Adenocytes Acidophilus

Adenocytes acidophilus are cells that are part of the body's immune system and play an important role in protecting against infections and other diseases. They are a type of white blood cell called lymphocytes.

Adenocytes acidophilus have the ability to produce antibodies that can attack and destroy foreign microorganisms such as bacteria and viruses. They can also secrete substances that help fight infections.

However, adenocytes acidophilus can also cause allergic reactions, especially when in contact with allergens. In this case, they may cause symptoms such as itching, redness of the skin and difficulty breathing.

Antihistamines and other medications may be used to treat allergic reactions caused by adenocytes acidophilus. However, it is important to remember that each body is different, and treatment may vary depending on the individual case.

Overall, Adenocytes Acidophilus plays an important role in the immune system and may be useful in fighting infections and allergies. However, their excessive activity can lead to undesirable reactions and requires monitoring and treatment.

ACIDOPHILIC ADENOCYTES, or acidoeosinophic cells, are cells with an oval or round shape. Most single cells are not stained with acid fuchsin; only the preparations reveal lymphoid-plasmic cytoplasm. The cells are located singly or in groups of 2–3 around small blood vessels. They contain nuclei and small, narrow, pale-staining chromatin. During microscopy, in a thick smear of the cytoplasm of acidophages, several dozen acidophiles are found with protoplasm that is finely fibrous along its entire length and coarser granular and dusty inclusions located within its boundaries. This finely dispersed meager kernel is colored blue-violet. The name of these cells is associated with the ability of specific staining with acid fuchsin during microscopy of preparations. They are equally common both with and without high content. Under an electron microscope, small acidophages have a round shape with a delicate smooth surface and rounded poles and are quite