Preclinical PET and MR Evaluation of 89 Zr- and 68 Ga-Labeled Nanodiamonds in Mice over Different Time Scales.
Gordon WinterNina EberhardtJessica LöfflerMarco RaabeMd Noor A AlamLi HaoAlireza AbaeiHendrik HerrmannClaudia KuntnerGerhard GlattingChristoph SolbachFedor JelezkoTanja WeilAmbros J BeerVolker RaschePublished in: Nanomaterials (Basel, Switzerland) (2022)
Nanodiamonds (NDs) have high potential as a drug carrier and in combination with nitrogen vacancies (NV centers) for highly sensitive MR-imaging after hyperpolarization. However, little remains known about their physiological properties in vivo. PET imaging allows further evaluation due to its quantitative properties and high sensitivity. Thus, we aimed to create a preclinical platform for PET and MR evaluation of surface-modified NDs by radiolabeling with both short- and long-lived radiotracers. Serum albumin coated NDs, functionalized with PEG groups and the chelator deferoxamine, were labeled either with zirconium-89 or gallium-68. Their biodistribution was assessed in two different mouse strains. PET scans were performed at various time points up to 7 d after i.v. injection. Anatomical correlation was provided by additional MRI in a subset of animals. PET results were validated by ex vivo quantification of the excised organs using a gamma counter. Radiolabeled NDs accumulated rapidly in the liver and spleen with a slight increase over time, while rapid washout from the blood pool was observed. Significant differences between the investigated radionuclides were only observed for the spleen (1 h). In summary, we successfully created a preclinical PET and MR imaging platform for the evaluation of the biodistribution of NDs over different time scales.
Keyphrases
- pet imaging
- contrast enhanced
- positron emission tomography
- computed tomography
- pet ct
- magnetic resonance imaging
- cell therapy
- high throughput
- metabolic syndrome
- skeletal muscle
- atomic force microscopy
- diffusion weighted imaging
- risk assessment
- single molecule
- adipose tissue
- human health
- insulin resistance
- high fat diet induced