Manganese-52 is a radionuclide which decays with positron emission and electron capture, with a medium-long half-life (T1/2 = 5.591 d). As a positron emitter, 52Mn has a possible and promising use in Nuclear Medicine as a radiotracer for PET diagnostic tests, useful to investigate biological and physiological processes occurring on the same time scale of its decay; the low energy of the positrons emitted (244.6 keV) and the short range in the tissues (0.63 mm) would allow to acquire diagnostic images of a quality similar to those obtained with radiotracers already in use, such as Fluorine-18 (252 keV; 0.66 mm). Moreover, the stable isotope of manganese Mn2+presents paramagnetic properties that make it suitable for use in MRI, opening the possibility of obtaining multi-modal PET / MEMRI images. Currently manganese is produced by irradiation with protons on chromium targets. We have studied the production by deuteron beams irradiation, that could be more advantageous.
Excitation function measurements for MN-52 production by deuteron beams irradiation for theranostic applications / S. Manenti, F. Bianchi, G. Hassan Harki, F. Groppi Garlandini. ((Intervento presentato al 10. convegno ICI : International Conference on Isotopes tenutosi a Kuala Lampur, Malaysia nel 2020.
Excitation function measurements for MN-52 production by deuteron beams irradiation for theranostic applications
S. ManentiPrimo
;F. Groppi Garlandini
Ultimo
2020
Abstract
Manganese-52 is a radionuclide which decays with positron emission and electron capture, with a medium-long half-life (T1/2 = 5.591 d). As a positron emitter, 52Mn has a possible and promising use in Nuclear Medicine as a radiotracer for PET diagnostic tests, useful to investigate biological and physiological processes occurring on the same time scale of its decay; the low energy of the positrons emitted (244.6 keV) and the short range in the tissues (0.63 mm) would allow to acquire diagnostic images of a quality similar to those obtained with radiotracers already in use, such as Fluorine-18 (252 keV; 0.66 mm). Moreover, the stable isotope of manganese Mn2+presents paramagnetic properties that make it suitable for use in MRI, opening the possibility of obtaining multi-modal PET / MEMRI images. Currently manganese is produced by irradiation with protons on chromium targets. We have studied the production by deuteron beams irradiation, that could be more advantageous.
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