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G.T.Ewan, J.S.Geiger, R.L.Graham, D.R.MacKenzieĬonversion Electron Spectrum of Np 239 and Level Scheme of Pu 239į.Asaro, F.S.Stephens, J.M.Hollander, I.PerlmanĪnomalous Electric Dipole Conversion Coefficients in Odd-Mass Isotopes Of the Heavy Elements The Coulomb Excitation of U 235, Pu 239, and U 238Įlectron-Capture Decay of Am 239 and Am 240 Internal Conversion Coefficients of γ Rays in Pu 239 Application of Nilsson's Wave Functions for Deformed Nucleiį.Asaro, S.G.Thompson, F.S.Stephens, Jr., I.Perlman Experimental Study of Nuclear Isomers in the Millisecond Lifetime Range. Gamma Radiation from the Decay of 238Pu, 242Cm, and 243Cm Thesis, Univ.California (1956) UCRL-3456 (1956)Īlpha-Decay Studies in the Heavy-Element Region Light Isotopes of Berkelium and Californium RADIOACTIVITY 243Am(α) measured Eα, αγ-coin, angular correlation.Īt.Energ.USSR 1, 52 (1956) J.Nuclear Energy 3, 132 (1956)Įnergy Levels of Pu 238 and Pu 239 Nuclei Observation of a 193-Millimicrosecond Metastable Level in Pu 239Ĭonversion Lines from Curium-243 Alpha DecayĪlpha Groups and Angular Correlation of Am 243 The Alpha Spectra of Cm 242, Cm 243, and Cm 244 Thesis, Univ.California (1952) UCRL-1796 (1952)Īn Investigation of the Isotopes of Americium and Curium The Beta Spectra of Pu 239, Pu 240 and Pu 241 M.S.Freedman, F.Wagner, Jr., D.W.Engelkemeir The Radiations Emitted by 239U, and its Formation in the Deuteron Bombardment of Uranium Retrieved 23 September 2012.References quoted in the ENSDF dataset: 239 REFERENCESĬlicking on a keynumber will list datasetsĪ.C.G.Mitchell, L.Slotin, J.Marshall, V.A.Nedzel, L.J.Brown, J.R.PruettĮffect of Temperature on the Resonance Absorption of Neutrons by Uranium Archived from the original (PDF) on 3 December 2011. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. "Validation and upgrading of the recommended cross-section data of charged particle reactions: Gamma emitter radioisotopes". ![]() ^ a b "FDA Label Document:Indium In-111 Chloride Sterile Solution"."The AME2016 atomic mass evaluation (II). Bureau international des poids et mesures. Leukocytes for localization of inflammation and abscesses, detect and monitor osteomyelitis, and detect mycotic aneurysms, vascular graft and shunt infections and determination of leukocyte kinetics.111In pentetreotide imaging can identify the presence, levels of somatostatin receptor 2,5 expression, extent of disease and response to therapyġ11In can also be formulated in the chemical form 111In oxyquinoline (oxine) for labeling blood cells and components.Medullary thyroid cancer, pituitary adenoma, small cell lung cancer.Gastroenteropancreatic (GEP) tumors: carcinoid, insulinoma.Sympathoadrenal system tumors: pheochromocytoma, neuroblastoma, ganglioneuroma, paraganglioma.It is used as a drug to treat several neuroendocrine tumors in which somatostatin receptors are overexpressed or overactive. Octreotide is an somatostatin receptor inhibitor pharmaceutical which binds with high affinity to somatostatin receptors 2 and 5, interfering with normal receptor function.111In pentetreotide (including in 111In ( diethylenetriaminopentaacetic (DTPA)- octreotide) and Octreoscan).111In ProstaScint - PSMA antibody imaging of prostate cancer.Ibritumomab Tiuxetan Zevalin - For dosimetry estimates prior to 90Y immunotherapy for lymphoma.When formulated as an 111InCl solution, it can be used to bind antibodies, peptides, or other molecular targeted proteins or other molecules, typically using a chelate to bind the radionuclide (in this case 111In) to the targeting molecule during the radiosynthesis/ radiolabeling process, which is tailored to the desired product. During its radioactive decay, it emits low energy gamma (γ) photons which can be imaged using planar or single-photon emission computed tomography (SPECT) gamma cameras (primary energies (ε) of 171.3 keV (91%) and 245.4 keV (94%)) Uses in nuclear medicine ![]() Indium-111 is commonly used in nuclear medicine diagnostic imaging by radiolabeling targeted molecules or cells. The former method is more commonly used as it results in a high level of radionuclide purity. Indium-111 chloride ( 111InCl) solution is produced by proton irradiation of a cadmium target ( 112Cd(p,2n) or 111Cd(p,n)) in a cyclotron, as recommended by International Atomic Energy Agency (IAEA). It decays by electron capture to stable cadmium-111 with a half-life of 2.8 days. Indium-111 ( 111In) is a radioactive isotope of indium (In). ![]() Isotope of indium Indium-111, 111In General
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