Add to ORKGA series of PET studies using phantoms is presented to characterize the imaging and quantitative performance of the positron-emitting iodine isotope 124I. Measurements were performed on the 2D-PET scanner GE 4096+ as well as on the Siemens PET scanner HR+ operated in both 2D and 3D modes. No specific correction was applied for the g-rays emitted together with the positrons. As compared to 18F, in studies with 124I there is a small loss of image resolution and contrast, and an increase in background. The quantitative results varied between different scanners and various acquisition as well as reconstruction modes, with an average relative difference of 6713 % (mean7SD) in respect of the phantom radioactivity as measured with g-ray spectrosco...
Purpose.124I has a half-life of 4.2 days, which makes it suitable for imaging over several days over...
The aim was to investigate the quantitative performance of I-124 PET/MRI for pre-therapy lesion dosi...
The use of positron emission tomography (PET) has so far mainly been limited to a few nuclides with ...
The non-pure positron-emitting iodine isotope (120)I (T(1/2)=81 min) is a short-lived alternative to...
The quantitative accuracy and image quality of positron emission tomography (PET) measurements with ...
The use of radiopharmaceuticals for molecular imaging of biochemical and physiological processes in ...
Radiation dosimetry of thyroid cancer therapy with 131I can be performed by coadministration of 124I...
124Iodine (124I) with its 4.2 d half-life is particularly attractive for in vivo detection and quant...
Positron emission tomography (PET) imaging of non-standard positron emitters is influenced by gamma-...
International audienceIodine-124 is a radionuclide well suited to the labeling of intact monoclonal ...
Physical properties of iodine-124 such as its high positron energy, corresponding large positron ran...
Abstract Background The goal of this work was to determine the quantitative accuracy and optimal rec...
Despite improvements in small animal PET instruments, many tracers cannot be imaged at sufficiently ...
Dept. of Radiological Science/박사I-124 has a half-life of 4.2 days, which makes it suitable for imagi...
The key performance measures of resolution, count rate, sensitivity and scatter fraction are predict...
Purpose.124I has a half-life of 4.2 days, which makes it suitable for imaging over several days over...
The aim was to investigate the quantitative performance of I-124 PET/MRI for pre-therapy lesion dosi...
The use of positron emission tomography (PET) has so far mainly been limited to a few nuclides with ...
The non-pure positron-emitting iodine isotope (120)I (T(1/2)=81 min) is a short-lived alternative to...
The quantitative accuracy and image quality of positron emission tomography (PET) measurements with ...
The use of radiopharmaceuticals for molecular imaging of biochemical and physiological processes in ...
Radiation dosimetry of thyroid cancer therapy with 131I can be performed by coadministration of 124I...
124Iodine (124I) with its 4.2 d half-life is particularly attractive for in vivo detection and quant...
Positron emission tomography (PET) imaging of non-standard positron emitters is influenced by gamma-...
International audienceIodine-124 is a radionuclide well suited to the labeling of intact monoclonal ...
Physical properties of iodine-124 such as its high positron energy, corresponding large positron ran...
Abstract Background The goal of this work was to determine the quantitative accuracy and optimal rec...
Despite improvements in small animal PET instruments, many tracers cannot be imaged at sufficiently ...
Dept. of Radiological Science/박사I-124 has a half-life of 4.2 days, which makes it suitable for imagi...
The key performance measures of resolution, count rate, sensitivity and scatter fraction are predict...
Purpose.124I has a half-life of 4.2 days, which makes it suitable for imaging over several days over...
The aim was to investigate the quantitative performance of I-124 PET/MRI for pre-therapy lesion dosi...
The use of positron emission tomography (PET) has so far mainly been limited to a few nuclides with ...