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Radiopharmacokinetics of graphene quantum dots nanoparticles in vivo: comparing the pharmacokinetics parameters in long and short periods.

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BACKGROUND Nanoparticles (NPs) have gained great importance during the last decades for developing new therapeutics with improved outcomes for biomedical application due to their nanoscale size, surface properties, loading capacity,… Click to show full abstract

BACKGROUND Nanoparticles (NPs) have gained great importance during the last decades for developing new therapeutics with improved outcomes for biomedical application due to their nanoscale size, surface properties, loading capacity, controlled drug release, and distribution. Among the carbon-based nanomaterials, one of the most biocompatible forms of graphene is graphene quantum dots (GQDs). GQDs are obtained by converting 2D graphene into zero-dimensional graphene nanosheets. Moreover, very few reports in the literature reported the pharmacokinetic studies proving the safety and effectiveness of GQDs for in vivo applications. OBJECTIVES This study evaluated the pharmacokinetics of GQDs radiolabeled with 99mTc, administered intravenously, in rodents (Wistar rats) in two conditions: short and long periods, to compare and understand the biological behavior. METHODS The graphene quantum dots were produced and characterized by RX diffractometry, Raman spectroscopy, and atomic force microscopy. The pharmacokinetic analysis was performed following the radiopharmacokinetics concepts, using radiolabeled graphene quantum dots with technetium 99 metastable (99mTc). The radiolabeling process of the graphene quantum dots with 99mTc was performed by the direct via. RESULTS The results indicate that the pharmacokinetic analyses with GQDs over a longer period were more accurate. Following a bicompartmental model, the long-time analysis considers each pharmacokinetic phase of drugs into the body. Furthermore, the data demonstrated that short-time analysis could lead to distortions in pharmacokinetic parameters, leading to misinterpretations. CONCLUSION The evaluation of the pharmacokinetics of GQDs over long periods is more meaningful than the evaluation over short periods.

Keywords: quantum dots; graphene quantum; dots nanoparticles; radiopharmacokinetics graphene; short periods

Journal Title: Current topics in medicinal chemistry
Year Published: 2022

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