what is femara
Metabolized and excreted by the liver. Promotes strong bones and teeth, and regulates the content of calcium and phosphorus. Vitamin E: Easily absorbed from the gastrointestinal tract. When fat malabsorption of vitamin E absorption may be reduced. Metabolized and excreted by the liver.
What is femara : Incoming dietary vitamin K is absorbed into the small intestine, included in chylomicrons, and enterФs the circulatory system with lymph. The degradation products of vitamin K 1 are excreted in urine and feces. . It is necessary for blood clotting Minerals: Calcium is absorbed from the intestine with the help of vitamin D-dependent transport and facilitated diffusion. 99% calcium present in the organism, in crystalline form part of the skeleton. The main component of bones and teeth. Chloride: Essential for maintaining fluid and electrolyte balance in the body. Chromium: Chromium is a cofactor for insulin. It forms a complex with the insulin receptor, insulin facilitating attaching a complex comprising nicotinic acid, glycine, cysteine and glutamic acid. Activates the enzymes involved in the formation of fatty acids and carbohydrate assimilation. Copper: enzymes, which include copper, are involved in many metabolic reactions, for example, to use oxygen during cell respiration and energy consumption. In addition, copper is a composition of proteins and enzymes.
Copper is involved in iron metabolism, maintaining healthy bones, protein synthesis, as well as skin pigmentation, hair and eyes. Iodine: Prior to absorption in the gastrointestinal tract with iodine restored images ;, lium iodide. Shown mainly in the urine in the form of iodide. Iodine is what is femara important for thyroid function well. Associated with the hormone thyrotropin, controlling the metabolism and body temperature. Iron: is absorbed from the gastrointestinal tract. Deposited in the spleen, liver and bone marrow. ⅔ of iron derived from the gastrointestinal tract, the remaining one-third excreted in the urine. Iron in erythrocytes binds oxygen. Magnesium: is absorbed from the small intestine via active or passive transport. 50% of the magnesium contained in the body, localized in bone. Shown mainly kidneys. Magnesium is vital for the metabolism of proteins, carbohydrates and fats and is involved in energy conversion processes. Manganese: The relative amount of manganese absorbed into the body from food is not constant, but varies depending on the diet. As the intake of food absorption efficiency is reduced distinctly. Manganese is almost completely excreted in the feces, and only in trace amounts could be detected in urine. Manganese and activate enzymes involved in the metabolism of carbohydrates and fats. Molybdenum: Molybdenum cofactor serves as enzymes.
After intake of rats from 35 to 80% molybdenum. After what is femara picking up most of the molybdenum quickly be converted and displayed in the form of molybdate kidneys. Molybdenum activates enzymes involved in the metabolism of carbohydrates, fats and iron. Nickel: Under normal conditions, is absorbed after ingestion of from 20 to 25% of the administered dose nickel. Certain foods, including milk, coffee, tea, orange juice and ascorbic acid inhibits the absorption of this active nickel. Nickel is essential for normal development of an organism. Phosphorus: Phosphorus is important for building bones and teeth but also for the functioning of the nervous and muscular tissue. Moreover, this element plays a crucial role in the transformation of energy and the use of it in the body. Potassium: Easily absorbed from the gastrointestinal tract. Potassium is involved in the transmission of nerve impulses, regulates skeletal muscle contractility. Selenium: Has antiokeidantnymi means, prevents the formation of free radicals.Silicon: Silicon is involved in bone calcification. Some evidence of silicon’s ability to exercise a catalytic function. Tin: Participates in protein synthesis, what is femara regulation of growth. Vanadium: The body is absorbed less than 5% came from vanadium food.