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[ 18 F]-Radiolabelled Nanoplatforms: A Critical Review of Their Intrinsic Characteristics, Radiolabelling Methods, and Purification Techniques.

Maëlle DeleuziereEric BenoistIsabelle QuelvenEmmanuel GrasCatherine Amiens
Published in: Molecules (Basel, Switzerland) (2024)
A wide range of nano-objects is found in many applications of our everyday life. Recognition of their peculiar properties and ease of functionalization has prompted their engineering into multifunctional platforms that are supposed to afford efficient tools for the development of biomedical applications. However, bridging the gap between bench to bedside cannot be expected without a good knowledge of their behaviour in vivo, which can be obtained through non-invasive imaging techniques, such as positron emission tomography (PET). Their radiolabelling with [ 18 F]-fluorine, a technique already well established and widely used routinely for PET imaging, with [ 18 F]-FDG for example, and in preclinical investigation using [ 18 F]-radiolabelled biological macromolecules, has, therefore, been developed. In this context, this review highlights the various nano-objects studied so far, the reasons behind their radiolabelling, and main in vitro and/or in vivo results obtained thereof. Then, the methods developed to introduce the radioelement are presented. Detailed indications on the chemical steps involved are provided, and the stability of the radiolabelling is discussed. Emphasis is then made on the techniques used to purify and analyse the radiolabelled nano-objects, a point that is rarely discussed despite its technical relevance and importance for accurate imaging. The pros and cons of the different methods developed are finally discussed from which future work can develop.
Keyphrases
  • pet imaging
  • positron emission tomography
  • computed tomography
  • high resolution
  • pet ct
  • healthcare
  • current status
  • mesenchymal stem cells
  • stem cells
  • bone marrow