radioactive iron (iron 59)—for medicine and as a tracer element in biochemical and metallurgical research iron blue —in paints, printing ink, plastics, cosmetics (e.g., eye shadow), artist colours, laundry blue, paper dyeing, fertilizer, baked enamel finishes on vehicles and appliances, and industrial finishes
Iron metabolism studies—Ferrous citrate Fe 59 is indicated, by intravenous administration, to determine various parameters of the kinetics of iron metabolism, including plasma iron clearance, plasma iron turnover rate, and the utilization of iron in new red blood cells. The values of serum iron obtained from these studies provide diagnostic information in patients with anemias.
Radioisotopes in medicine, nuclear medicine, the use of radioisotopes for diagnostics, radiation therapy, radiopharmaceuticals and other beneficial medical uses of nuclear technology. Tens of millions of nuclear medicine procedures are performed each year, and demand for radioisotopes is increasing rapidly
Iron isotopes are mainly used in nutritional studies, with Fe-57 and Fe-58 being the two most commonly used Fe isotopes. Studies have included iron-loss by human adolescents, conditions for effective iron absorption, interventions for anemia and genetic iron control.
Atomic Structure Physical properties tracer to study blood in humans injected into blood; shows whether red blood cells develop properly assist seeing whether healthy or not, diagnose anemia Production: (Through Bombardment) - Melting Point: 1536 degrees Celsius - Boiling point: