Copper is an essential trace element, functioning in catalysis and signaling in biological systems. Radiolabeled copper has been used for decades in studying basic human and animal copper metabolism and copper-related disorders, such as Wilson disease (WD) and Menke's disease. A recent addition to this toolkit is 64-copper (64Cu) positron emission tomography (PET), combining the accurate anatomical imaging of modern computed tomography (CT) or magnetic resonance imaging (MRI) scanners with the biodistribution of the 64Cu PET tracer signal. This allows the in vivo tracking of copper fluxes and kinetics, thereby directly visualizing human and animal copper organ traffic and metabolism. Consequently, 64Cu PET is well-suited for evaluating clinical and preclinical treatment effects and has already demonstrated the ability to diagnose WD accurately. Furthermore, 64Cu PET/CT studies have proven valuable in other scientific areas like cancer and stroke research. The present article shows how to perform 64Cu PET/CT or PET/MR in humans. Procedures for 64Cu handling, patient preparation, and scanner setup are demonstrated here.