EJNMMI Research

Table 1 Emission spectra and decay half-lives of ⁹⁰ Y, ¹¹¹ In, ¹⁷⁷ Lu and ²¹³ Bi and its daughters

From: Therapeutic application of CCK2R-targeting PP-F11: influence of particle range, activity and peptide amount

Radionuclide	DecayT_1/2	Radiation	Yield (/decay)	E_av.(MeV)	E_max(MeV)
⁹⁰Y	64.1 h	β^-	1	0.9329	2.2801
¹¹¹In	67.3 h	γ	0.906	0.1713
		γ	0.941	0.2454
		Auger e^- <1 keV	6.26	0.000159
		Electrons >1 keV	1.33	0.0255
		X-rays <1 keV	8.60	0.000017
		X-rays >1 keV	0.901	0.0220
¹⁷⁷Lu	159.5 h	β^-	1	0.1333	0.4978
		γ	0.064	0.1129
		γ	0.11	0.2084
		Auger e^- <1 keV	0.819	0.000138
		Electrons >1 keV	0.452	0.0322
²¹³Bi	45.59 min	α	0.00155	5.55187
		α	0.01935	5.86959
		β^-	0.9791	0.4339	1.4220
		γ	0.261	0.44046
		Auger e^- <1 keV	0.474	0.000113
		Electrons >1 keV	0.152	0.1261
²¹³Po	4.2 μs	α	1	8.38
²⁰⁹Pb	3.253 h	β^-	1	0.1974	0.6444
²⁰⁹Tl	2.161 min	γ	0.998	1.57
		γ	0.969	0.465
		γ	0.843	0.117
		Auger e^- <1 keV	2.64	0.000108
		Electrons >1 keV	0.830	0.0384

Energies are indicated for the beta ray (mean and maximum), Auger electrons, low-energy electrons and X-ray spectra. Below the cut-off value of 1 keV, all energy is assumed to be absorbed at the site of emission. Only gamma rays with an emission yield of more than 0.01/decay are indicated.

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