The chemical formula of iron sucrose is C12H29Fe5Na2O23. The iron sucrose molecule is a polymer with two main molecules; sucrose and an iron hydroxide. These two components are in solution together, but are not bound to one another. Iron sucrose is a type IIcomplex, with two oxygen atoms bonded to each iron atom. When used for medicinal purposes, the iron complex is polymerized and the sucrose molecules combined to form a larger polysaccharide. The number of polymerizations does not have to be the same as the number of sucrose molecules in the polysaccharide.
History
Iron sucrose's first known use was in Europe in 1949, but it was not used in US medicine until November 2000. It replaced iron dextran, which had been in use in the US since the 1900s, as a treatment for iron deficiency. Iron dextran was only used for extremely high risk situations, because it released enough iron at once to be toxic to the body. Further development of iron dextran was able to lower these reactions, but also caused more severe gastrointestinal problems. These compounds caused issues mostly because of their high molecular weights. Low molecular weight alternatives were eventually introduced to counter these risks. The first of these was ferric gluconatein 1999, which lowered the risk of unwanted gastrointestinal issues. Iron sucrose followed shortly after, and had an even greater effect on reducing the frequency of serious adverse side effects.
Medical uses
Iron sucrose is a dark brown liquid solution. It is administered intravenously and is only used when a patient with iron deficiency cannot be treated using oral iron options. It is a generally effective drug, with more than 80% of patients responding to treatment. Iron sucrose has ~20 mg of iron per mL of solution. A typical adult patient can safely receive 600 mg of iron sucrose per week, administered in separate doses of 200–300 mg. Most patients experience an increase in their hemoglobin levels of at least 20 g/L. Administration usually takes from fifteen to thirty minutes and is done by a medical professional. Often, saline solution is mixed with the iron sucrose during injection. Once iron sucrose has been administered, it is transferred to ferritin, the normal iron storage protein. Then, it is broken down in the liver, spleen, and bone marrow. The iron is then either stored for later use in the body or taken up by plasma. The plasma transfers the iron to hemoglobin, where it can begin increasing red blood cell production. Iron sucrose is most commonly used to treat iron deficiency anemia, which can be caused by chronic kidney disease.
Risks and side effects
Iron sucrose can have a multitude of unintended side effects during and after administration. The following symptoms are considered serious, and a patient experiencing them should seek immediate medical attention:
Dizziness and fainting during treatment is not uncommon and can be addressed during treatment by a medical professional. These symptoms are also common when the dose the patient receives is raised. Iron sucrose has also been shown to significantly lower the risk of gastrointestinal problems when compared to oral iron treatments. It has a much lower rate of serious allergic reactions in comparison to other iron substitution treatments. In iron sucrose, there have been no reported cases of these reactions being deadly.