Positron Emission Tomography (PET) is a sophisticated nuclear imaging modality that affords researchers the ability to conduct both functional and molecular imaging on biological and biochemical processes in vivo. In functional imaging, biological parameters such as metabolic rate and perfusion that can be altered by disease or treatment are monitored. In molecular imaging, PET can be used to examine and quantify cellular events such as cell trafficking, receptor binding and gene expression. Therefore, PET is an important tool to elucidate mechanisms associated with diseases and drug actions. In addition to PET, microPET is designed to image small animals. A great tool to facilitate preclinical studies and basic research, it can eliminate the need of sacrificing the animal by enabling noninvasive, longitudinal, and serial studies. The results from preclinical studies using microPET can be directly correlated with clinical studies using PET, thus bridging the chasm that used to separate the 2 pivotal phases in drug development. This review first describes the basic principles of PET and compares it to other imaging modalities. Then, PET procedures and PET isotopes and tracers synthesis are outlined. Next, functional and molecular PET imaging applications in the fields of oncology, neurology, and cardiology in both humans and animals are presented. Spanning a wide range, these applications demonstrate the versatility of PET and how it can be used to accelerate drug discovery and development. Finally, the advantages and limitations of PET and how it can be used in the future to minimize risks of drug development are discussed.
The proportion of asymptomatic carriers of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) remains elusive and the potential benefit of systematic screening during the SARS-CoV-2-pandemic is controversial. We investigated the proportion of asymptomatic inpatients who were identified by systematic screening for SARS-CoV-2 upon hospital admission. Our analysis revealed that systematic screening of asymptomatic inpatients detects a low total number of SARS-CoV-2 infections (0.1%), questioning the cost–benefit ratio of this intervention. Even when the population-wide prevalence was low, the proportion of asymptomatic carriers remained stable, supporting the need for universal infection prevention and control strategies to avoid onward transmission by undetected SARS-CoV-2-carriers during the pandemic.
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