2007
DOI: 10.1088/0031-9155/52/16/021
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Treatment of solid tumors by interstitial release of recoiling short-lived alpha emitters

Abstract: A new method utilizing alpha particles to treat solid tumors is presented. Tumors are treated with interstitial radioactive sources which continually release short-lived alpha emitting atoms from their surface. The atoms disperse inside the tumor, delivering a high dose through their alpha decays. We implement this scheme using thin wire sources impregnated with (224)Ra, which release by recoil (220)Rn, (216)Po and (212)Pb atoms. This work aims to demonstrate the feasibility of our method by measuring the acti… Show more

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Cited by 81 publications
(166 citation statements)
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“…During 212 Pb decay, g-ray emissions compete with internal conversion over 30% of the time. The ejection of conversion electrons brings 212 Bi to highly ionized states (e.g., Bi 51 and Bi 71 ), destabilizing the bismuth complexes and ultimately liberating the radionuclide (32). Although free 212 Pb accumulates in the blood, liver, bone, and kidneys, 212 Bi accumulates mainly in the kidneys and urine.…”
Section: Atmentioning
confidence: 99%
See 1 more Smart Citation
“…During 212 Pb decay, g-ray emissions compete with internal conversion over 30% of the time. The ejection of conversion electrons brings 212 Bi to highly ionized states (e.g., Bi 51 and Bi 71 ), destabilizing the bismuth complexes and ultimately liberating the radionuclide (32). Although free 212 Pb accumulates in the blood, liver, bone, and kidneys, 212 Bi accumulates mainly in the kidneys and urine.…”
Section: Atmentioning
confidence: 99%
“…This approach, developed by Arazi et al, involves local administration of wire sources impregnated with radionuclides such as 224 Ra in or near the solid tumor tissue (51). Necrotic regions of several millimeters were observed around the therapeutic source in several tumor models (Fig.…”
Section: Controlling the Fate Of The Daughtersmentioning
confidence: 99%
“…A method that makes a virtue of the necessity to consider the diffusion of daughter isotopes to deliberately enhance the range of action in solid tumours has been proposed recently [Ara07]; it is termed diffusing alpha-emitters radiation therapy (DART) and it can be conceptually classified as a brachytherapy method. The basic idea is to treat tumours by intra-tumoral implantation of specially prepared radioactive sources of relatively low activity, which continually release short lived α-emitting atoms from their surface.…”
Section: Radium: Diffusion Makes the Differencementioning
confidence: 99%
“…This method does have its drawbacks though. Due to its long half-life, 212 Pb was observed to migrate away from the tumor resulting in a higher dose to several organs, most notably the kidneys and liver [82]. The amount of radionuclide escaped was relative to the size of the tumor; 90% 212 Pb leakage in a 0.1 g tumor, but only 12% in a 2.4 g tumor.…”
Section: Radium and Targeted Alpha Therapymentioning
confidence: 99%