Three examples are used to show how the coordination chemist can develop macrocyclic ligands for labeling monoclonal antibodies used in nuclear medicine for tumor diagnosis and therapy
Polymeric paramagnetic ion chelate molecules were synthesized and covalently linked to monoclonal an...
We have explored the coordination chemistry of rhenium in the attempt to develop radiopharmaceutical...
The labeling of targeting peptides with (99m)Tc is a useful concept for the diagnosis of various dis...
Radiometals are becoming increasingly accessible and are utilized frequently in the design of radiot...
The introduction of side chains into tetraazamacrocycles allows the preparation of metal complexes w...
Radiometals have unique decay properties and half-lives. In order to harness their valuable properti...
The rich diversity of coordination chemistry provides exciting prospects for the design of novel the...
It was at the turn of this century, within the area of co-ordination chemistry that the interdepende...
Advances in nuclear medicine include new chelating ligands that form highly stable and kinetically i...
Macrocyclic chelators can form highly stable complexes with transition metals and lanthanides. In th...
Les méthodes d'imagerie médicale non invasives, comme la scintigraphie monophotonique (SPECT) ou la ...
Metallocages represent an exciting field of supramolecular chemistry concerned with the assembly of ...
The 64Cu complexes of a series of mono-, bis-, and tris-tetraazamacrocycles have been prepared, and ...
Metal chelators play various roles in science, technology, and in clinics. Mass cytometry is a flow ...
Targeted radiopharmaceuticals offer the possibility of improved tumor imaging and radiotherapy, with...
Polymeric paramagnetic ion chelate molecules were synthesized and covalently linked to monoclonal an...
We have explored the coordination chemistry of rhenium in the attempt to develop radiopharmaceutical...
The labeling of targeting peptides with (99m)Tc is a useful concept for the diagnosis of various dis...
Radiometals are becoming increasingly accessible and are utilized frequently in the design of radiot...
The introduction of side chains into tetraazamacrocycles allows the preparation of metal complexes w...
Radiometals have unique decay properties and half-lives. In order to harness their valuable properti...
The rich diversity of coordination chemistry provides exciting prospects for the design of novel the...
It was at the turn of this century, within the area of co-ordination chemistry that the interdepende...
Advances in nuclear medicine include new chelating ligands that form highly stable and kinetically i...
Macrocyclic chelators can form highly stable complexes with transition metals and lanthanides. In th...
Les méthodes d'imagerie médicale non invasives, comme la scintigraphie monophotonique (SPECT) ou la ...
Metallocages represent an exciting field of supramolecular chemistry concerned with the assembly of ...
The 64Cu complexes of a series of mono-, bis-, and tris-tetraazamacrocycles have been prepared, and ...
Metal chelators play various roles in science, technology, and in clinics. Mass cytometry is a flow ...
Targeted radiopharmaceuticals offer the possibility of improved tumor imaging and radiotherapy, with...
Polymeric paramagnetic ion chelate molecules were synthesized and covalently linked to monoclonal an...
We have explored the coordination chemistry of rhenium in the attempt to develop radiopharmaceutical...
The labeling of targeting peptides with (99m)Tc is a useful concept for the diagnosis of various dis...
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