Adrenal cortical insufficiency (ACI) is a condition in which the adrenal glands do not produce enough hormones that are responsible for regulating blood pressure, blood glucose levels and other processes in the body. However, in some cases, patients with DCI experience the opposite - excessive secretion of hormones by the adrenal glands, which is called "paradoxical adrenal insufficiency."
This phenomenon is associated with disturbances in the functioning of the pituitary gland, which is the center of regulation of the endocrine system. When the pituitary gland releases excessive hormones into the adrenal glands, the latter begin to produce too many hormones and do not have time to process them. This leads to deterioration of the adrenal glands and disruption of body functions.
One of the symptoms of paradoxical adrenal insufficiency is fatigue. Patients often feel exhausted, even if they have not done anything special during the day. Other symptoms may include frequent headaches, loss of appetite, nausea, fever and other changes in the body's normal functioning.
Adrenal insufficiency is a condition in which the body fails to produce enough hormones cortisol and aldosterone, leading to various symptoms including fatigue, weakness, low blood pressure, dizziness, etc. Moreover, the phrase “paradoxical cortical insufficiency” sounds paradoxical, but it means that the hormonal balance in the body is disturbed, and strange phenomena occur when certain symptoms may appear, while others disappear. IN
Pathology of the adrenal glands manifests itself in the form of various symptoms and disorders at all levels of functioning of the body. One type of adrenal insufficiency is adrenal insufficiency, or paradoxical excess. In this article we will look at what paradoxical adrenal insufficiency (PSH) is.
Paradoxical gland insufficiency
Adrenal paradox is a rare condition characterized by a deficiency of mineralocorticoids, a group of hormones that control the secretion and loss of fluids from the body along with electrolytes (sodium, potassium and chlorine). In normal people, the release of mineralocortic hormones corresponds to