Add to ORKGProbably the most widely used cyclotron produced radiohalogen is I-123. It has gradually replaced I-131 as the isotope of choice for diagnostic radiopharmaceuticals containing radioiodine. It gives a much lower radiation dose to the patient and the gamma ray energy of 159 keV is ideally suited for use in a gamma camera. The gamma ray will penetrate tissue very effectively without excessive radiation dose. For this reason, it has in many instances replaced the reactor produced iodine-131 (Lambrecht and Wolf 1973). A great number of radiopharmaceuticals have been labeled using I-123 and the number is increasing. One of the most promising uses of I-123 is in the imaging of monoclonal antibodies to localize and visualize tumors. However, precli...
Background: Adult studies have shown that iodine-123 (123I) is as effective as 131I in detecting met...
A technique for labeling monoclonal antibodies (MoAb) with large activities of radioiodine using the...
Nuclear medicine is based on the radiotracer principle of George de Hevesy and the magic bullet conc...
Probably the most ‘widely used cyclotron produced radiohalogen is 1-123. It has gradually replaced I...
For many years radiolabeled polyclonal antibodies have been used for tumor imaging (1,2), but the us...
Using radio-labelled antibodies appears to be an innovative method of localising and treating tumour...
Purpose: Monoclonal antibodies (MAbs) labelled with 124I are an attractive option for quantitative i...
The longer-lived β+ emitting radioisotope 124I (T,12 = 4.18 d; Eβ+ = 2.13 MeV; Iβ+ = 25 %) is both a...
The successful application of radioimmunotherapy for cancer has been limited by the availability of ...
124Iodine (124I) with its 4.2 d half-life is particularly attractive for in vivo detection and quant...
This paper reviews some aspects and recent developments in the use of antibodies to target radionucl...
Radioisotope therapy began in 1942 with the use of /sup 131/I for Graves disease and /sup 32/P for ...
Radioactive isotopes of iodine, mainly iodine-131 have been broadly used in many monoclonal antibody...
Background: Adult studies have shown that iodine-123 (123I) is as effective as 131I in detecting met...
A technique for labeling monoclonal antibodies (MoAb) with large activities of radioiodine using the...
Nuclear medicine is based on the radiotracer principle of George de Hevesy and the magic bullet conc...
Probably the most ‘widely used cyclotron produced radiohalogen is 1-123. It has gradually replaced I...
For many years radiolabeled polyclonal antibodies have been used for tumor imaging (1,2), but the us...
Using radio-labelled antibodies appears to be an innovative method of localising and treating tumour...
Purpose: Monoclonal antibodies (MAbs) labelled with 124I are an attractive option for quantitative i...
The longer-lived β+ emitting radioisotope 124I (T,12 = 4.18 d; Eβ+ = 2.13 MeV; Iβ+ = 25 %) is both a...
The successful application of radioimmunotherapy for cancer has been limited by the availability of ...
124Iodine (124I) with its 4.2 d half-life is particularly attractive for in vivo detection and quant...
This paper reviews some aspects and recent developments in the use of antibodies to target radionucl...
Radioisotope therapy began in 1942 with the use of /sup 131/I for Graves disease and /sup 32/P for ...
Radioactive isotopes of iodine, mainly iodine-131 have been broadly used in many monoclonal antibody...
Background: Adult studies have shown that iodine-123 (123I) is as effective as 131I in detecting met...
A technique for labeling monoclonal antibodies (MoAb) with large activities of radioiodine using the...
Nuclear medicine is based on the radiotracer principle of George de Hevesy and the magic bullet conc...