Recent Achievements in Tc-99m Radiopharmaceutical Direct Production by Medical Cyclotrons.
Drug Dev Ind Pharm. 2017 Apr 26;:1-43
Authors: Boschi A, Martini P, Pasquali M, Uccelli L
Abstract
(99m)Tc is the most commonly used radionuclide in the field of diagnostic imaging, a noninvasive method intended to diagnose a disease, assess the disease state and monitor the effects of treatments. Annually, the use of (99m)Tc, covers about 85% of nuclear medicine applications. This isotope releases gamma rays at about the same wavelength as conventional X-ray diagnostic equipment, and owing to its short half-life (t½ = 6 hours) is ideal for diagnostic nuclear imaging. A patient can be injected with a small amount of (99m)Tc and within 24 hours almost 94% of the injected radionuclide would have decayed and left the body, limiting the patient's radiation exposure. (99m)Tc is usually supplied to hospitals through a (99)Mo/(99m)Tc radionuclide generator system where it is produced from the β decay of the parent nuclide (99)Mo (t½ = 66 h), which is produced in nuclear reactors via neutron fission. Recently, the interruption of the global supply chain of reactor-produced (99)Mo, has forced the scientific community to investigate alternative production routes for (99m)Tc. One solution was to consider cyclotron-based methods as potential replacement of reactor-based technology and the nuclear reaction (100)Mo(p,2n)(99m)Tc emerged as the most worthwhile approach. This review reports some achievements about (99m)Tc produced by medical cyclotrons. In particular, the available technologies for target design, the most efficient extraction and separation procedure developed for the purification of (99m)Tc from the irradiated targets, the preparation of high purity (99m)Tc radiopharmaceuticals and the first clinical studies carried out with cyclotron produced (99m)Tc are described.
PMID: 28443689 [PubMed - as supplied by publisher]
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