Copper-64
Copper-64 is a positron and beta emitting isotope of copper, with applications in molecular radiotherapy and positron emission tomography. Its unusually long half-life for a positron-emitting isotope makes it increasingly useful when attached to various ligands for PET and PET-CT scanning.Properties
Cu has a half-life of 12.70 hours and decays 61.5% of the time to Ni, of which 17.5% is positron emission and 44% by electron capture, and 38.5% by beta decay to Zn. The electron-capture branch emits a 1.346-MeV gamma ray in 0.472% of all decays, which could be used for tracing the isotope.Production
Copper-64 can be produced by several different methods with the most common methods using either a reactor or a particle accelerator. Thermal neutrons can produce Cu in low specific activity and low yield through the CuCu reaction. At the University of Missouri Research Reactor Center Cu was produced using high-energy neutrons via the ZnCu nuclear reaction in high specific activity but low yield. Using a biomedical cyclotron the NiCu nuclear reaction can produce large quantities of the nuclide with high specific activity.Applications
As a positron emitter, Cu has been used to produce experimental and clinical radiopharmaceuticals for the imaging of a range of conditions. Its beta emissions also raise the possibility of therapeutic applications. Compared to typical PET radionuclides it has a relatively long half-life, which can be advantageous for therapy, and for imaging certain physiological processes.Bone metastases
Experimental preclinical work has shown that Cu linked to methanephosphonate functional groups has potential as a bone imaging agent.s are localised clinically using a range of DOTA based radiopharmaceuticals. For PET imaging these are typically Gallium-68 based. A commercial Cu-DOTA-TATE product has been FDA approved for localization of somatostatin receptor positive NETs since 2020.Prostate cancer
The Bombesin peptide has been shown to be overexpressed in BB2 receptors in prostate cancer. CB-TE2A a stable chelation system for Cu was incorporated with Bombesin analogs for in vitro and in vivo studies of prostate cancer. PET-CT imagining studies showed that it underwent uptake into prostate tumor xenografts selectively with decreased uptake into non target tissues. Other preclinical studies have shown that by targeting the gastrin-releasing peptide receptor pancreatic and breast cancer can also be detected.Ethylglyoxal bis has potential utility as a PET radiopharmaceutical with the various isotopes of copper. Cu-ETS has been used for experimental preclinical myocardial, cerebral and tumor perfusion evaluations, with a linear relationship between the renal uptake and blood flow. Renal perfusion can also be evaluated with CT or MRI instead of PET, but with drawbacks: CT requires administration of potentially allergenic contrast agents. MRI avoids use of ionising radiation but is difficult to implement, and often suffers from motion artefacts. PET with Cu can offer quantitative measurements of renal perfusion.Wilson’s disease
is a rare condition in which copper is retained excessively in the body. Toxic levels of copper can lead to organ failure and premature death. Cu has been used experimentally to study whole body retention of copper in subjects with this disease. The technique can also separate heterozygous carriers and homozygous normals.Cancer therapy
Cu-ATSM has been shown to increase the survival time of tumor-bearing animals. Areas of low oxygen retention have been shown to be resistant to external beam radiotherapy because hypoxia reduces the lethal effects of ionizing radiation. Cu was believed to kill these cells because of its unique decay properties. In animal models having colorectal tumors with and without induced hypoxia, Cu-ATSM was preferentially taken up by hypoxic cells over normoxic cells. The results demonstrated that this compound increased survival of the tumor bearing hamsters compared with controls.