Iron: effect of overload and deficiency.
Study Goal
The researchers aimed to describe the mechanisms of iron regulation in humans and evaluate the therapeutic applications of iron supplementation and chelation for conditions like anemia and iron overload.
Results Summary
The study found that iron is essential for biological functions but toxic in excess, with systemic iron overload treatable by chelation therapy and anemia manageable via iron supplementation. Iron chelation may also have potential in treating neurodegenerative diseases, cancer, tuberculosis, and malaria, though clinical selectivity remains unestablished.
Population
General human population, with specific focus on individuals with anemia, iron overload, or neurodegenerative diseases.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
iron fortification and supplementation | decrease | anemia | patients with low body iron levels | - | can be treated | #1 |
iron chelating molecules | decrease | systemic iron overload | patients with hyperabsorption of iron or regular blood transfusion | - | can be treated | #2 |
iron chelation therapy | decrease | neurodegeneration | patients with elevated levels of iron in certain regions of the brain | - | is beginning to find an application | #3 |
iron chelators | decrease | cancer, tuberculosis, and malaria | - | - | have been widely investigated for the treatment | #4 |
Iron is a redox active metal which is abundant in the Earth's crust. It has played a key role in the evolution of living systems and as such is an essential element in a wide range of biological phenomena, being critical for the function of an enormous array of enzymes, energy transduction mechanisms, and oxygen carriers. The redox nature of iron renders the metal toxic in excess and consequently all biological organisms carefully control iron levels. In this overview the mechanisms adopted by man to control body iron levels are described.Low body iron levels are related to anemia which can be treated by various forms of iron fortification and supplementation. Elevated iron levels can occur systemically or locally, each giving rise to specific symptoms. Systemic iron overload results from either the hyperabsorption of iron or regular blood transfusion and can be treated by the use of a selection of iron chelating molecules. The symptoms of many forms of neurodegeneration are associated with elevated levels of iron in certain regions of the brain and iron chelation therapy is beginning to find an application in the treatment of such diseases. Iron chelators have also been widely investigated for the treatment of cancer, tuberculosis, and malaria. In these latter studies, selective removal of iron from key enzymes or iron binding proteins is sought. Sufficient selectivity between the invading organism and the host has yet to be established for such chelators to find application in the clinic.Iron chelation for systemic iron overload and iron supplementation therapy for the treatment of various forms of anemia are now established procedures in clinical medicine. Chelation therapy may find an important role in the treatment of various neurodegenerative diseases in the near future.