgrowth that separates the septum fuses so well with the cartilage that the bone outgrowth